Entries |
Document | Title | Date |
20080225125 | Image feature identification and motion compensation apparatus, systems, and methods - Apparatus, systems, and methods disclosed herein may estimate the magnitude of relative motion between a scene and an image capture device used to capture the scene. Some embodiments may utilize discrete cosine transform and/or Sobel gradient techniques to identify one or more blocks of pixels in an originating calibration image frame. Matching blocks of pixels may be located in a successive calibration image frame. Motion vectors originating at one calibration frame and terminating at the other calibration frame may be calculated. The magnitude of relative motion derived thereby may be used to adjust image capture parameters associated with the image capture device, including exposure settings. | 09-18-2008 |
20080225126 | SHAKE CORRECTION APPARATUS OF A CAMERA - A shake correction apparatus of a camera, includes a stationary support board; an electrical board movable relative to the stationary support board; an image pickup device supported by the electrical board and including leads made of a magnetic material which are arranged on a periphery of the image pickup device to electrically connect the image pickup device to the electrical board; at least one drive coil which moves with the electrical board; at least one magnet provided on a surface of the stationary support board which faces the electrical board, and positioned around the image pickup device and the leads as viewed from the front thereof, the magnet exerting a magnetic force on the drive coil; and at least one magnetic cover, made of a magnetic substance, for covering a portion of the magnet which faces the leads. | 09-18-2008 |
20080239084 | IMAGE TAKING APPARATUS - There is provided an image taking apparatus capable of preferably correcting both the camera shake and the subject shake in the still picture photography. The image taking apparatus has a system control section that determines whether a subject is a still subject or a dynamic subject. When the system control section determines that the subject is the still subject, the system control section instructs a timing generation section to cause an imaging section to generate a series of images, so that an image piling up section performs piling up of images in accordance with a computed result with a movement vector computing section. Thus, the camera shake is corrected. When the system control section determines that the subject is the dynamic subject, the system control section instructs the timing generation section to perform a single photography at a predetermined shutter time free from the subject shake. | 10-02-2008 |
20080246848 | IMAGE STABILIZING APPARATUS, IMAGE-PICKUP APPARATUS AND IMAGE STABILIZING METHOD - An image stabilizing apparatus includes a motion vector calculating part that calculates a motion vector between a plurality of images including a displacement caused by a motion of an image-pickup apparatus, a shake-correction parameter calculating part that receives the motion vector as input to calculate a shake correction amount, and an image transforming part that performs geometric transformation of the image in accordance with the shake correction amount. The shake-correction parameter calculating part performs variation amount calculation, variation amount correction and correction amount calculation based on the motion information between the plurality of images. The image stabilizing apparatus preserves a motion in video from an intended camera work and allows image stabilization for an unintended shake. | 10-09-2008 |
20080259169 | Image Processing Device, Image Processing Method, and Image Processing Program - A motion-vector-setting section ( | 10-23-2008 |
20080309770 | METHOD AND APPARATUS FOR SIMULATING A CAMERA PANNING EFFECT - A digital image acquisition system determines a motion function of a subject/object in an acquired image scene based on a comparison of a reference image of nominally the same scene taken outside the exposure period of the acquired image and at least one other image. The acquired image is segmented into a foreground portion and a background portion and a background portion of the acquired image is convolved according to the motion function. The foreground portion and the convolved background portion are composited to produce a final image in which panning of a camera during image acquisition is simulated. | 12-18-2008 |
20080309771 | Digital camera - A digital camera comprises an imaging/focus detection element, in which focus detection pixel rows are incorporated in a two-dimensional array of a plurality of imaging pixels, that outputs image signals and focus detection signals, a focus detection unit that detects a state of focal adjustment at a photographic optical system based upon the focus detection signal, an image blur detection unit that detects an image blur quantity, a reliability judgment unit that judges, based upon the blur quantity, whether or not the state of focal adjustment detected in correspondence to a focus detection pixel row disposed along a direction different from a rolling shutter scanning direction among the focus detection pixel rows is reliable, and a focal adjustment unit that executes focal adjustment for the photographic optical system based upon the state of focal adjustment judged to be reliable by the reliability judgment unit. | 12-18-2008 |
20090040318 | IMAGE STABILIZATION WITH USER FEEDBACK - An apparatus to facilitate image stabilization with user feedback is described. An embodiment of the apparatus includes an image sensor, a movement detector, and a digital processor. The image sensor acquires an image of a scene over an exposure period. The movement detector is coupled to the image sensor. The movement detector computes a movement measurement of the image sensor during the exposure period. The digital processor is coupled to the movement detector. The digital processor provides feedback to a user during the exposure period. The feedback is based on the movement measurement. Embodiments of the apparatus provide a simpler and less costly implementation for image stabilization. | 02-12-2009 |
20090040319 | Digital still camera and image blur correction apparatus - Prior to a photographing operation, an image blur quantity indicating the extent to which the image becomes blurred during the photographing operation is calculated based upon an image-capturing sensitivity having been set, and a decision is made as to whether or not the image-capturing sensitivity needs to be adjusted based upon the calculated image blur quantity. If it is decided that the sensitivity level needs to be adjusted, the image-capturing sensitivity is adjusted and the photographing operation is executed at the shutter speed calculated based upon the adjusted image-capturing sensitivity. | 02-12-2009 |
20090051775 | SIGNAL PROCESSING DEVICE - A signal processing device includes a system of system of circuit processing in essence while avoiding large sized device under restoring fluctuated signals such as deterioration and the like. The signal processing unit includes a processing unit that restores one of a signal before fluctuation, a signal which should have been intrinsically obtained, and signal data which is approximated from these signals from an initial signal which has fluctuated like deterioration. A fluctuated data region storing fluctuated data and a restored data region storing signal data (restored data) restored every restoring process are installed. The processing unit repeats the following processes in order to produce data formed in the restored data region at the completion of processing as original signal data. The processing unit transfers energy of the fluctuated data from the fluctuated data region to the restored data region using fluctuation-factor information data, which is a fluctuation factor, and produces restored data; and substitutes residual data in the fluctuated data region remained through the data transfer for the fluctuated data. | 02-26-2009 |
20090079836 | IMAGE PROCESSING APPARATUS, METHOD, AND COMPUTER PROGRAM PRODUCT - An image processing apparatus includes a correction-amount calculating unit that calculates a motion-blur correction amount, which takes a larger value as the reproduction speed becomes lower, based on an input reproduction speed; a motion-blur correcting unit that performs scale transformation on a motion vector based on the motion-blur correction amount, acquires low frequency components of a source image and a destination image using an anisotropic Gaussian filter determined by a direction and a size of the motion vector subjected to the scale transformation, and performs edge enhancement on the source image and the destination image based on the low frequency components and high frequency components of the source image and the destination image; and an interpolation-image creating unit that creates the interpolation image using the source image for which the motion blur is corrected, the destination image for which the motion blur is corrected, and the motion vector. | 03-26-2009 |
20090086034 | Video Image Processing Device, Video Image Processing Method, and Video Image Processing Program - An image processing apparatus includes a shot splitting unit that splits a moving image into a plurality of shots each including a plurality of sequential frames; a shot detecting unit that detects, among the shots, a second shot similar to a first shot that is to be encoded; a first shot-generating unit that generates a third shot by correcting a time length of the second shot; a second shot-generating unit that generates a fourth shot by performing motion compensation using at least one of the first shot and the third shot; and an encoding unit that encodes a difference between the first shot and the fourth shot. | 04-02-2009 |
20090091631 | METHOD AND APPARATUS FOR STABLY CORRECTING HANDSHAKE IN CAMERA PANNING SITUATION - Provided are an apparatus and method for stably correcting handshake that occurs during a camera panning situation. In the method, movement information is accumulated by a predetermined unit for a predetermined period of time. A regression model is matched to the accumulated movement information so as to determine a situation as one of a panning mode and a handshake mode. Switching is performed between the handshake mode and the panning mode according to the size of a matching factor generated by the matched regression model. Handshake is corrected on the basis of a handshake correcting amount determined according to one of the handshake mode and the panning mode. | 04-09-2009 |
20090102932 | Black Card Controlling Method and Electronic Device Thereof - A black card controlling method and an electronic device thereof are disclosed. The black card controlling method comprises the steps of: providing an electronic device used for photographing, wherein the electronic device comprises a photosensitive element, a shutter, a lens module and a black card device; obtaining an image by the photosensitive element; obtaining light contrast information by analyzing the image; moving the black card device and setting a shaking parameter of the black card device according to the light contrast information; starting the shutter; and shaking the black device according to the shaking parameter of the black card device. | 04-23-2009 |
20090115858 | APPARATUS AND METHOD FOR DIGITAL IMAGE STABILIZATION USING OBJECT TRACKING - Apparatus for digital image stabilization using object tracking can produce a digital still image free of an image blurring phenomenon caused by shaky hands without separate hardware and can produce an image that is bright, clear, and noise free. The apparatus includes an image signal processing unit that outputs a first digital image obtained under a first exposure value condition and a plurality of second digital images obtained under a second exposure value condition. The apparatus also includes a shaky hand compensating unit that compensates for motion in comparative second digital images relative to a reference second digital image using object tracking. The compensating unit then generates a shaky hand compensated image by overlapping each compensated comparative image with the reference image. The apparatus further includes an image property correcting unit that corrects a property of the shaky hand compensated image based on a property of the first digital image. | 05-07-2009 |
20090115859 | APPARATUS FOR DIGITAL IMAGE STABILIZATION USING OBJECT TRACKING AND METHOD THEREOF - Apparatus for digital image stabilization using object tracking includes an image signal processing unit that outputs a first digital image obtained under a first exposure value condition and a plurality of second digital images obtained under a second exposure value condition. The apparatus also includes a shaky hand compensating unit that compensates for motion in comparative second digital images relative to a reference second digital image by tracking an object in either a binary image or a reverse binary image of a respective second digital image that has the most objects (i.e., in the binary or reverse image). The compensating unit then generates a shaky hand compensated image by overlapping the motion-compensated images with the reference image. The apparatus further includes an image property correcting unit that corrects a property of the shaky hand compensated image based on a property of the first digital image. | 05-07-2009 |
20090135259 | METHOD AND APPARATUS TO CORRECT DIGITAL IMAGE BLUR DUE TO MOTION OF SUBJECT OR IMAGING DEVICE - Signal processing techniques are applied to digital image data to remove the distortion caused by motion of the camera, or the movement of the subject being photographed, or defective optics, or optical distortion from other sources. When the image is captured, the effect of relative motion between the camera and the subject is that it transforms the true image into a blurred image according to a 2-dimensional transfer function. The 2-dimensional transfer function representing the motion is derived using blind estimation techniques or by using information from sensors that detect the motion. The transfer function is inverted and used to define a corrective filter. The filter is applied to the image and the blur due to the motion is removed, restoring the correct image. Another embodiment uses the transfer function to avoid blur by combining multiple consecutive images taken at a fast shutter speed. | 05-28-2009 |
20090153678 | Reproducer, digital camera, slide show reproduction method, program, image display apparatus, image display method, image reproduction method, and image display program - A reproducer is provided with members shown below. Namely, the reproducer is provided with a storage part for storing images, a vibration detection part for detecting a vibration operation by a user, a switching instruction part for instructing switching of reproduction content in slide show reproduction based on a detection result from the vibration detection part, a synthesis processing part for performing creation processing of slide show images, which are images for the slide show reproduction, based on instructions of the switching instruction part, and a slide show control part for performing the slide show reproduction of the images stored in the storage part and the slide show images. | 06-18-2009 |
20090153679 | IMAGE STABILIZATION CONTROL CIRCUIT FOR IMAGING APPARATUS - An internal CPU, a vibration control equalizer for processing an output signal of a vibration detector for detecting vibration of an imaging apparatus and calculating a vibration signal for determining a driving amount for an optical component on the basis of vibration of the imaging apparatus, a position control equalizer for calculating a position signal for determining a driving amount for the optical component on the basis of position of the optical component, and a control switching section for switching between the internal CPU and an external control circuit for the imaging apparatus for control of the vibration control equalizer and the position control equalizer. | 06-18-2009 |
20090160949 | VIDEO PROCESSING APPARATUS, VIDEO PROCESSING SYSTEM, VIDEO PROCESSING METHOD, AND PROGRAM - A video processing apparatus comprises a signal input unit which receives a video signal, a shift detection unit which detects a shift period in shooting and a maximum shift amount during the shift period from the video signal input from the signal input unit, an effective area detection unit which detects an object area common throughout the shift period as an effective area on the basis of the shift period and the maximum shift amount, a correction unit which corrects a shift during the shift period by reading out data from the effective area, and a resolution conversion unit which performs enlarge processing to convert a size of the effective area read out by the correction unit into an output image size. | 06-25-2009 |
20090160950 | IMAGE STABILIZATION CONTROL CIRCUIT FOR CORRECTING VIBRATION-CAUSED DISPLACEMENT OF OPTICAL AXIS, AND IMAGE PICKUP APPARATUS PROVIDED WITH THE SAME - A first equalizer generates a vibration-component signal indicating the amount of movement of an image pickup apparatus according to an output signal of a vibration detecting element for detecting the vibration of the image pickup apparatus. The second equalizer generates a drive signal used to control a driver element to correct the position of lens and image pickup devices, based on the output signal of a position detecting element for detecting the position of the lens to be driven or the image pickup devices to be driven and the vibration-component signal. A verifying-signal input circuit inputs a signal used for verification, to the first equalizer. A control unit verifies the operations of the driver element, the position detecting element and the first equalizer. | 06-25-2009 |
20090160951 | Three-Axis Image Stabilization System - An image stabilization system includes an optical assembly configured to receive electromagnetic radiation emitted by a target and produce focused image of the target; a focal plane array, the focal plane array being configured to receive the image and integrate at least a portion of the electromagnetic radiation making up the image to produce an electrical representation of the image; sensors configured to provide kinematic data; a control system receiving the kinematic data and estimating jitter-induced motion of the image on the focal plane and outputting a control signal; and actuators configured to receive the control signal and to translate the focal plane along two orthogonal axes and rotate the focal plane about a third orthogonal axis such that jitter-induced motion of the image on the focal plane is reduced. | 06-25-2009 |
20090160952 | SHAKE CORRECTION CONTROL CIRCUIT AND IMAGE PICKUP APPARATUS PROVIDED WITH THE SAME - An optical shake correction unit corrects an optical axis in response to an output signal of an vibration detecting element. An electronic shake correction unit adaptively varies an effective region in image signals of an image pickup region formed by image pickup devices. A control unit performs control such that either the optical shake correction unit or the electronic shake correction unit is enabled by switching between a first image pickup mode and a second image pickup mode. | 06-25-2009 |
20090167877 | IMAGING DEVICE AND STORAGE MEDIUM - A digital camera comprises a CCD, a flash memory for storing images captured by the CCD, setting unit configured to set a recording condition, an auto shutter condition table for storing auto recording conditions for each of the auto shutter mode which are set by detecting an input from a key input device during auto shutter mode setting, and a CPU for determining whether the captured image satisfies the set recording condition and for recording the captured image to the flash memory it is determined that the image satisfies the recording condition. | 07-02-2009 |
20090179994 | IMAGING APPARATUS AND ITS CONTROL METHOD - An imaging apparatus includes an imaging unit configured to capture an image of an object to acquire image data; a display unit configured to display the image captured by the imaging unit; a motion detection unit configured to detect information about motion of the object and the background in a display image based on image data acquired by the imaging unit; a determination unit configured to determine whether the imaging apparatus is taking a panning shot from a result detected by the motion detection unit; and an exposure control unit configured to execute exposure control to decrease the amount of motion of the object and the background in the display image based on a result detected by the motion detection unit, wherein the exposure control unit executes exposure control based on a result detected by the motion detection unit when the imaging apparatus is determined not to be taking a panning shot by the determination unit and, when the imaging apparatus is determined to be taking a panning shot by the determination unit, executes different exposure control compared to a case when the imaging apparatus is determined not to be taking a panning shot. | 07-16-2009 |
20090185042 | IMAGE-BLUR CORRECTION DEVICE, IMAGE PICKUP DEVICE, AND OPTICAL DEVICE - An image-blur correction device includes a vibration detection unit which detects vibrations of two different detection axes in a plane orthogonal to an optical axis, a correction unit which corrects vibration using a correction optical system which is displaced in directions of at least two correction axes different from the detection axes in the plane, a calculation unit that calculates amounts of displacements used to drive the correction optical system so that image-blur generated due to the vibrations is corrected based on amounts of vibrations obtained using the vibration detection unit, a coordinate conversion unit which rotates amounts of vibrations in the two detection axes relative to the corresponding at least two correction axes for conversion through calculations, and a restriction unit which restricts a driving range of the correction unit based on a displacement-amount restriction value obtained from a performance limitation region of the correction optical system. | 07-23-2009 |
20090195665 | VIBRATION COMPENSATION METHOD FOR IMAGE CAPTURE DEVICE - A vibration compensation method for an image capture device comprising calculating the absolute difference values or the squared difference values between each first block of pixels of a base field and a second block of pixels corresponding thereto as well as other neighboring blocks of pixels in a comparison region in a reference field and choosing the interlace process modules of allowing the first block of pixels to interlace with the second block of pixels to form a image block, allowing the first block of pixels to interlace with the other neighboring block of pixels to form an image block and allowing the first block of pixels to interlace with a duplicated first block of pixels to form an image block, to combine an image depending on whether the absolute difference value or the squared difference values is smaller than a preset value or not thereby compensating the vibration factors as an image capture device is capturing an image to obtain a clear image. | 08-06-2009 |
20090201380 | METHOD AND APPARATUS FOR STREAMLINED WIRELESS DATA TRANSFER - An apparatus having at least a first interface system. The at least a first interface system has a sensor interface portion for receiving an input of successive frames of a moving image from a video capture device; a processor portion that causes the input of successive frames of the moving image to be stabilized, compressed, and averaged, and a transmission component portion for transmitting the stabilized, compressed, and averaged input of successive frames of a moving image across a network. The stabilization of the successive frames of the moving image reduces the effects of unintended motion of the video capture device and is utilized to determine a feedback control. The processor portion utilizes the feedback control to cause the moving image to remain substantially centered within the individual frames of the input of successive frames of the moving image by causing the adjustment of the video capture device. | 08-13-2009 |
20090207259 | Image Processing Apparatus, Image Processing Method, and Computer Program - An apparatus and a method for outputting high-quality images in which both jerkiness and blur are reduced are provided. At generation of moving images to be output at a certain frame rate, movement velocities of a subject according to the frame rate of the output images are calculated in units of partial areas in each frame image constituting the moving images, optimal shutter speeds to reduce degradation of the output images are obtained as optimal imaging shutter speeds corresponding to the movement velocities in units of partial areas, images corresponding to the obtained optimal shutter speeds are generated in units of partial areas, and frame images generated by combining the generated partial area images are output. According to this configuration, high-quality images in which both jerkiness and blur are reduced can be output. | 08-20-2009 |
20090207260 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP METHOD - An image pickup apparatus includes: a flash photography unit that performs image pickup of one of the plurality of images by causing a flash device to emit light during the image pickup in accordance with an exposure; a region setting unit for setting a plurality of motion vector measurement regions for which a motion vector is measured; a motion vector reliability calculation unit for calculating a reliability of respective motion vectors; and a main region detection unit for detecting a main region from the image photographed by the flash photography unit. A motion vector integration processing unit includes a contribution calculation unit for calculating a contribution of the respective motion vectors from a positional relationship between the respective motion vector measurement regions and the main region, and integrates the motion vectors of the plurality of motion vector measurement regions in accordance with the reliability and the contribution. | 08-20-2009 |
20090213232 | IMAGE PICKUP DEVICE - An image pickup device by which the size of a device main body can be reduced and the assembly process can be easily automated. In the image pickup device, a wiring ( | 08-27-2009 |
20090213233 | IMAGING APPARATUS - Problems, such as unevenness of exposure, caused by the difference in speed between a first curtain and a second curtain and a positional shift between the curtains (the occurrence of an edge darkening phenomenon) can be prevented. In addition, power consumption is reduced. When the shutter speed is set to be low by exposure control means, the exposure start operation is performed using an electronic focal plane shutter function of an image sensor (an electronic focal plane shutter is used for the first curtain), and an exposure end operation is performed by a mechanical focal plane shutter. In contrast, when the shutter speed is set to be high by the exposure control means, the exposure start operation and the exposure end operation are performed using the mechanical focal plane shutter (the mechanical focal plane shutter is used for the first curtain). | 08-27-2009 |
20090213234 | METHOD OF FULL FRAME VIDEO STABILIZATION - A method of full-frame video stabilization with a polyline-fitted camcorder path is disclosed. The regions was first considered of interest in the video to estimate which regions or objects the user wants to capture, and then use a polyline to estimate a new stable camcorder motion path while avoiding the user's interested regions or objects being cut out. Then, the dynamic and static missing areas caused by frame alignment from other frames were filled to keep the same resolution and quality as the original video. Furthermore, the discontinuous regions were smoothed by using a three-dimensional Poisson-based method. After the above automatic operations, a full-frame stabilized video could be achieved and the important regions and objects could also be preserved. | 08-27-2009 |
20090213235 | IMAGE PICKUP APPARATUS AND RECORDING MEDIUM - An image pickup apparatus according to the present invention comprises an image pickup unit for obtaining an image, the image pickup unit including an image pickup element and an image pickup optical system which includes an aperture stop and forms the image on the image pickup element, a synthesis instruction unit for providing an instruction to form a multiple exposure image by making registration of a plurality of images and synthesizing the plurality of images into one image, an aperture value control unit for controlling setting of an aperture value of an aperture stop when the synthesis instruction unit provides the instruction to form the multiple exposure image, and an image processing unit for forming the multiple exposure image by synthesizing, into one image, a plurality of images obtained by the image pickup unit with the aperture value set by the aperture value control unit. | 08-27-2009 |
20090219401 | PROCESSING DEVICE WITH JITTER EXTRACTION AND EQUIPMENT COMPRISING SUCH A DEVICE - A processing device (D) is dedicated to image frame stabilization of digital video sequences in an electronic equipment (E | 09-03-2009 |
20090231446 | METHOD AND APPARATUS FOR REDUCING MOTION BLUR IN DIGITAL IMAGES - A method and apparatus for reducing motion blur in digital images. An imager captures a reference frame and a plurality of target frames. Feature blocks preferably containing strong two-dimensional features are identified in the reference frame. Corresponding features are identified in the target frames and motion vectors representing the movement of features are calculated. Based at least in part on the motion vectors, corresponding pixels in the reference and target frames are identified and combined to form an output image. Efficient methods for identifying corresponding features in apparatuses with small buffer memories by serially processing frame strips are also disclosed. | 09-17-2009 |
20090231447 | APPARATUS AND METHOD FOR GENERATING PANORAMA IMAGES AND APPARATUS AND METHOD FOR OBJECT-TRACKING USING THE SAME - Provided are an apparatus and method for generating panorama images and an apparatus and method for tracking an object using the same. The apparatus for generating panorama images estimates regional motion vectors with respect to respective lower regions set in an image frame, determines a frame motion vector by using the regional motion vectors based on a codebook storing sets of normalized regional motion vectors corresponding to a camera's motion and then accumulates motion mediating variables computed with respect to respective continuous image frames to determine an overlapping region, and matches the overlapping regions to generate a panorama image. The apparatus for tracking an object sets the panorama image generated by the apparatus for generating panorama images as a background image, and determines an object region by averaging pixel value difference values between pixels that constitute a captured input image and corresponding pixels in the panorama image. Regional motion vectors are estimated by using the coordinate of a pixel selected in lower regions, and thus a computing process can be simplified and a process speed can be increased. In addition, effects of wrongly estimated regional motion vectors can be minimized by using a codebook. Furthermore, noises are minimized and an object can be accurately extracted by using averaged pixel value difference values. | 09-17-2009 |
20090231448 | IMAGE PICK-UP APPARATUS WITH A SHAKE REDUCING FUNCTION - When a hand shake reducing mode has been set for shooting a subject, an exposure is controlled in accordance with a program diagram (solid line) B for the shake reducing mode, which is different from a program diagram (broken line) A for a normal mode. In a state where a shutter speed is set to less than “ 1/80”, two-pixel addition and/or four-pixel addition is executed on an imaging signal to amplify subject luminance, raising ISO sensitivity. A shutter speed set to fall in a high speed range reduces deterioration in image quality due to hand shake and/or subject movement during a shooting operation. | 09-17-2009 |
20090237516 | METHOD AND SYSTEM FOR INTELLIGENT AND EFFICIENT CAMERA MOTION ESTIMATION FOR VIDEO STABILIZATION - Disclosed herein is a method for global motion estimation for video stabilization. The method enables selecting a video frame from a video stream. The method further enables downscaling the video frames by factor close to 2 in a two dimensional range, dividing the downscaled video frame into a plurality of macroblocks, performing motion estimation for the macroblocks to generate a set of local motion vectors. Further, the method enables selecting macroblocks representing global motion vectors from the set of local motion vectors, computing a single global motion vector for the selected macroblocks and determining occurrence of at least one of: scene change, illumination change or crossing object and modifying the single global vector to compensate for errors induced due to occurrence of at least one of: scene change, illumination change or crossing object. | 09-24-2009 |
20090244298 | Imaging device and image capture device - The invention discloses a imaging device, comprising an imaging module, used for optical to electrical signal conversion, which comprises at least a first imaging unit and a second imaging unit, the first imaging unit used for capturing an image, the second imaging unit used for detecting the movement of the image or the imaging device; a control and processing module, used for controlling the imaging module to output electrical signals, and for processing the electrical signal to generate and to output the motion signal and image signal. The invention also discloses an image capture device which uses the said imaging device. The imaging device can output the motion signal and the image signal simultaneously by adding the second imaging unit used for detecting the movement of the image or the imaging device; consequently better captured image quality can be obtained. Also, the structure can become simpler and the manufacture cost can be lower. | 10-01-2009 |
20090244299 | Image processing device, computer-readable storage medium, and electronic apparatus - An image processing device for performing positioning processing between a plurality of images using a positional displacement amount between the plurality of images generates a positioning image by reducing the plurality of images, sets a motion vector measurement region with which a motion vector is measured in the positioning image, determines a pixel precision motion vector in the positioning image using the motion vector measurement region, and determines a sub-pixel precision motion vector in relation to the pixel precision motion vector. A representative vector is determined on the basis of the determined sub-pixel precision motion vector, and the positional displacement amount between the plurality of images is determined by converting the representative vector at a conversion ratio employed to convert the reduced positioning images into the plurality of images prior to the reduction. | 10-01-2009 |
20090251548 | INTERCHANGEABLE LENS, CAMERA SYSTEM, AND ITS CONTROL METHOD - To provide an interchangeable lens, a camera body, a camera system, and a method for controlling the same, with which a highly efficient and stable image blur correction effect can be obtained. A camera system ( | 10-08-2009 |
20090251549 | DIGITAL CAMERA - A digital camera includes: an image-capturing unit that captures an image of a photographic subject, and outputs the captured image; a shake amount detection unit that detects a shake amount of the digital camera; a shake correction actuation unit that is actuated for enabling a shake correction function; and a control unit that, when the shake correction actuation unit is actuated, enables an operation of a first shake correction function that sets image capture conditions of the image-capturing unit to image capture conditions in which emphasis is placed upon high sensitivity, and an operation of a second shake correction function that performs shake correction processing by performing image processing upon the image captured by the image-capturing unit, and moreover controls, based upon the shake amount detected by the shake amount detection unit, whether or not the second shake correction function, whose operation has been enabled, can be applied to the image. | 10-08-2009 |
20090251550 | IMAGING APPARATUS - An image capture device that can shoot an image at a more appropriate exposure value with the image blur compensated for properly is provided. | 10-08-2009 |
20090251551 | PHOTOGRAPHIC APPARATUS - A photographic apparatus comprises a movable platform, an acceleration sensor, and a controller. | 10-08-2009 |
20090251552 | Lens Barrel Having Camera Shake Corrector and Photographing Apparatus Equipped Therewith - A camera shake corrector includes: a first moving member that holds an image sensor or a prescribed lens and is capable of moving in a first direction; a first motor that moves the first moving member; a second moving member that holds the first moving member and is capable of moving in a second direction that is different from the first direction; a second motor that moves a second moving member; a single detecting member; and a section to be detected by the single detecting member, which is formed on the first moving member. Initial positions of the first moving member and the second moving member are detected by the section to be detected and the single detecting member. | 10-08-2009 |
20090256918 | IMAGE STABILIZER - A method for digital video image stabilization, the method including: estimating, from at least one portion of a frame, global frame displacement between an initial reference digital video frame and a current frame in a video sequence of frames; verifying, for the entire frame, the validity of the estimated frame displacement; and compensating for the estimated frame displacement by aligning at least one frame in the sequence with respect to the initial reference frame; wherein the step of aligning includes producing a corrected motion vector for the frame to be aligned and displacing the frame within the video frames sequence in accordance with the corrected motion vector. | 10-15-2009 |
20090273683 | IMAGE PROCESSING DEVICE HAVING BLUR CORRECTION FUNCTION - Disclosed is an imaging device connected to an external display device. The imaging device includes a decoder that, based on an instruction to reproduce coded moving image data recorded in any one of a internal recorder, a memory card M and an external recording device, decodes the data and sequentially obtains a plurality of frames in a predetermined order, a blur estimator that sequentially obtains a total motion vector of each frame corresponding to an obtaining speed and a predetermined order of frames, a blur correction processor that sequentially corrects the blur of the frames based on respective total motion vectors, and a second display processor that sequentially outputs the blur corrected frames to the external display. Blur correction processing for moving images output to the external display is performed suitably. | 11-05-2009 |
20090290029 | METHOD AND SYSTEM FOR MOTION ESTIMATION IN DIGITAL IMAGING APPLICATIONS - A method and system for estimating global motion in digital imaging applications with confidence level filtering. Motion search yields a plurality of vectors describing the movement of feature blocks from one frame to another. A confidence level is assigned to each motion vector. Based on the confidence levels, vectors are given more or less weight when estimating global motion. High-confidence vectors are given more weight than low-confidence vectors. Embodiments for estimating both the magnitude of global motion and the magnitude and direction of global motion are disclosed. | 11-26-2009 |
20090303332 | SYSTEM AND METHOD FOR OBTAINING IMAGE OF MAXIMUM CLARITY - The present invention provides a system for and method of obtaining a clear picture in the face of shaking or movement of the digital camera or motion of an object under capture. The present invention utilizes the burst mode feature present on conventional digital cameras in which several continuous images of an object are captured. An image processor is operable to process the image data using a compression technique based on a spatial frequency transformation, for example JPEG. For images processed with a JPEG compression technique, image file size is directly related to the clarity of the image. Therefore, JPEG-compressed data having a large file size corresponds to an image of an object that is clear, whereas JPEG-compressed data having a smaller file size corresponds to an image of the object that is blurry. Therefore, to address the effect of blurring, the present invention includes a selection process in which the largest processed image data file is selected from a set of processed image data files corresponding to images taken in burst mode. The processed image data with the largest file size is stored in memory while the remaining smaller processed image data files are deleted. | 12-10-2009 |
20090309983 | MOTION DETECTOR AND IMAGE CAPTURE DEVICE, INTERCHANGEABLE LENS AND CAMERA SYSTEM INCLUDING THE MOTION DETECTOR - The blurring caused by a tiny tremor movement is eliminated, which almost perfectly without being affected by intentional camera movement by distinguishing the unintentional tremor movement from other movements (or disturbances). A motion detector includes: a motion detecting section for detecting a movement of an image capture device and outputting a detection signal, of which the amplitude and frequency represent the movement; a motion signal generating section for generating a motion signal representing a physical quantity corresponding to the magnitude of the movement based on the detection signal; a notification signal generating section for generating a notification signal that marks start and end of a movement of the image capture device, which is a non-tremor movement, based on the detection signal that has been output; and a control section for controlling the motion signal generating section by reference to the notification signal such that an output of the motion signal is fixed at a predetermined one from the start through the end of the non-tremor movement. | 12-17-2009 |
20090309984 | HYBRID IMAGE STABILIZATION FOR VIDEO CAMERA - The invention relates to a method of stabilizing the images of a scene, acquired by means of an observation device of an imaging system, comprising the step of digital processing of a stream of successive images. It comprises a step of acquiring gyrometric measurements by means of at least one gyrometric sensor secured to the observation device, of using these gyrometric measurements to determine so-called approximate shifts undergone between successive images, and the image processing step comprising a sub-step of using the approximate shifts and the image stream acquired to determine so-called fine shifts undergone between successive images. | 12-17-2009 |
20090309985 | IMAGING APPARATUS - An imaging apparatus with an image sensor and a correction optical system movable in a direction perpendicular to an optical axis includes a vibration detection unit configured to detect a vibration applied to the imaging apparatus, a vibration correction unit configured to drive the correction optical system to correct an image vibration according to an output from the vibration detection unit, a motion vector detection unit configured to detect a motion vector based on an image signal output from the image sensor, an amplifier unit configured to amplify the output from the vibration detection unit, a gain setting unit configured to set a gain of the amplifier unit based on the motion vector; and a gain control unit configured to allow or inhibit the setting of the gain of the amplifier unit set based on the motion vector, according to a change of an imaging condition of the imaging apparatus, wherein the vibration correction unit performs a vibration correction based on the output from the vibration detection unit and the gain of the amplifier unit when the setting of the gain of the amplifier unit is allowed by the gain control unit. | 12-17-2009 |
20090316009 | Apparatus, Method, and Program for Processing Image - An image processing apparatus includes a correction parameter calculation unit for calculating a motion blur correction parameter for motion blur correction on the basis of motion information indicating a motion of an image between unit images, the unit images forming image data, and shutter speed information obtained at the image capturing of the image data, and a motion blur correction processing unit for correcting a motion blur quantity contained in the image data by performing at least a process of reducing a motion blur in accordance with the motion blur correction parameter. | 12-24-2009 |
20100002087 | ANTI-SHAKE DEVICE FOR OPTICAL INSTRUMENT - An anti-shake device for positioning an image-capturing unit in an optical instrument. A base includes a shaft pillar. A clamp unit includes a first clamping arm and a second clamping arm. The first and second clamping arms pivot to the shaft pillar of the base and detachably clamp the image-capturing unit. A drive unit is connected to the base and includes a driven member driving the first and second clamping arms of the clamp unit to rotate and shifting between a first mode and a second mode. The first and second clamping arms are separated from each other and the image-capturing unit when the driven member is in the first mode. The first and second clamping arms close and clamp the image-capturing unit when the driven member is in the second mode. | 01-07-2010 |
20100013938 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - An image processing apparatus includes a first image acquisition section that acquires a first image of an object at illumination-off time, a second image acquisition section that acquires a second image of the object at illumination-on time, a difference image generation section that generates a difference image based on a difference between luminance of each of pixels constituting the first image and luminance of each of pixels constituting the second image, a high-luminance area extraction section that extracts an image area constituted by pixels having a luminance value which is equal to or more than a predetermined luminance value from the difference image, and a movement determination section that determines a movement amount of the object between image take timing of the first image and image take timing of the second image based on the image area. | 01-21-2010 |
20100026819 | METHOD AND APPARATUS FOR COMPENSATING FOR MOTION OF AN AUTOFOCUS AREA, AND AUTOFOCUSING METHOD AND APPARATUS USING THE SAME - Provided is a method of compensating for a motion of an autofocus (AF) area, the method includes: comparing AF areas of a previous frame and a current frame; determining whether the AF area of the current frame moves by determining whether the AF areas of the previous frame and the current frame are identical to each other; and compensating for motion of the AF area of the current frame according to the determination. | 02-04-2010 |
20100053343 | APPARATUS FOR CORRECTING MOTION CAUSED BY HAND SHAKE - An apparatus for correcting motion caused by hand shake performs hand shake correction in due consideration of both linear motion and rotation by detecting linear motion of a capturing device by comparing preceding and subsequent image frames and detecting rotation of the capturing device using a gyro sensor. The apparatus for correcting motion caused by hand shake may include a rotation detection unit detecting the amount of rotation of a capturing device by using a gyro sensor, a linear-motion detection unit comparing preceding and subsequent image frames generated by an image sensor unit to detect the amount of linear motion of the capturing device, and an output image determination unit correcting the detected amount of rotation and the detected amount of linear motion in an image frame input from the image sensor to generate a corrected output image frame. | 03-04-2010 |
20100053344 | APPARATUS HAVING IMAGE SHAKE CORRECTION FUNCTION AND METHOD OF CONTROLLING THE SAME - An apparatus and a method of controlling the apparatus are provided that can realize high-accuracy correction of image shake due to shift shake. Rotation radiuses at a plurality of frequencies among the frequency components of the shift shake are obtained. Correction amount is determined based on a result of assigning a respective weight to the rotation radius at each of the plurality of the frequencies based on information regarding at least one of an angular velocity and acceleration. | 03-04-2010 |
20100053345 | DIGITAL CAMERA HAVING A VARIABLE FRAME RATE AND METHOD OF CONTROLLING THE DIGITAL CAMERA - A digital camera capable of variably setting a frame rate may include an imaging device which outputs a plurality of temporally continuous image frames when photographing a moving image. The digital camera may also include a digital signal processor that determines a frame rate with which the image frames are filed, wherein the digital signal processor variably determines the frame rate according to a motion speed of a subject in the frames. The digital camera may further include a recording medium in which the filed image frames are stored. Accordingly, as the frame rate is varied according to the motion of a subject, the motion of the subject can be smoothly realized in a high motion speed section from a reproduction perspective, and substantially repeated image frames can be removed in a low speed motion section. Thus, the size of moving image files can be reduced, saving memory resources. | 03-04-2010 |
20100066842 | METHOD AND APPARATUS FOR PRODUCING SHARP FRAMES WITH LESS BLUR - A method and apparatus motion triggered image stabilization. The method includes computing projection vector for at least a portion of a frame of an image using horizontal and vertical sums, performing motion estimation utilizing projection vector with the shift of the projection vector from a previous frame, performing temporal IIR filter on the motion vector, calculating the maximum horizontal and vertical motion vectors, obtaining exposure time based on the horizontal and vertical motion vectors and the gain, returning the exposure time and the gain to the auto-exposure, utilizing the returned exposure time and gain, and producing a frame with less motion blur. | 03-18-2010 |
20100073494 | ELECTRONIC APPARATUS FOR IMPROVING BRIGHTNESS OF DARK IMAGED PICTURE - An electronic apparatus includes an imager unit, a control unit, a brightness correction determiner unit, and a corrector unit. The imager unit images a picture. The control unit obtains, from the imager unit, data of the imaged picture and an imaging condition applied to the picture. The brightness correction determiner unit compares the obtained imaging condition with a threshold and determines whether or not to correct brightness of the data of the imaged picture. In response to the determination by the determiner unit to correct the brightness, The corrector unit corrects the data of the imaged picture so that the brightness of the imaged picture is increased in accordance with a brightness correction function. | 03-25-2010 |
20100079603 | Motion smoothing in video stabilization - A motion stabilizing techniques are described. A frame of video is represented at least by frame position information. Savitzky-Golay filtering may be applied on frame position information. The resulting filtered video may have reduced visible jitteriness. | 04-01-2010 |
20100079604 | OPTICAL APPARATUS - An optical apparatus includes a lens frame | 04-01-2010 |
20100079605 | Sensor-Assisted Motion Estimation for Efficient Video Encoding - An apparatus comprising a sensor assisted video encoder (SaVE) configured to estimate global motion in a video sequence using sensor data, at least one sensor coupled to the SaVE and configured to generate the sensor data, and a camera equipped device coupled to the SaVE and the sensor and configured to capture the video sequence, wherein the SaVE estimates local motion in the video sequence based on the estimated global motion to reduce encoding time. Also included is a method comprising obtaining a video sequence, obtaining sensor data synchronized with the video sequence, converting the sensor data into global motion predictors, using the global motion predictors to reduce the search range for local motion estimation, and using a search algorithm for local motion estimation based on the reduced search range. | 04-01-2010 |
20100091119 | METHOD AND APPARATUS FOR CREATING HIGH DYNAMIC RANGE IMAGE - A method and apparatus for creating a high dynamic range (HDR) image while preventing a ghost effect is provided. The method of creating an HDR image for a scene including an object in motion, includes detecting an area of a first image of the scene and a second image of the scene where there exists an object in motion and creating an HDR image, with respect to the area where there exists a motion, by correcting a brightness level of the first image to a brightness level of the second image to form a corrected first image. The method further includes substituting a corrected area of the corrected first image for a corresponding area of the s second image to form a substituted second image, and fusing the corrected first image and the substituted second image. | 04-15-2010 |
20100091120 | OPTICAL UNIT WITH SHAKE CORRECTING FUNCTION - An optical unit with shake correcting function may include a movable module having a lens, a fixed body supporting the movable module, a shake detection sensor for detecting shake of the movable module, and at least one pair of magnetic drive mechanism for shake correction which is structured on both sides of the movable module so that the movable module is swung with respect to the fixed body on the basis of detection result of the shake detection sensor to correct the shake of the movable module. The magnetic drive mechanism for shake correction is disposed so that a shake correction magnet is held by the fixed body and a shake correction coil is held by the movable module. Further, a shake correction coil may be disposed in a first region, where magnetic lines of force generated by a shake correction magnet are directed in directions generally going away from a supporting point part and/or a second region where magnetic lines of force generated by the shake correction magnet are directed in directions generally going toward the supporting point part. | 04-15-2010 |
20100097480 | Camera System For With Velocity Sensor And De-Blurring Processor - A camera system for outputting deblurred still images includes a portable handheld camera device comprising an image sensor adapted to capture a still, image comprising at least one blurred pixel; a velocity detector adapted to determine the angular velocity of the camera system relative to an external environment and to produce an angular velocity output indicative thereof; a linear image sensor for sensing data provided on at least one encoded card inserted into the camera system, the at least one encoded card containing instructions for the manipulation of the blurred images; and a processor adapted to receive said image from said image sensor and said angular velocity output from said angular velocity detector and to process said blurred image under programme control determined from data sensed by the linear image sensor from the at least one encoded card, the programme control utilising the velocity output to deblur said at least one blurred pixel of said blurred image and to output said deblurred still image. | 04-22-2010 |
20100103274 | Image distortion compensation method and apparatus - A camera module includes an image distortion compensation apparatus configured to perform a method for compensating the image distortion caused by a sensor movement. A method of compensating an image distortion includes receiving an image including distortion caused by an movement of a sensor in a mode where two or more successive images are received. The method further includes calculating variation information using a relation between corresponding points of the received image (current image) and an adjacent image (previous image) which was previously received; and compensating the distortion included in the current image by making use of the variation information. The calculating variation information includes: calculating an actual homography value between the current image and the previous image; setting up the calculation based homography value including the variation information; and obtaining variation information having a minimum difference between the actual homography value and the calculation based homography value. | 04-29-2010 |
20100103275 | DIGITAL CAMERA WITH INTEGRATED ACCELEROMETERS - A digital camera system has integrated accelerometers for determining static and dynamic accelerations of the digital cameral system. Data relating to static and dynamic accelerations are stored with recorded image data for further processing, such as for correcting image data for roll, pitch and vibrations and for displaying recorded images with a predetermined orientation using information about, e.g., roll. Data may also be used on-the-fly for smear suppression caused by vibrations. | 04-29-2010 |
20100110203 | IMAGE-SHAKE CORRECTION APPARATUS AND IMAGING APPARATUS - An image-shake correction apparatus includes a shake detection unit configured to detect a shake applied to the image-shake correction apparatus, a shake correction unit configured to correct the shake of an image caused by the shake, a drive unit configured to drive the shake correction unit, a filtering unit configured to remove a specific frequency component from the output of the shake detection unit, a characteristic change unit configured to change the frequency characteristic of the filtering unit, and a temperature detection unit configured to detect temperature of the shake detection unit or a vivinity thereof, wherein the characteristic change unit changes the frequency characteristic of the filtering unit according to the change rate in temperature detected by the temperature detection unit. | 05-06-2010 |
20100118154 | DIGITAL IMAGE PROCESSING APPARATUS AND METHOD OF CONTROLLING THE SAME - Provided are a digital image processing apparatus that detects a motion of a body, such as oscillation, shake, or velocity change of the body, to perform a photographing preparation operation, and a method of controlling the digital image processing apparatus. The digital image processing apparatus includes a motion sensor installed in the apparatus and configured to generate a signal in response to motion of the apparatus, and a controller receiving the motion signal, and controlling the digital image processing apparatus to perform a photographing preparation operation when the signal indicates that the motion is a photographing motion made in preparation of a user performing photography. | 05-13-2010 |
20100123787 | IMAGE PICKUP APPARATUS AND CONTROL METHOD THEREOF - In an image pickup apparatus in which image stabilization is performed based on shake sensor and movement-vector-obtaining method which can perform accurate blur correction since shake components difficult to be detected by shake sensor can be detected by the movement-vector-obtaining method, the image blur due to high frequency vibration such as vehicle vibration cannot be corrected by the movement vector in low-frame-rate shooting since the detectable frequency band narrows in high frequency. Therefore, it is necessary to optimize the combination of blur information from the angular velocity sensor and from the movement vector, according to the frequency band detectable by the movement vector depending on change in frame rate. The combination ratio of blur correction based on blur information from angular velocity sensor, acceleration sensor and blur correction based on movement vector is determined depending on frequency detectable by the movement vector which inevitably changes depending on frame rate. | 05-20-2010 |
20100134639 | CAMERA-SHAKE CORRECTION APPARATUS AND IMAGING APPARATUS INCLUDING THE SAME - A camera-shake correction apparatus includes an image capturing unit configured to capture an object image, a camera-shake detection unit configured to detect a camera-shake applied to the camera-shake correction apparatus, a correction unit configured to correct the camera-shake of the object image by moving a correction member based on a camera-shake signal detected by the camera-shake detection unit, and a control unit configured to measure an amplitude of the camera-shake or a frequency of the camera-shake, or both the amplitude of the camera-shake and the frequency of the camera-shake, based on the camera-shake signal supplied from the camera-shake detection unit, and the control unit further configured to control to hold the correction member at a latest position if it is determined that the measured amplitude is smaller than a predetermined amplitude or if it is determined that the measured frequency is lower than a predetermined frequency, or if it is determined that the measured amplitude is smaller than the predetermined amplitude and the measured frequency is lower than the predetermined frequency. | 06-03-2010 |
20100149350 | Image Sensing Apparatus And Image Sensing Method - An image sensing apparatus senses first and second images, and produces a merged image by merging the first and second images together. An exposure time for the second image is longer than an exposure time for the first image. By sensing the first image before the second image, the first image is prevented from being sensed during a camera-shake-increase period starting a long time after the input of a image-sensing-start instruction. Also, by waiting for an image-sensing standby time to elapse before sensing the first image, the first image can be sensed during a period of a particularly small camera shake. | 06-17-2010 |
20100157072 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes: a section that detects a local motion vector for each block forming an image from a standard image and a reference image; a section that executes motion compensation on the reference image employing the local motion vector to generate a local motion-compensated image; a section that calculates a single global motion vector for the entire standard image and the entire reference image employing the local motion vector and that executes motion compensation on the reference image employing the global motion vector to generate a global motion-compensated image; and a section that calculates respective reliabilities of the local motion-compensated image and the global motion-compensated image in units of image regions and that executes a process to synthesize pixel values of the local motion-compensated image and pixel values of the global motion-compensated image in accordance with the reliabilities to generate a blended motion-compensated image. | 06-24-2010 |
20100157073 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes a motion prediction processor configured to detect a motion vector that indicates inter-image motion between a current image and a reference image; a motion compensation processor configured to perform a motion compensation process for the reference image by using the motion vector and generate a motion compensated image; an addition processor configured to generate a noise reduced image in which noise of the current image is reduced by adding the current image and the motion compensated image; an addition determination unit configured to compute an addition weight in units of pixels of the motion compensated image; a down-sampling processor configured to perform a process for reducing the current image and the motion compensated image; and an up-sampling processor configured to perform a process for expanding an addition coefficient map that is an output of the addition determination unit. | 06-24-2010 |
20100165122 | Method of merging images and relative method of generating an output image of enhanced quality - A method of processing and device configure to process digital images to enhance image quality and correct motion blur. A number N of images of a scene are captured with an exposure time T. An order of sharpness of the images is determined and the sharpest image is used as a reference image for generating an output image. | 07-01-2010 |
20100165123 | Data-Driven Video Stabilization - Described is a technology in which existing motion information (e.g., obtained from professional quality videos) is used to correct the motion information of an input video, such as to stabilize the input video. The input video is processed into an original motion chain, which is segmented into original segments. Candidate segments are found for each original segment, and one candidate segment is matched (based on matching criteria or the like) to each original segments. The matched candidates are stitched together to form a changed motion chain that via image warping changes the motion in the output video. Also described is building the data store by processing reference videos into motion information; different data stores may be built based upon styles of reference videos that match a particular style of motion (e.g., action video, scenic video) for the data store. | 07-01-2010 |
20100165124 | PHOTOGRAPHIC APPARATUS - A photographic apparatus comprises a movable platform and a controller. | 07-01-2010 |
20100165125 | PHOTOGRAPHIC APPARATUS - A photographic apparatus comprises a movable platform and a controller. | 07-01-2010 |
20100165126 | PHOTOGRAPHIC APPARATUS - A photographic apparatus comprises a movable platform and a controller. | 07-01-2010 |
20100165127 | PHOTOGRAPHIC APPARATUS - A photographic apparatus comprises a movable platform and a controller. | 07-01-2010 |
20100165128 | DIGITAL CAMERA SUPPORTING INTELLIGENT SELF-TIMER MODE AND METHOD OF CONTROLLING THE SAME - Provided are a digital camera supporting an intelligent self-timer, which pauses an image capturing operation when an unwanted subject enters a subject composition and starts the image capturing operation later, and a method of controlling the digital camera. The digital camera includes a motion calculating unit which calculates degree of motions observed in image frames that are obtained in a chronologically successive manner, and an image capture start determining unit which determines whether to start an image capturing operation or not based on whether entry of an unwanted subject is detected or not from the calculated degree of motions and whether a set self-timer time is over or not. | 07-01-2010 |
20100165129 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD AND PROGRAM - An apparatus for processing an image includes a motion vector detector, a motion-blurring-mitigated image generator, and a spatial resolution creation unit. The motion vector detector is configured to detect a motion vector by using an image that is made up of multiple pixels and acquired by an image sensor having time integration effects. The motion-blurring-mitigated image generator is configured to generate a motion-blurring-mitigated image in which motion blurring of a moving object is mitigated by using the motion vector detected by the motion vector detector on the assumption that a pixel value of pixel of the moving object in the image is a value obtained by integrating, in a time direction, a pixel value of each pixel in which no motion blurring that corresponds to the moving object occur as it is moved. The spatial resolution creation unit is configured to generate an image that has a higher spatial resolution than that of the image made up of the multiple pixels by using the motion vector detected by the motion vector detector and the motion-blurring-mitigated image from the motion-blurring-mitigated image generator. | 07-01-2010 |
20100171840 | IMAGE PROCESSING DEVICE, IMAGING APPARATUS, IMAGE BLUR CORRECTION METHOD, AND TANGIBLE COMPUTER READABLE MEDIA CONTAINING PROGRAM - An image processing apparatus creates a corrected image CP by combining a plurality of captured images P | 07-08-2010 |
20100177199 | METHOD FOR MOTION DETECTION OF HORIZONTAL LINE - A method for motion detection of a horizontal line is provided. First, a horizontal motion area of the horizontal line is detected according to differences between corresponding target scan lines in adjacent fields. Next, the horizontal line within a horizontal motion area in a current field and in a previous field are respectively detected. Then, the horizontal motion of the horizontal line is detected if the horizontal line is detected in both the current field and the previous field. Finally, pixels of the horizontal line in the current field are set as static pixels and data of the horizontal line is calculated through de-interlacing of corresponding horizontal lines in the previous field and in a next field if the horizontal motion of the horizontal line is detected. As a result, the flickers occurred in the generated field data can be removed and the quality of vision can be improved. | 07-15-2010 |
20100177200 | IMAGE PROCESSING APPARATUS AND METHOD, RECORDING MEDIUM, AND PROGRAM - The present invention relates to an image processing apparatus and method enabling to correct for camera shake given in image capturing, a recording medium, and a program. Discrete data pieces indicating shifts are obtained. The discrete data pieces are interpolated to obtain data indicating a shift every line. By the interpolation, a correction is calculated every line on the basis of the corresponding shift. On the basis of the corrections, pixel data read positions are determined. Pixel data is read based on the determined read positions. When a pixel to be read overlaps two pixels, pixel data of the pixel to be read is produced (interpolated) from pixel data pieces. In this manner, the effects of camera shake are corrected. The present invention is applicable to video cameras. | 07-15-2010 |
20100182440 | HETEROGENEOUS VIDEO CAPTURING SYSTEM - A heterogeneous video capturing system having motion and blur estimation. An item of motion may be captured with a continuous shutter and a flutter shutter. The flutter shutter image may be preceded and following by a continuous shutter image. Motion of a subject of the images may be estimated from the shutter images. The estimated motion may be a basis for blur estimation and blur removal from the flutter shutter image. | 07-22-2010 |
20100182441 | Image Sensing Apparatus And Image Sensing Method - A distortion correction portion includes a distortion calculation portion which calculates a distortion based on a movement of an image sensing apparatus in the image sensing operation, a distortion adjustment value calculation portion which calculates a distortion adjustment value based on a generation situation of an input image, and a distortion correction processing portion which performs a distortion correction process for correcting the distortion in the input image based on the distortion and the distortion adjustment value. The distortion adjustment value calculation portion decreases the distortion adjustment value in accordance with a generation situation of the input image, so that the degree of the correction in the distortion correction process by the distortion correction processing portion is decreased. | 07-22-2010 |
20100188516 | IMAGE PICKUP APPARATUS AND CAMERA SHAKE CORRECTING APPARATUS APPLIED TO IMAGE PICKUP APPARATUS - An image pickup apparatus includes a lens barrel unit having a photographing optical system, an image pickup unit that is displaced two-dimensionally to correct camera shake, a FPC that has a first extending section connected to the image pickup device and extending on a surface of the lens barrel unit and a second extending section that is bent at an end of the first extending section and fixed to the surface of the lens barrel unit, and a guide plate that guides the first extending section on the surface of the lens barrel unit, wherein when the image pickup unit moves in an X direction, a bent section is bent to absorb an amount of movement in the X direction, and when the image pickup unit moves in a Y direction, the first extending section bends to absorb an amount of movement in the Y direction. | 07-29-2010 |
20100194897 | DIGITAL SINGLE-LENS REFLEX CAMERA - A digital single-lens reflex camera is configured for making it possible to reduce deterioration in image quality due to a camera shake or an object movement and to easily pick up an image with a good image quality. In a digital single-lens reflex camera ( | 08-05-2010 |
20100194898 | Image Correction Processing Apparatus and Method - A motion vector detecting unit detects a motion vector of each block in a shot image, which is divided into a plurality of blocks, during an optical zooming operation. A linear function calculating unit calculates for each block a linear function that represents a straight line, the slope of which is the same as that of a line passing through the center of the shot image and a representative point and which passes through a vector detection point. A hand-movement motion vector calculating unit selects at least two blocks that have the calculated linear functions, the slope of which are different from each other, and obtains an intersection of graphs of the linear functions of the selected blocks so as to calculate a motion vector caused by hand movement. A hand-movement correcting unit corrects the hand movement in the shot image based on the calculated motion vector caused by the hand movement. | 08-05-2010 |
20100201826 | METHOD OF DETERMINING PSF USING MULTIPLE INSTANCES OF A NOMINALLY SIMILAR SCENE - A digital image acquisition system includes a portable apparatus for capturing digital images and a digital processing component for detecting, analyzing and informing the photographer regarding motion blur, and for reducing camera motion blur in an image captured by the apparatus. The digital processing component operates by comparing the image with at least one other image, for example a preview image, of nominally the same scene taken outside the exposure period of the main image. In one embodiment the digital processing component identifies at least one feature in a single preview image which is relatively less blurred than the corresponding feature in the main image, calculates a point spread function (PSF) in respect of such feature, and de-convolves the main image using the PSF. In another embodiment, the digital processing component calculates a trajectory of at least one feature in a plurality of preview images, extrapolates such feature on to the main image, calculates a PSF in respect of the feature, and de-convolves the main image using the PSF. In another embodiment the digital processing unit after determining the degree of blur notifies the photographer of the existing blur or automatically invokes consecutive captures. | 08-12-2010 |
20100208086 | REDUCED-MEMORY VIDEO STABILIZATION - A system and method for performing video stabilization in a reduced memory video device. In one embodiment, a system includes a frame memory and a video stabilizer. The frame memory stores a first video frame and a second video frame acquired after the first video frame. The video stabilizer determines a motion vector indicative of movement of the system between acquisition of the first and second video frames. The determination is based, at least in part, on the first video frame. A number of pixels stored for the second video frame is greater than a number of pixels stored for the first video frame. | 08-19-2010 |
20100208087 | Image processing device, camera motion component calculation method, image processing program, and recording medium - An image processing device, comprising:
| 08-19-2010 |
20100208088 | IMAGE PICKUP APPARATUS AND FOCUSING MECHANISM CONTROL METHOD - An image pickup apparatus includes an imaging element for acquiring an image of a target object; a detector for detecting movement of the image pickup apparatus; and a controller for controlling focus of the imaging element on the target object while the movement of the image pickup apparatus detected by the detector is not more than a threshold degree. | 08-19-2010 |
20100214422 | Recording Apparatus, Reproducing Apparatus, Recording Method, Recording Program, and Computer-Readable Recording Medium - In a recording apparatus, a high-speed camera continuously shoots a series of images at a high shutter speed. Next, an MV calculating unit calculates motion vectors, based on a sequential relationship of the series of images shot by the high-speed camera. Then, a recorder records the images shot by the high-speed camera, together with the motion vectors corresponding to the images. On the other hand, in a reproducing apparatus, the series of images recorded by the recorder are reproduced, with the motion vectors recorded by the recording apparatus added thereto. | 08-26-2010 |
20100214423 | Image processing device, focal plane distortion component calculation method, image processing program, and recording medium - An image processing device includes: a motion vector receiving unit configured to receive, from frame image data made up of frame images, motion vectors representing motion of the frame images; a modeling unit configured to model the motion vector, received from the motion vector receiving unit, to a component separation expression in which a camera motion component and a focal plane distortion component are separated, using component parameters respectively representing camera motion which is motion of a camera, and the amount in change in focal plane distortion; and a component calculation unit configured to calculate the component parameters used in the component separation expression, thereby calculating the focal plane distortion component in the motion vector. | 08-26-2010 |
20100214424 | SHAKE DETECTING SENSOR AND IMAGE BLUR CORRECTING DEVICE - A shake detecting sensor includes: a plurality of shake detecting sensors that detects a shake; and an adder circuit that adds shake signals output from the plurality of shake detecting sensors. A signal added by the adder circuit is output as a shake signal output from one sensor. | 08-26-2010 |
20100220200 | Still Image Acquistion Device, Still Image Acquistion Method, and Image Fluctuation Correction Device - A still image acquisition device includes: a fluctuation detection unit ( | 09-02-2010 |
20100225772 | IMAGE PROCESSING DEVICE, IMAGE PICKING-UP DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus ( | 09-09-2010 |
20100231731 | IMAGE-CAPTURING APPARATUS, IMAGE-CAPTURING METHOD AND PROGRAM - In an image-capturing apparatus and image-capturing method which can, in electronic image blur correction, correct camera motion-caused blurring occurring in one frame, an image-capturing apparatus ( | 09-16-2010 |
20100231732 | ESTIMATION OF POINT SPREAD FUNCTIONS FROM MOTION-BLURRED IMAGES - Methods for estimating the point spread function (PSF) of a motion-blurred image are disclosed and claimed. In certain embodiments, the estimated PSF may be used to compensate for the blur caused by hand-shake without the use of an accelerometer or gyro. Edge spread functions may be extracted along different directions from straight edges in a blurred image and combined to find the PSF that best matches. In other embodiments, the blur response to edges of other forms may similarly be extracted, such as corners or circles, and combined to find the best matching PSF. The PSF may then be represented in a parametric form, where the parameters used are related to low-order polynomial coefficients of the angular velocity vx(t) and vy(t) as a function of time. | 09-16-2010 |
20100231733 | IMAGE PROCESSING SYSTEM - A recognition object detecting portion detects a recognition object existing in each of images which are captured in series at different time points by a camera. Images of the detected recognition object are stored in a memory. A recognition object condition judging portion determines whether image areas of the recognition object are recognizable. A movement amount detecting portion detects a movement amount of the recognition object by using the image areas of the recognition object stored in the memory. A sub-area detecting portion detects a sub-area to be recognized, by using the image areas of the recognition object read out from the memory, in accordance with the movement amount of the recognition object. A recognition portion performs recognition processing on the sub-areas. A recognition result integration portion integrates recognition results of the sub-areas including recognized characters and/or recognized patterns and the corresponding reliabilities, respectively. | 09-16-2010 |
20100238305 | APPARATUS FOR THE EVALUATION OF POLYNOMIALS - Evaluation of multi-dimensional high order polynomials at high speed requires complex computing resources. This invention comprises a computing apparatus which allows the efficient and high speed calculation of such polynomials with a relatively simple computing resource. The computing resource consists entirely of adders and latches. There are no multipliers. The invention has particular application for the removal of low frequency image distortion due to kinetic heating in IR imaging missiles. | 09-23-2010 |
20100245600 | DIGITAL PHOTOGRAPHING DEVICE, METHOD OF CONTROLLING THE DIGITAL PHOTOGRAPHING DEVICE, AND COMPUTER-READABLE STORAGE MEDIUM - Provided is a method of controlling a digital photographing device, the method including: removing high-frequency components from a first input image and a second input image; calculating a differential image between the first input image and the second input image from which the high-frequency components are removed; calculating the frequency of each of the pixel values of the differential image; determining at lease one pixel value of the differential image having a frequency greater than a frequency threshold as a target motion range among the pixel values of the differential image greater than a motion threshold; and determining photographing settings corresponding to the target motion range. | 09-30-2010 |
20100245601 | IMAGE RECORDING APPARATUS, IMAGE TILT CORRECTION METHOD, AND RECORDING MEDIUM STORING IMAGE TILT CORRECTION PROGRAM - An image recording device includes an obtaining module configured to obtain tilt information indicating a tilt direction and a tilt angle of an image with respect to a horizontal direction for a processing unit including frames, a rotational processing module configured to perform, in accordance with the tilt direction and the tilt angle indicated by the tilt information, a rotational process having a same rotational direction and a same rotational amount for correction of tilting with respect to images of the frames, and a storing module configured to store the images of the frames subjected to the rotational process. | 09-30-2010 |
20100245602 | METHOD OF REMOVING AN ARTEFACT FROM AN IMAGE - A method of removing an artefact from an image captured with a motion invariant camera is disclosed. The captured image is de-blurred using a spatially invariant blur kernel. An edge filter with a fixed offset is applied to the de-blurred image to identify the location of at least one artefact. A parameter is estimated based on a region either side of the identified location. The at least one artefact is removed from the de-blurred image using the parameter. | 09-30-2010 |
20100253793 | METHOD AND SYSTEM FOR DIGITAL IMAGE STABILIZATION - The present invention relates to a method and system for a digital image stabilization intended to remove unwanted camera movement or jitter, both translational and rotational jitter. The system comprises the following means: 1) a motion estimation stage ( | 10-07-2010 |
20100259626 | METHOD AND APPARATUS FOR MOTION ARTIFACT REMOVAL IN MULTIPLE-EXPOSURE HIGH-DYNAMIC RANGE IMAGING - Methods and apparatuses for correcting image artifacts in a high dynamic range image formed by combining a plurality of exposures taken at different integration periods. A determination is made as to whether there is motion between the exposures. If motion is detected, pixel signal values chosen are replaced with pixel signal values from another exposure. | 10-14-2010 |
20100259627 | METHOD AND APPARATUS FOR PHOTOGRAPHING AND PROJECTING MOVING IMAGES - A digital cinematographic and projection process that automatically adjusts for object motion within motion pictures in order to eliminate blur while increasing perceived impact of fast motion. The process includes, capturing an image having static and moving elements at a first frame rate, analyzing the image for motion/velocity components to detect the fast moving elements, reducing the static elements to a second frame rate, the second frame rate being slower than the first frame rate and retaining the fast moving element at the first frame rate. | 10-14-2010 |
20100265342 | MOTION INFORMATION ASSISTED 3A TECHNIQUES - A method for adjusting parameters in a video capture device using motion information is disclosed. Motion information that indicates motion of a video capture device is determined. The motion information is compared to an upper bound and a lower bound. An aggressiveness level that indicates a change in a white balance gain for the video capture device is determined based on the comparison. A new white balance gain for the video capture device is determined based on the aggressiveness level. An exposure convergence holding time is adjusted based on the motion information. An exposure step size is increased based on the motion information. A brightness level of the video capture device is adjusted based on the convergence step size. | 10-21-2010 |
20100271495 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - A capturing parameter and a capturing image are obtained by an image capturing device which uses the capturing parameter. Correction data, which corresponds to an optical transfer function of the image capturing device derived from the capturing parameter, and a noise amount of the capturing image dependent on the capturing parameter, is acquired to correct a blur of the capturing image. A first degree of correction by the correction data for a high noise amount is less than a second degree of correction by the correction data for a low noise amount. | 10-28-2010 |
20100271496 | IMAGE PICKUP APPARATUS AND IMAGE CONVERSION METHOD - To reduce degradation of image quality occurring upon correction of an image shake, provided is an image pickup apparatus including: an image pickup optical system; an image pickup element for photoelectrically converting an image formed by the image pickup optical system; a processing unit for processing a taken image; a detection unit for detecting a shake of the image pickup apparatus; and an image stabilizing unit for decentering an image stabilizing lens unit formed as a part of the image pickup optical system based on a detection result from the detection unit. The processing unit performs the process by using an image restore filter corresponding to a position of the image stabilizing lens unit at a time of image taking. | 10-28-2010 |
20100277602 | Shaking Detection Device, Shaking Correction Device, Imaging Device, and Shaking Detection Method - A data thinning unit prepares thinned images by extracting only one component in raw data of each of a standard image and reference image, a block extracting unit extracts a search block and a template block for finding residual differences, a luminance difference comparing unit obtains a difference between the maximum value and the minimum value of luminance values of each block, and, when smaller than a threshold value, excludes this from a scope of acquisition of residual differences. The residual difference acquiring unit acquires residual differences from blocks which were not excluded, a block selecting unit selects a predetermined number of blocks having small residual differences, and a hand shake (blur or unintentional movement) acquiring unit finds a position of the template block at which the residual difference becomes the minimum, calculates a center value of all positions, and defines the same as the amount of hand shake. | 11-04-2010 |
20100277603 | Image Capture Device to Minimize the Effect of Device Movement - A device to capture an image includes an image sensor on which an optical image is formed by a lens. The image sensor provides electrical signals that represent the optical image. A motion sensor is included to sense movement of the image sensor. An image processor is coupled to the image sensor and the motion sensor. The image processor adjusts an integration time of the image sensor responsive to the motion sensor and creates a digital image according to the electrical signals received from the image sensor. The image processor may further respond to a signal-to-noise ratio in the electrical signals when adjusting the integration time. The image processor may select a frame scan of the image sensor responsive to the motion sensor. The image processor may add movement metadata to the digital image. | 11-04-2010 |
20100277604 | FLEXIBLE WIRING BOARD MOUNTING STRUCTURE OF AN IMAGE SHAKE CORRECTING APPARATUS - A flexible wiring board mounting structure of an image shake correcting apparatus, the image shake correcting apparatus includes a image sensor serving as a part of a photographing optical system and capable of moving in directions orthogonal to an optical axis of the photographing optical system, a control circuit mounted to an element independent of the image sensor, and a flexible wiring board which connects the image sensor and the control circuit to each other. The flexible wiring board includes an inner side connecting portion connected to the image sensor, an outer side connecting portion connected to the control circuit, and a flexible portion provided in an allowance space defined between the inner side connecting portion, the outer side connecting portion, the image sensor and an inner peripheral surface of an innermost ring member, out of ring members that support lens groups of the photographing optical system. | 11-04-2010 |
20100277605 | ELECTRONIC CAMERA - The present invention relates to an electronic camera which images an object image and records image data. Particularly, the present invention relates to technology to record image data in a good shooting state, such as with little blurring due to hand shaking. The invention has an image pick-up means which continuously images an object, a temporary memory means which temporarily stores a plurality of frames of image data which are continuously imaged by the image pick-up means, a shooting evaluation means which evaluates a good or bad shooting state of the image data imaged by the image pick-up means, a still image selection means which selects the image data with the highest evaluation of the shooting evaluation means among the image data which are stored in the temporary memory means, and an image saving means which saves the image data which is selected by the still image selection means. | 11-04-2010 |
20100289907 | ELECTRIC CAMERA - An electric camera includes an image sensing device with a light receiving surface having N vertically arranged pixels and an arbitrary number of pixels arranged horizontally, N being equal to or more than three times the number of effective scanning lines M of a display screen of a television system, a driver to drive the image sensing device to vertically mix or cull signal charges accumulated in individual pixels of K pixels to produce, during a vertical effective scanning period of the television system, a number of lines of output signals which corresponds to 1/K the number of vertically arranged pixels N of the image sensing device, K being an integer equal to or less than an integral part of a quotient of N divided by M, and a signal processing unit having a function of generating image signals by using the output signals of the image sensing device. | 11-18-2010 |
20100295952 | IMAGE STABILIZING APPARATUS AND IMAGE PICKUP APPARATUS HAVING THE SAME - An image stabilizing apparatus may include a fixing member disposed to a lens assembly having a through hole of which a center coincides with an optical axis of the lens assembly, a moving member disposed to move perpendicular to the optical axis with respect to the fixing member having a lens holder projecting in a direction of the optical axis to hold a compensating lens, a driving portion causing the moving member to move in a first direction perpendicular to the optical axis and in a second direction perpendicular to the optical axis and the first direction, four position determining portions formed in the first direction and the second direction on an outer circumferential surface of the lens holder of the moving member, and four stoppers projecting from an outer circumferential surface of the through hole of the fixing member to the moving member. | 11-25-2010 |
20100295953 | IMAGE PROCESSING APPARATUS AND METHOD THEREOF - A plurality of image capturing data time-divisionally exposed by a capturing unit are input. By first and second processes, the plurality of image capturing data are divided into synthesis images or motion detection images, a motion amount of the capturing unit at the time of time-division exposure is detected from the image capturing data of the motion detection images, synthesized image capturing data is generated by synthesizing the synthesis images, and a vibration of the synthesized image capturing data is corrected based on a divide pattern indicating divisions and the motion amount. Corrected image capturing data obtained by the first and second processes are integrated to obtain image capturing data after image stabilization. | 11-25-2010 |
20100295954 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - A plurality of image capturing data time-divisionally exposed by a capturing unit are input, and are divided into synthesis images or motion detection images. A motion amount of the capturing unit at the time of time-division exposure is detected from the image capturing data of the motion detection images, and synthesized image capturing data is generated by synthesizing the synthesis images. Then, a vibration of the synthesized image capturing data is corrected based on a divide pattern indicating divisions, and the motion amount. | 11-25-2010 |
20100295955 | DIGITAL CAMERA - A digital camera of the present invention includes a receiving portion | 11-25-2010 |
20100302383 | Image Processing Method and Apparatus Thereof - An image processing apparatus and method is disclosed that is applied for image stabilization. The method comprises the following steps of: At least two images are captured by the image capture module. A sharpest image and a sharper image are selected from the at least two images. At least a motion vector is generated between the sharpest image and the sharper image. The sharpest image is combined with the sharper image based on the motion vector and a combination ratio so as to generate a combined image. | 12-02-2010 |
20100302384 | Image Processing Device, Image Processing Method And Image Processing Program - The image processing device for generating a color image from a color mosaic image obtained with a single chip type imaging element includes: a camera motion detection module ( | 12-02-2010 |
20100302385 | ANGULAR VELOCITY SENSOR, AMPLIFICATION CIRCUIT OF ANGULAR VELOCITY SIGNAL, ELECTRONIC APPARATUS, SHAKE CORRECTION APPARATUS, AMPLIFICATION METHOD OF ANGULAR VELOCITY SIGNAL, AND SHAKE CORRECTION METHOD - An angular velocity sensor includes a sensor device and an amplification circuit. The sensor device generates a detection signal corresponding to an angular velocity. The amplification circuit generates both a first output signal by non-inverting amplifying the detection signal with a first gain and a second output signal by inverting-amplifying the detection signal with the first gain, and outputs the first output signal and the second output signal in order to obtain an angular velocity signal by calculating a difference between the first output signal and the second output signal. | 12-02-2010 |
20100302386 | COMPOSITE LOW FREQUENCY CUTOFF FILTER AND IMAGING APPARATUS USING THE SAME - An imaging apparatus includes a composite low frequency cutoff filter. The composite low frequency cutoff filter includes a first low frequency cutoff filter, a second low frequency cutoff filter, and an adder-subtractor. The second low frequency cutoff filter receives an output of the first low frequency cutoff filter. The adder-subtractor subtracts an output of the second low frequency cutoff filter from an input to the composite low frequency cutoff filter, and outputs a result of the subtraction to the first low frequency cutoff filter. An output of the first low frequency cutoff filter is outputted as an output of the composite low frequency cutoff filter. | 12-02-2010 |
20100309323 | OPTICAL IMAGE STABILIZER FOR CAMERA LENS MODULE - An optical image stabilizer for a camera lens module, including a housing fixed to a case of the camera lens module, at least one piezoelectric actuator fixed to the housing, and an image sensor assembly housed in the housing. A driving tip of the piezoelectric actuator is curved in shape and makes a point contact with the image sensor assembly. If the piezoelectric actuator is driven, the image sensor assembly freely moves on a plane perpendicular to a photographing direction as the driving tip rubs against the image sensor assembly. This optical image stabilizer is simple in structure and easy to control, so it can be mounted in devices in which installation spaces are limited, like small digital cameras and mobile terminals. | 12-09-2010 |
20100315518 | IMAGING SYSTEM AND PIXEL DEFECT CORRECTION DEVICE - An imaging system including: an imaging device; a light blocker for blocking a light receiving section of the imaging device from light; a pixel defect correction section configured to detect and correct defective pixels of the imaging device; a signal processing section configured to process a pixel signal corrected by the pixel defect correction section; and a control for controlling the signal processing section and the light blocker according to information obtained by the pixel defect correction section. The pixel defect correction section has a timing section and measures an operating time with the timing section to estimate a secondary defect count. | 12-16-2010 |
20100321509 | IMAGE PROCESSING APPARATUS AND METHOD THEREOF - Upon correcting blur of image capture data of an image capturing device by coded exposure processing, an exposure time and aperture value, which are set by a photometry unit of the image capturing device according to an object, are input, and the exposure time or aperture value is adjusted based on a ratio of shutter open periods in an opening and closing pattern of a shutter used in the coded exposure processing. Then, a gain adjustment value of the image capture data corresponding to a deficiency of an exposure amount by the adjusted exposure time or aperture value is set, image capture by an image capturing unit of the image capturing device is controlled based on the opening and closing pattern, exposure time, and aperture value. | 12-23-2010 |
20100321510 | IMAGE PROCESSING APPARATUS AND METHOD THEREOF - A plurality of images captured by an image capturing unit are input, and image blur of each of the plurality of images are corrected by coded exposure processing. Relative moving amounts between the plurality of deblurred images are calculated. Positions of the plurality of deblurred images are corrected based on the relative moving amounts. The plurality of images, on which the position correction is performed, are synthesized. | 12-23-2010 |
20100328472 | Method of Notifying Users Regarding Motion Artifacts Based on Image Analysis - A digital image acquisition system includes a portable apparatus for capturing digital images and a digital processing component for detecting, analyzing and informing the photographer regarding motion blur, and for reducing camera motion blur in an image captured by the apparatus. The digital processing component operates by comparing the image with at least one other image, for example a preview image, of nominally the same scene taken outside the exposure period of the main image. In one embodiment the digital processing component determines the degree of artifacts and whether to inform the user that the image is blurred by identifying at least one feature in a single preview image which is relatively less blurred than the corresponding feature in the main image. In another embodiment, the digital processing component calculates a trajectory of at least one feature in a plurality of preview images, extrapolates such feature on to the main image, calculates a PSF in respect of the feature, and informs the user based on the calculated PSF. In another embodiment the digital processing unit after determining the degree of blur notifies the photographer of the existing blur or automatically invokes consecutive captures. In another embodiment, the digital processing unit determines whether the image quality is acceptable from real time analysis of the captured image and provides this information to the user. Such real time analysis may use the auto focusing mechanism to qualitatively determine the PSF. | 12-30-2010 |
20110007169 | INFORMATION DEVICE, IMAGING APPARATUS HAVING THE SAME, AND METHOD OF ANGLE CORRECTION OF OBJECT - An information device includes: an angle detector which outputs data for obtaining a roll angle and a pitch angle of an object; and a corrector which corrects the roll angle based on the pitch angle obtained from the data outputted by the angle detector. | 01-13-2011 |
20110013027 | SHAKE CORRECTION APPARATUS, IMAGE PICKUP APPARATUS, AND METHOD FOR CONTROLLING SHAKE CORRECTION APPARATUS - There is provided a shake correction apparatus having an image pickup optical system that includes a correction lens capable of moving in a direction orthogonal to an optical axis. The shake correction apparatus comprises: a detection unit that detects shake applied to the shake correction apparatus; a determination unit that determines a reference position of the correction lens; and a drive unit that drives the correction lens with the reference position serving as a center position, so as to correct the shake detected by the detection unit. The determination unit determines the reference position, in a range where a condition that a Modulation Transfer Function (MTF) of the image pickup optical system when the correction lens is positioned at the determined reference position is equal to or larger than a threshold is satisfied. | 01-20-2011 |
20110019013 | METHOD FOR ADJUSTING PHOTOGRAPHING SETTINGS OF DIGITAL CAMERA THROUGH MOTION DETECTION - A method for adjusting photographing settings of a digital camera through motion detection, for determine to adjust the photographing settings of the digital camera according to vibrations of the digital camera or shaking of a photographed object. The adjusting method includes the following steps. At least two continuous pre-photographed images are captured. A central area and an edge area are set at same positions in the pre-photographed images respectively. Feature points are found in the pre-photographed images. A local motion vector and a camera motion vector are respectively determined according to a relation of the feature points on the central area and the edge area. A subject motion vector is generated according to a difference between the local motion vector and the camera motion vector. Adjustment of the photographing settings of the digital camera is determined according to a maximum value in the subject motion vector and camera motion vector. | 01-27-2011 |
20110019014 | APPARATUS AND METHOD FOR OBTAINING MOTION ADAPTIVE HIGH DYNAMIC RANGE IMAGE - Disclosed is an apparatus and method for obtaining a motion adaptive high dynamic range image, in which a motion degree of a first image and a second taken using different exposure times is calculated. The motion calculation intensity is adjusted based on the calculated motion degree. The motion compensation intensity involves a global motion compensation and/or a location motion compensation. Images subjected to compensation are synthesized and output, so that an image having high dynamic range is obtained. | 01-27-2011 |
20110032366 | METHODS OF STABILISING OPTICAL APPARATUS - The disclosure relates to a method of eliminating unwanted movement from a static or moving image which is captured or created in an optical apparatus. The method comprises determining unwanted movement in the image, providing an image control feature which has a zero reference position and a range over which the control can be varied to counter in the moving or static image said unwanted movement and using said control feature to remove said unwanted movement in a static or moving image. Non-zeroing in the image control to said reference position is monitored and a restoration to the image control is applied to bias the control towards the reference position at a rate which is a function of the speed of movement of the image in the optical apparatus to minimise the effect of the restoration correction on the image. | 02-10-2011 |
20110037861 | METHOD AND DEVICE FOR DIGITAL IMAGE STABILIZATION - The invention concerns a method for digital image stabilization for removing jitter from an original sequence of images ( | 02-17-2011 |
20110043646 | IMAGE STABILIZATION CONTROL CIRCUIT - The accuracy of servo control of a corrective lens in an image stabilization control circuit is prevented from decreasing due to non-linear characteristics of a position-detecting element. A signal representing a component of vibration of an image pickup apparatus is generated based on an angular velocity signal from a vibration-detecting element. A microcomputer corrects the vibration component signal according to a predetermined correction function and generates a target position signal representing a target position of the lens. A position-detection signal based on an output from the position-detecting element is compared with the target position signal, and the position of the lens is servo-controlled. The correction function is set so that the characteristics of variation of the target position signal relative to the target position will be the same as the characteristics of variation of the position-detection signal relative to the actual position of the lens. | 02-24-2011 |
20110043647 | METHOD AND APPARATUS FOR DETERMINING SHAKEN IMAGE BY USING AUTO FOCUSING - A method and apparatus for determining a shaken image by using auto focusing. The method includes calculating a maximum AF value of a preview image and a maximum AF value of a captured image that is down-sampled according to the preview image and comparing the maximum AF value of the preview with the maximum AF value of the captured image to determine whether the captured image is shaken or not. | 02-24-2011 |
20110050918 | Image Processing Device, Image Processing Method, and Program - An image processing device includes: a blurring correction processing unit configured to perform blurring correction processing on output signals of an imaging device having an RGBW array which includes RGB pixels and white (W) pixels, and generate blurring-corrected signals corresponding to each pixels; and a data conversion unit configured to convert the RGBW array into an RGB array; wherein the data conversion unit executes processing of generating blurring-corrected RGB signals (Rd, Gd, Bd) which are blurring-corrected signals corresponding to RGB that have been estimated from blurring-corrected signals generated by the blurring correction processing unit, and applying the blurring-corrected RGB signals (Rd, Gd, Bd) to determine RGB signals values configuring an RGB array. | 03-03-2011 |
20110058049 | Real-Time Image Stabilization - An apparatus and method for stabilizing image frames in a video data stream. A weighted average or centroid of the intensity or hue associated with pixels vs. the horizontal and vertical position of each pixel is calculated for a reference frame in the video data stream. A corresponding centroid is calculated for a subsequent frame in the stream. This image frame is then translated so that the centroid of the subsequent frame and the centroid of the reference frame coincide, reducing artifacts from shaking of the video capture device. Alternatively, the video stream frames may be divided into tiles and centroids calculated for each tile. The centroids of the tiles of a subsequent frame are curve fit to the centroids of tiles in a reference frame. An affine transform is then performed on the subsequent frame to reduce artifacts in the image from movements of the video capture device. | 03-10-2011 |
20110058050 | METHOD AND APPARATUS FOR MOTION BLUR AND GHOSTING PREVENTION IN IMAGING SYSTEM - A method and apparatus for motion blur and ghosting prevention in imaging system is presented. A residue image is computed by performing spatial-temporal filter with a set of absolute image difference of image pairs from input images. A noise adaptive pixel threshold is computed for every pixel based on noise statistics of image sensor. The residue image and the noise adaptive pixel threshold are used to create a motion masking map. The motion masking map is used to represent motion and non-motion pixels in pixels merging. The pixels merging step is performed to generate an output image by considering the motion pixels where the motion pixels are performed separately. The resulting output image having no or less motion blur and ghosting artifacts can be obtained, even the input images having different degree of motion blur between each of the image, while the complexity is low. It is preferred that the current invention is applied in the Bayer raw domain. The benefit is reduced computation and memory because only 1 color component is processed for each pixel. Another benefit is higher signal fidelity because processing in the Bayer raw domain is unaffected by demosaicing artifacts, especially along edges. However, the current invention can also be applied in RGB domain. | 03-10-2011 |
20110063459 | SYSTEM AND METHOD FOR ACQUIRING A STILL IMAGE FROM A MOVING IMAGE - This invention provides a system and method captures a moving image of a scene that can be more readily de-blurred as compared to images captured through the above-referenced and other known methods operating on an equivalent exposure-time interval. Rather than stopping and starting the integration of light measurement during the exposure-time interval, photo-generated current is switched between multiple charge storage sites in accordance with a temporal switching pattern that optimizes the conditioning of the solution to the inverse blur transform. By switching the image intensity signal between storage sites all of the light energy available during the exposure-time interval is transduced to electronic charge and captured to form a temporally decomposed representation of the moving image. As compared to related methods that discard approximately half of the image intensity signal available over an equivalent exposure-time interval, such a temporally decomposed image is a far more complete representation of the moving image and more effectively de-blurred using simple linear de-convolution techniques. | 03-17-2011 |
20110063460 | IMAGING APPARATUS - Provided is an imaging apparatus that can achieve a clear image in which motion blur is reduced even when a moving subject is photographed in a dark environment. The imaging apparatus ( | 03-17-2011 |
20110074963 | IMAGE PICKUP APPARATUS - An image pickup apparatus includes: an image pickup element; a shake detection device configured to detect a vibration applied to a main body of the image pickup apparatus; and an image blur correction device configured to perform a correction of removing an image blur of the image due to the vibration, the image blur correction device including: a holding member configured to hold the image pickup element; a first driving device configured to move the holding member between a first position where the center of the image pickup element substantially corresponds to the optical axis and a second position; a heat exhausting member arranged to be in contact with the holding member when the holding member is located at the second position; and a control device configured to drive the first driving device based on the vibration. | 03-31-2011 |
20110085049 | METHOD AND APPARATUS FOR IMAGE STABILIZATION - A method and device are provided for method for stabilization of image data by an imaging device. In one embodiment, a method includes detecting image data for a first frame and a second frame, performing motion estimation to determine one or more motion vectors associated with global frame motion for image data of the first frame, performing an outlier rejection function to select at least one of the one or more motion vectors, and determining a global transformation for image data of the first frame based, at least in part, on motion vectors selected by the outlier rejection function. The method may further include determining a stabilization transformation for image data of the first frame by refining the global transformation to correct for unintentional motion and applying the stabilization transformation to image data of the first frame to stabilize the image data of the first frame. | 04-14-2011 |
20110096179 | METHOD FOR IMPROVED DIGITAL VIDEO IMAGE QUALITY - A method of producing a digital video with reduced motion blur or increased brightness, including capturing a digital video using an exposure time that reduces image blur; selecting a first series of sequential images from the digital video capture; combining pixel values of said images to produce a first intermediate image that is brighter than each of the selected sequential images; choosing and processing a reference image to create a second intermediate image that is less blurry than the first intermediate image; identifying moving regions among the selected sequential images; replacing pixel values of moving regions in the first intermediate image with corresponding pixel values from the second intermediate image to produce a first digital video image having reduced motion blur or increased brightness; and repeating these steps for a second series of sequential images that includes at least one image from the first series of sequential images. | 04-28-2011 |
20110096180 | FOURIER DOMAIN BLUR ESTIMATION METHOD AND SYSTEM - A method and system for estimating motion blur of an image associated with a moving object. The direction of one-dimensional motion blur may be estimated by inspecting a power spectrum associated with the image. A radon transform with respect to the image power spectrum is computed in the direction of the motion blur. A family of kernels with respect to the one-dimensional motion blur may then be defined utilizing a shutter triggering sequence associated with an image capturing device. The family of kernels may be modeled utilizing a modulation transfer function (MTF). Each modulation transfer function may be compared with the radon transform of the power spectrum associated with the image via a correlation function. The kernel with highest correlation with respect to the radon transform of the image power spectrum may be employed for de-blurring the image. | 04-28-2011 |
20110102609 | VIBRATION CORRECTION CONTROL CIRCUIT FOR CORRECTING DISPLACEMENT OF AN OPTICAL AXIS DUE TO VIBRATION INCLUDING CAMERA SHAKE AND IMAGE PICKUP APPARATUS EQUIPPED THEREWITH - An integration circuit integrates an angular velocity signal outputted from a vibration detection element and generates a shift amount signal indicating the shift amount of an imaging device. A control unit samples a plurality of amplitude values of an acceleration signal during a predetermined unit period in the panning state or the tilting state. When an average value of the sampling values exists nearer to zero than a predetermined basic threshold value, it is judged that the panning state or the tilting state is terminated. | 05-05-2011 |
20110109753 | METHOD AND SYSTEM TO IMPROVE THE PERFORMANCE OF A VIDEO ENCODER - Method and system to improve the performance of a video encoder. The method includes processing an initial video signal in a front-end image pre-processor to obtain a processed video signal and processor information respecting the signal, providing the processed video signal and the processor information to a video encoder, and encoding the video signal in the video encoder according to the processor information to provide an encoded video signal for storage. The system includes a video pre-processor connectable to receive an initial video signal. The video encoder in communication with the video pre-processor receives a processed video signal and a processor information. A storage medium in communication with the video encoder stores an encoded video signal. | 05-12-2011 |
20110109754 | IMAGE CAPTURE APPARATUS AND IMAGE CAPTURING METHOD - An image capture apparatus includes: an image capturing unit; a first image capture controller configured to control the image capturing unit to capture a set of a plurality of images while changing exposure time for each of the images; a second image capture controller configured to obtain a plurality of sets of the images; an addition combination section configured to perform image alignment on the images contained in each of the sets and to perform addition combination on the aligned images to generate a combined image; a combination controller configured to control the addition combination section to perform the image alignment and the addition combination for each of the sets to obtain a plurality of combined images; a selector configured to evaluate the combined images and to select one of the combined images most highly evaluated as a selected image; and a storage configured to store the selected image. | 05-12-2011 |
20110115929 | IMAGE CAPTURING APPARATUS - An apparatus capable of capturing a still image in a moving image capturing mode includes an instruction unit configured to instruct still image capturing, a vibration detection unit configured to detect vibration applied to the apparatus, a control unit configured to control driving of a correction member in a driving range according to whether still image capturing or moving image capturing is performed, based on an output from the vibration detection unit, a position detection unit configured to detect a position of the correction member, and a determination unit configured to determine a reference position of a range in which the correction member is driven, wherein, if the instruction unit instructs image capturing in the moving image capturing mode, the detected position is set as the reference position. | 05-19-2011 |
20110122264 | IMAGING APPARATUS, IMAGE PROCESSING METHOD, AND COMPUTER PROGRAM PRODUCT - An imaging apparatus includes: an imaging unit that captures an image by photoelectrically converting a subject image; a feature calculating unit that calculates, per region included in the image, a feature value related to suitability for motion detection; a region-motion detecting unit that detects a motion vector per the region; and a whole-motion calculating unit that calculates a motion quantity of a whole image from the feature value and the motion vector. | 05-26-2011 |
20110134259 | METHOD AND APPARATUS FOR CORRECTING SHAKINESS - Provided is a method, apparatus, and computer readable medium for correcting shakiness, in which the method includes generating using a hall sensor a hall sensor signal corresponding to displacement caused by a shock; determining whether the hall sensor signal exceeds a first threshold value; generating a shakiness correction control signal according to a result of the determination; and performing shakiness correction according to the shakiness correction control signal. | 06-09-2011 |
20110141295 | IMAGING APPARATUS - Digital camera is provided with face detection section that detects faces of a plurality of photographing objects, microcomputer performs continuous shooting in optimum photographing conditions in accordance with the number of faces of the photographing objects for each face of the plurality of photographing objects by a single shutter operation and performs control by assigning serial photographing object numbers to the images of the plurality of photographing objects taken by continuous shooting and recording the images in a single continuous-shooting image folder. Furthermore, microcomputer performs continuous shooting in predetermined order in accordance with the number of faces of the photographing objects and detects, when the photographing object speed is equal to or higher than a predetermined value, the photographing object speed again after photographing other photographing objects. | 06-16-2011 |
20110141296 | IMAGING APPARATUS - Digital camera is provided with face detection section that detects faces of a plurality of photographing objects, microcomputer performs continuous shooting in optimum photographing conditions in accordance with the number of faces of the photographing objects for each face of the plurality of photographing objects by a single shutter operation and performs control by assigning serial photographing object numbers to the images of the plurality of photographing objects taken by continuous shooting and recording the images in a single continuous-shooting image folder. Furthermore, microcomputer performs continuous shooting in predetermined order in accordance with the number of faces of the photographing objects and detects, when the photographing object speed is equal to or higher than a predetermined value, the photographing object speed again after photographing other photographing objects. | 06-16-2011 |
20110141297 | COMPOUND-EYE IMAGING DEVICE - A compound-eye imaging device according to an aspect of the present invention detects vibration applied to a plurality of imaging means and corrects, for each of a plurality of imaging means, an image blur of a subject image taken by the imaging means caused by the vibration. The image blur is corrected to make the amounts of remaining blur of the image blur after the correction substantially the same among the plurality of imaging means. As a result, even if there are variations in operation characteristics and installation errors of image blur correction means arranged on the imaging means, an appropriate image blur correction can be performed for each imaging means. Since the amounts of remaining blur of the subject image after the image blur correction in the imaging means are substantially the same, a comfortable, natural parallax image that is good for eyes can be obtained. | 06-16-2011 |
20110149095 | IMAGE PICKUP APPARATUS AND METHOD OF PICKING UP IMAGE - An image pickup apparatus is configured to include an image pickup possibility determination unit to permit a pickup of an image at an exposure when a shutter speed corresponding to that exposure is determined to be equal to or higher than a threshold value, an image pickup setting unit to set the number of images to be picked up at the exposure at which image pickup has been permitted in such a manner that the total number of images that have to be picked up to generate an image signal having a wide dynamic range using image signals obtained at the exposure at which image pickup has been permitted is minimum, a serial image pickup control unit to obtain the number of images set, and an image signal synthesis unit to synthesize the plurality of image signals obtained so as to generate an image signal having a wide dynamic range. | 06-23-2011 |
20110157380 | IMAGE CAPTURE APPARATUS AND CONTROL METHOD THEREOF - This invention comprises an image sensor which captures a moving image of an object, the image of which is formed by an imaging lens, a first detection unit which detects vibration of an image capture apparatus, a second detection unit which detects movement of the object based on an image signal for each image capture period which is output by the image sensor, a distance detection unit which detects an object distance, which is a distance from the image capture apparatus to the object, a changing unit which changes an output of the second detection unit based on the object distance which is detected by the distance detection unit, and a driving unit which drives a vibration correction unit, which optically performs vibration correction, based on an output of the first detection unit and an output of the second detection unit which is changed by the changing unit. | 06-30-2011 |
20110176013 | METHOD TO ESTIMATE SEGMENTED MOTION - A method to estimate segmented motion uses phase correlation to identify local motion candidates and a region-growing algorithm to group small picture units into few distinct regions, each of which has its own motion according to optimal matching and grouping criteria. Phase correlation and region growing are combined which allows sharing of information. Using phase correlation to identify a small number of motion candidates allows the space of possible motions to be narrowed. The region growing uses efficient management of lists of matching criteria to avoid repetitively evaluating matching criteria. | 07-21-2011 |
20110176014 | Video Stabilization and Reduction of Rolling Shutter Distortion - A method of processing a digital video sequence is provided that includes estimating compensated motion parameters and compensated distortion parameters (compensated M/D parameters) of a compensated motion/distortion (M/D) affine transformation for a block of pixels in the digital video sequence, and applying the compensated M/D affine transformation to the block of pixels using the estimated compensated M/D parameters to generate an output block of pixels, wherein translational and rotational jitter in the block of pixels is stabilized in the output block of pixels and distortion due to skew, horizontal scaling, vertical scaling, and wobble in the block of pixels is reduced in the output block of pixels. | 07-21-2011 |
20110181741 | METHOD AND SYSTEM FOR TESTING AN IMAGE STABILIZING DEVICE FOR AN IMAGE CAPTURE APPARATUS - The disclosure relates to a test process of an image stabilization system in an image capture apparatus, comprising steps of: submitting the stabilization system to rotation vibratory movements around two distinct rotation axes, measuring characteristics of rotation vibratory movements, and setting the rotation vibratory movements to setpoint position values and, taking into consideration the measured characteristics of the vibratory movements, collecting images from the image capture apparatus submitted to vibration and analyzing the collected images. | 07-28-2011 |
20110181742 | ELECTRONIC CAMERA - The present invention relates to an electronic camera which images an object image and records image data. Particularly, the present invention relates to technology to record image data in a good shooting state, such as with little blurring due to hand shaking. The invention has an image pick-up means which continuously images an object, a temporary memory means which temporarily stores a plurality of frames of image data which are continuously imaged by the image pick-up means, a shooting evaluation means which evaluates a good or bad shooting state of the image data imaged by the image pick-up means, a still image selection means which selects the image data with the highest evaluation of the shooting evaluation means among the image data which are stored in the temporary memory means, and an image saving means which saves the image data which is selected by the still image selection means. | 07-28-2011 |
20110187877 | Image Correction For Image Capturing With an Optical Image Stabilizer - In one exemplary embodiment, a method includes: capturing, by a camera, first image data for at least one first image, where the first image data is captured with an optical image stabilizer of the camera deactivated; capturing, by the camera, second image data for at least one second image, where the second image data is captured with the optical image stabilizer of the camera activated; obtaining an optical image stabilizer correction based on a comparison between the first image data and the second image data; and applying the optical image stabilizer correction to the second image data in order to correct at least one effect of the optical image stabilizer on the second image data. | 08-04-2011 |
20110199494 | IMAGING DEVICE AND IMAGE PROCESSING APPARATUS - An imaging device includes an imager, with which an optical image of an object scene is repetitively captured. A first movement detector detects, as to each of a plurality of object scene images according to a time series output from the imager, a movement of a first feature point between the object scene image and the object scene images immediately before, and a clipper performs clipping processing on each of the plurality of object scene images on the basis of the detection result. When a still image recording operation is performed, a CPU changes an exposure time of the imager in such a direction as to shorten the time, and a second movement detector detects a movement of a second feature point between the object scene image immediately after the recording operation (reference object scene image) and the three object scene images being successive thereto out of a plurality of object scene images, and an adder adds the respective three object scene images to the reference object scene image while displacing the same on the basis of the detection result. | 08-18-2011 |
20110205377 | DIGITAL CAMERA WITH INTEGRATED ACCELEROMETERS - A digital camera system has integrated accelerometers for determining static and dynamic accelerations of the digital cameral system. Data relating to static and dynamic accelerations are stored with recorded image data for further processing, such as for correcting image data for roll, pitch and vibrations and for displaying recorded images with a predetermined orientation using information about, e.g., roll. Data may also be used on-the-fly for smear suppression caused by vibrations. | 08-25-2011 |
20110211083 | BORDER HANDLING FOR MOTION COMPENSATED TEMPORAL INTERPOLATOR USING CAMERA MODEL - In one embodiment of the present invention, a method is provided for providing border handling in motion compensated interpolation, wherein a camera model is used to detect areas of predominant movements in a displayable output, and for each reveal or conceal area: it is determined whether the reveal or conceal areas is due to a camera movement or an object movement. if the reveal or conceal areas is due to a camera movement. The camera model is used to arrive at interpolated pixel values for pixels within the corresponding area. If the reveal or conceal areas is not due to a camera movement, arriving at interpolated pixel values for pixels within the corresponding area without using the camera model. | 09-01-2011 |
20110228112 | USING ACCELEROMETER INFORMATION FOR DETERMINING ORIENTATION OF PICTURES AND VIDEO IMAGES - A computing device, such as a mobile device, can capture pictures or video images using a digital camera and obtain associated orientation information using an accelerometer. The orientation information can be used to adjust one or more of the captured pictures or video images to compensate for rotation in one or more planes of rotation. The orientation information can be saved along with the captured pictures or video images. The orientation information can also be transmitted or streamed along with the captured pictures or video images. Image matching operations can be performed using pictures or video images that have been adjusted using orientation information. | 09-22-2011 |
20110234823 | IMAGE PROCESSING APPARATUS AND METHOD OF CONTROLLING THE SAME - The correction amount of an aberration caused in each pixel of the region by the optical system is calculated. A predetermined number of peripheral pixels center on a position apart from the pixel by the distance corresponding to the calculated aberration correction amount are multiplied by interpolation coefficients obtained from an interpolation function and added, thereby deriving the pixel value at the pixel position after correction. If the predetermined number of peripheral pixels around the position apart by the distance corresponding to the calculated aberration correction amount are not present in the readout region, aberration correction is implemented by changing the interpolation function. More specifically, the interpolation function is changed so as to make the frequency response behavior of the interpolation function more moderate than that of the interpolation function that gives the interpolation coefficients to multiply the predetermined number of peripheral pixels and used in the correction processing. | 09-29-2011 |
20110234824 | IMAGE PROCESSING METHOD AND DEVICE - According to one embodiment, an image processing method includes storing, in a frame memory, first and second images of continuously taken N (however, N is not less than 2) images, cutting an image as an image for correction from a plurality of reference areas of the first and second images stored in the frame memory, calculating such a hand shake correction amount that the first image and the second image overlap with high accuracy with the use of a plurality of images for correction of the first and second images and correcting the first image with the calculated hand shake correction amount, overwriting the corrected first image in the first image stored in the frame memory, composing the corrected first image and the second image to obtain a composite image, and overwriting the composited the composite image in the second image stored in the frame memory. | 09-29-2011 |
20110242339 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - An image processing apparatus includes: a matching processing unit calculating positions of center coordinates of all video data forming one frame image of multi-viewpoint video data with respect to coordinates of the origin of the one frame image using at least two pieces of video data forming the one frame image, and generating focus information as the calculation result; a motion vector detection unit detecting a motion vector, which indicates an overall motion of the one frame image, using one piece of video data of at least two pieces of video data forming the one frame image; a motion component separation processing unit separating motion components of the one frame image using the generated focus information and the detected motion vector; and a correction unit correcting all of the video data forming the one frame image using the motion components separated by the motion component separation processing unit. | 10-06-2011 |
20110267480 | IMAGE PROCESSING APPARATUS, IMAGE-PICKUP APPARATUS, AND IMAGE PROCESSING METHOD - The present invention provides an image processing apparatus capable of obtaining good shake-corrected images in electronic image stablization irrespective of changes of image-taking conditions. An image processing apparatus comprises a shake correcting part that performs coordinate transformation processing based on shake information to an input image that is generated by use of an image-pickup device, and a method changing part that changes a coordinate transformation method for the coordinate transformation processing. | 11-03-2011 |
20110273572 | IMAGING APPARATUS - An imaging apparatus includes a correction lens configured to correct a shake of a subject image formed on an imaging device, a driver configured to drive the correction lens, a detector configured to detect an amount of shake of the imaging apparatus, a determining unit configured to determine, based on an amplitude of an output from the detector, whether or not the shake of the imaging apparatus is within a normal range of camera shake, and a controller configured to control the driver based on a result of determination made by the determining unit. The controller controls the driver so as to drive the correction lens in a first mode when it is determined that the shake of the imaging apparatus is within the normal range of camera shake, the first mode being such that the correction lens is driven according to a result of detection by the detector, and so as to stop the correction lens or to drive the correction lens in a second mode when it is determined that the shake of the imaging apparatus is out of the normal range of camera shake, the second mode being such that an amount of movement of the correction lens is suppressed more than that for the first mode. | 11-10-2011 |
20110279693 | IMAGE CAPTURING APPARATUS AND CAMERA SHAKE CORRECTION METHOD, AND COMPUTER-READABLE MEDIUM - An image capturing apparatus includes: an image capturing unit capturing an image of an object; an image capture controller that causes the image capturing unit to capture first color component images having a first color component by multi-shot exposure, and causes the image capturing unit to capture second and third color component images, a displacement information acquiring unit that acquires displacement information; an image adding unit that aligns and adds the first color component images based on the displacement information to generate an added image; a calculator that calculates a first point spread function based on the displacement information; a first correcting unit that corrects the second and third color component images using the first point spread function; and a combining unit that combines the added image with the corrected second and third color component images. | 11-17-2011 |
20110292226 | CONTROL CIRCUIT AND CONTROL METHOD FOR MOTOR - A control circuit generates a driving signal indicating an actuator torque. A first operation unit generates position, speed, and acceleration signals, based upon a detection signal indicating the actuator mover state. A second operation unit generates a first difference signal indicating the difference between a target signal and the position signal. A third operation unit generates a second difference signal indicating the difference between signals based on the first difference signal and the speed signal. A fourth operation unit generates a position control signal such that the second difference signal becomes zero. A fifth operation unit generates a third difference signal indicating the difference between signals based on a driving signal and the acceleration signal. A sixth operation unit generates a driving signal by summing a signal based on the position control signal and a disturbance estimation signal based on the third difference signal. | 12-01-2011 |
20110298936 | IMAGE STABILIZATION DEVICE, IMAGE STABILIZATION METHOD, AND PROGRAM - Provided is an image stabilization device including an image capturing unit for capturing an image of a face of a user, a motion detection unit for detecting motion of the face whose image has been captured by the image capturing unit, a motion prediction unit for predicting motion of the face to be detected at a next time point, based on the motion of the face detected in time-series by the motion detection unit, an image data display unit for displaying image data, and a motion correction unit for performing control on the image data display unit to move the image data in a direction of cancelling the motion of the face predicted by the motion prediction unit. | 12-08-2011 |
20110298937 | IMAGE STABILIZATION DEVICE, IMAGE STABILIZATION METHOD, AND PROGRAM - Provided is an image stabilization device including a motion sensor for detecting motion data, an image data display unit for displaying image data, a shake coefficient calculation unit for calculating a shake coefficient indicating intensity of shaking based on time-series motion data detected by the motion sensor, and a motion correction unit for performing control on the image data display unit to move the image data in a direction of cancelling the shaking in a case the shake coefficient calculated by the shake coefficient calculation unit becomes less than a predetermined first threshold. | 12-08-2011 |
20110304738 | IMAGE PICKUP DEVICE - Provided is an image pickup device which can prevent a camera-shaken image from being captured unexpectedly and optimally perform auxiliary light photographing and camera-shake prevention. In this device, an image pickup unit ( | 12-15-2011 |
20120002060 | OPTICAL APPARATUS, IMAGE SENSING DEVICE, AND CONTROL METHODS THEREOF - An image sensing device includes two, left- and right-eye image sensors, and detects the rotation amount around the optical axis of the image sensing device, and the displacement amounts of the two image sensors in a plane perpendicular to the optical axis. The image sensing device performs control such that two pixels on the two image sensors having output the centers of the images to be cropped from the sensed images exist in the same position in the vertical direction in the plane perpendicular to the optical axis. The image sensing device also performs control such that the horizontal distance, in the plane perpendicular to the optical axis, between the two pixels of the two image sensors having output the centers of the images to be cropped from the sensed images is equal to the spacing between the two image sensors. | 01-05-2012 |
20120013752 | IMAGE PROCESSING DEVICE AND METHOD FOR CONTROLLING THE SAME - An image processing device calculates a coordinate transformation coefficient for each of a plurality of regions, and, for at least one point of interest in a local region, calculates a correction amount that is used when blur in a target image is corrected using a coordinate transformation coefficient for the local region and a correction amount that is used when the blur in the target image is corrected using a coordinate transformation coefficient for a region neighboring the local region. In this case, if the correction amount difference does not fall within a predetermined limit value, a coordinate transformation coefficient is newly obtained for each of the plurality of regions including the local region so that the correction amount difference falls within the predetermined limit value, and the target image is corrected for each region using the newly obtained coordinate transformation coefficient. | 01-19-2012 |
20120019677 | IMAGE STABILIZATION IN A DIGITAL CAMERA - Disclosed is a method for processing a digital image, the method comprising: selecting a set of frames from a plurality of frames captured by a digital imaging device: identifying a set of pixel blocks from the set of frames; and integrating the set of pixel blocks to process the digital image. | 01-26-2012 |
20120019678 | IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREFOR - An image processing apparatus sets one of a plurality of obtained images as a reference image, and detects a motion vector relative to the reference image for the other images. A scalar amount of the detected motion vector is compared with a threshold value representing an image displacement limit for combining an image with the reference image, and whether a condition for combining with the reference image is satisfied is determined. If the condition is satisfied, a corresponding image is moved to cancel the detected motion vector and combined with the reference image, and an image in which displacement between images has been corrected is output. The threshold value is changed by a control unit depending on an image-capturing setting set when the plurality of images are captured, the condition of an object image in the plurality of captured images, or the like. | 01-26-2012 |
20120019679 | IMAGING APPARATUS - In an imaging apparatus, a control unit can operate in one of a first mode which corresponds to an image capturing mode and which controls an image-blur correcting unit, and a second mode corresponding to a playback mode. When the image capturing mode is switched to the playback mode, the control unit operates in the first mode during a predetermined time after switching to the playback mode, and then operates in the second mode after the predetermined time period has elapsed. This makes it possible to immediately obtain an anti-shake effect even if the playback mode is switched to the image capturing mode. | 01-26-2012 |
20120026348 | DIGITAL PHOTOGRAPHING APPARATUS AND METHOD OF CONTROLLING SLEEP MODE THEREOF - In an embodiment, when a sleep mode is turned off, if vibration less than a limit value occurs, the sleep mode is turned on and a hand shake correction unit is turned off so that power consumption may be reduced. Moreover, when the sleep mode is turned on, if vibration greater than a limit value occurs, the sleep mode is turned off and the hand shake correction unit is turned on so that an image blur does not occur. In another embodiment, when the sleep mode is turned off, if vibration less than a limit value occurs, the hand shake correction unit is turned on in the state where the sleep mode is turned on and a HPF is turned on so that an image blur is prevented from occurring due to a shock caused by pushing a release button or shock caused by opening or closing a shutter. | 02-02-2012 |
20120026349 | IMAGING DEVICE AND METHOD, AND IMAGE PROCESSING METHOD FOR IMAGING DEVICE - An image-capturing device of the present invention includes an image-capturing element | 02-02-2012 |
20120026350 | IMAGE DISPLAY APPARATUS AND PHOTOGRAPHING APPARATUS - Provided is an image display apparatus whose display images can be viewed regardless of an orientation or an aspect ratio of a display image. When a user sets the orientation and the aspect ratio of a live view display, a background frame corresponding to the orientation and the aspect ratio set by the user is selected. Then, a spare region is determined, and icons are placed in the determined spare region. When the orientation or aspect ratio of the display image is changed, the position of the icons is also changed so that the appearance of the display images is not overlapped with icons or information. | 02-02-2012 |
20120044369 | IMAGING APPARATUS, ABERRATION CORRECTING METHOD, AND PROGRAM - An imaging apparatus includes: a shift lens driven to be shifted; a uniform aberration correction data storing unit storing uniform aberration correction data for correcting uniform aberration; a shift amount calculating unit calculating an amount of aberration correction shift of the shift lens for correcting uniform aberration using the uniform aberration correction data; a shift lens driving unit driving the shift lens to be shifted according to an amount of driving shift based on the amount of aberration correction shift; a concentric aberration correction amount calculating unit calculating an amount of concentric aberration correction for correcting concentric aberration with respect to a process target pixel of an input image signal; and a pixel value correcting unit correcting a pixel value of the process target pixel on the basis of the calculated amount of concentric aberration correction. | 02-23-2012 |
20120069204 | MOTION BLUR CORRECTION DEVICE AND MOTION BLUR CORRECTION METHOD - A motion blur correction device includes a motion blur correction section which performs motion blur correction processing on an intended video data, and a correction intensity judgment section which instructs the motion blur correction section to cancel the execution of the motion blur correction processing when the frame rate of the video data is equal to or less than a predetermined value. As a result, motion blur correction is prevented from being automatically performed when motion blur correction is not required. | 03-22-2012 |
20120086821 | Lens barrel and image pickup device - Provided is a lens barrel having, in order from an object side to an image side, a first to a third group lens, the lens barrel including: a fixed frame; a cam frame supported by the fixed frame so as to be rotationally movable in a optical axis direction between a forward and a backward movement ends; and a shutter frame which moves in the optical axis direction in a rotation restricted state, through the rotation of the cam frame, in which: a third group frame is fixed to the shutter frame so that the object side of the third group lens is arranged on an inner peripheral side of the shutter frame; and the second frame is configured so that the image side of the frame is stored on the inner peripheral side of the shutter frame when the cam frame is positioned at the backward movement end. | 04-12-2012 |
20120098982 | PHOTOGRAPHING DEVICE WHICH MEASURES AZIMUTH DURING PHOTOGRAPHING - Disclosed is a photographing device comprising: a photographing unit; a shutter operating unit; a geomagnetic sensor which detects geomagnetism; an electric actuator unit which is electrically driven to generate magnetic field; a drive control unit which turns the electric actuator unit into a non-driven state, within a predetermined period after an operation is entered through the shutter operating unit; and a shooting azimuth calculation unit which captures an output from the geomagnetic sensor within the predetermined period, and calculates azimuth based on the captured output. | 04-26-2012 |
20120105654 | Methods and Systems for Processing a Video for Stabilization and Retargeting - Methods and systems for processing a video for stabilization and retargeting are described. A recorded video may be stabilized by removing shake introduced in the video, and a video may be retargeted by modifying the video to fit to a different aspect ratio. Constraints can be imposed that require a modified video to contain pixels from the original video and/or to preserve salient regions. In one example, a video may be processed to estimate an original path of a camera that recorded the video, to estimate a new camera path, and to recast the video from the original path to the new camera path. To estimate a new camera path, a virtual crop window can be designated. A difference transformation between the original and new camera path can be applied to the video using the crop window to recast the recorded video from the smooth camera path. | 05-03-2012 |
20120105655 | IMAGE PROCESSING DEVICE AND METHOD - An image processing device extracts, in an image block selection section | 05-03-2012 |
20120105656 | OPTICAL DEVICE, IMAGE CAPTURE APPARATUS, AND OPTICAL DEVICE CONTROL METHOD - An optical device comprises an image blur compensation unit which compensates a blur in an image formed by an imaging optical system, the image blur compensation unit being movable in directions not parallel to an optical axis of the imaging optical system, a shake detection unit which detects shake of a device, a position detection unit which detects a position of the image blur compensation unit, the position detection unit having a detection accuracy that is variable, a driving control unit which calculates a driving target position of the image blur compensation unit based on an output from the shake detection unit and position information of the image blur compensation unit, and a control unit which controls detection accuracy of the position detection unit to set the detection accuracy of the position detection unit to a greater value in still image capture than a value in video capture. | 05-03-2012 |
20120105657 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes a region setting portion that sets a clipping region as an image region in each input image based on image data of an input image sequence consisting of a plurality of input images, a clipping process portion that extracts an image within the clipping region as a clipped image from each of a plurality of target input images included in the plurality of input images, and an image combining portion that arranges and combines a plurality of clipped images that are extracted. | 05-03-2012 |
20120113278 | IMAGING APPARATUS, IMAGE PROCESSING APPARATUS, AND IMAGE PROCESSING METHOD, AND PROGRAM - Disclosed is an imaging apparatus including a plurality of imaging units; a correction unit that executes a correction process for images captured by a plurality of the imaging units; and a control unit that computes a correction parameter applied to a correction process in the correction unit, wherein the correction unit executes distortion aberration correction and hand-vibration correction for each of the captured images and an image characteristic matching correction process for matching characteristics between a plurality of images captured by a plurality of the imaging units. | 05-10-2012 |
20120120263 | Image Capturing Device and Exposure Time Adjusting Method Thereof - The present invention discloses an image capturing device and an exposure time adjusting method thereof. The image capturing device comprises an image capturing module, a processing module and an image integrated module. The image capturing module is used to capture a plurality of temporary images. While the image capturing module captures the temporary images, the processing module dynamically adjusts the exposure times of the temporary images according to a predetermined file, a plurality of analysis results of the temporary images or the vibration information sensed by a vibration sensor. Next, the image integrated module controlled by a control module in the processing module integrates the temporary images to generate a stored image. | 05-17-2012 |
20120120264 | METHOD AND APPARATUS FOR VIDEO STABILIZATION BY COMPENSATING FOR VIEW DIRECTION OF CAMERA - A video stabilization method includes: measuring an inter-frame camera motion based on a difference angle of a relative camera view direction in comparison with a reference camera view direction in each frame of a frame sequence of a video; generating a camera motion path of the frame sequence by using the inter-frame camera motion and determining a camera view direction adjustment angle based on a user's view direction by using the camera motion path; and compensating for the camera view direction by using the camera view direction adjustment angle in each frame. | 05-17-2012 |
20120127329 | STABILIZING A SUBJECT OF INTEREST IN CAPTURED VIDEO - A method of stabilizing a subject of interest in captured video includes identifying the subject of interest within a crop window and establishing a first subject bounding window that includes the subject of interest. The method continues with refraining from substantially changing the first subject bounding window while the subject of interest moves within the first subject bounding window and establishing a second subject bounding window within the crop window that includes the subject of interest when the subject of interest exits the first subject bounding window. | 05-24-2012 |
20120127330 | IMAGE PICKUP DEVICE - Provided is an image pickup device that enables distortion compensation with high precision. Exposure and reading are conducted on pixel rows that are discontinuous with respect to a vertical direction of an image pickup element, and multiple low resolution images are obtained. Each of these multiple low resolution images has a lower distortion than an ordinary image obtained by conducting an ordinary continuous exposure and reading. Therefore, output images with reduced distortion can be generated by using the low resolution images. | 05-24-2012 |
20120133785 | IMAGE PROCESSING DEVICES AND IMAGE PROCESSING METHODS - In an embodiment, an image processing device is provided. The image processing device may include: a first image acquirer configured to acquire a first image of a first spatial resolution; a second image acquirer configured to acquire a second image of a second spatial resolution, wherein the second spatial resolution may be higher than the first spatial resolution; a determiner configured to determine in the first image a location of a part of the first image that corresponds to a pre-determined part of the second image based on a pre-determined similarity criterion; and a copying circuit configured to copy the pre-determined part of the second image to a location in an output image based on the determined location. | 05-31-2012 |
20120133786 | IMAGE PROCESSING METHOD AND IMAGE PROCESSING DEVICE - An image processing method generates a combined image from first and second images of a plurality of images obtained through continuous shooting. The method includes: detecting a noise level in accordance with the first and second images; calculating a shift amount for making the noise level small; generating a transformed image by shifting coordinates of each pixel of the second image in accordance with the shift amount; and combining the first image and the transformed image to generate the combined image. | 05-31-2012 |
20120140086 | IMAGE PICKUP APPARATUS INCLUDING IMAGE SHAKE CORRECTION - An image pickup apparatus includes a first detection unit for detecting a rotation shake, a first computation unit for processing a detection signal of the rotation shake into a rotation shake correction target value, a second detection unit for detecting a parallel shake in a plane surface perpendicular to an optical axis, a second computation unit for process a detection signal of the parallel shake into a parallel shake correction target value, a shake correction unit for correcting an image shake in the plane surface of the image pickup apparatus based on the rotation and parallel shake correction target values, an initialization unit for initializing the parallel shake correction target value, and a control unit for moving the shake correction unit based on an image pickup start instruction prior to an image pickup operation while initializing the parallel shake correction target value. | 06-07-2012 |
20120147202 | IMAGE PICKUP APPARATUS INCLUDING IMAGE SHAKE CORRECTION - An image pickup apparatus includes a first detection unit for detecting a rotation shake, a first computation unit for processing a detection signal of the rotation shake into a rotation shake correction target value, a second detection unit for detecting a parallel shake in a plane surface perpendicular to an optical axis, a second computation unit for process a detection signal of the parallel shake into a parallel shake correction target value, a shake correction unit for correcting an image shake in the plane surface of the image pickup apparatus based on the rotation and parallel shake correction target values, an initialization unit for initializing the parallel shake correction target value, and a control unit for moving the shake correction unit based on an image pickup start instruction prior to an image pickup operation while initializing the parallel shake correction target value. | 06-14-2012 |
20120154611 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus continuously captures a plurality of unit images, extracts and sets a feature point to be compared from each unit image, detects a feature point corresponding to that of another unit image reduces an error between the unit images superposes the unit images, and calculates the feature point detection range according to a maximum number of pixels allowing shake not to be substantially perceived in the unit image. A motion detection range is set to a minimum in case of superposition of each image when hand-shake is corrected by composite synthesis, thereby reducing image processing load and increasing image processing speed. | 06-21-2012 |
20120154612 | Imaging Apparatus and Method of Setting In-Focus Condition - An imaging apparatus that determines in-focus conditions according to a user's taste by using auto-focus (AF). The imaging apparatus including an AF unit, that allows the user to input an in-focus operation start command, and that allows the user to input a main photographing start command. The imaging apparatus includes a photographing environment storing unit that stores photographing stop and start data, an assumed in-focus condition group generating unit that generates an assumed in-focus condition group based on at least the photographing stop data, an assumption confirming unit that confirms the assumed in-focus condition group, and an in-focus condition group changing unit that, if an in-focus success rate for the assumed in-focus condition group is higher than for the default in-focus condition group, changes the default in-focus condition group to the assumed in-focus condition group. | 06-21-2012 |
20120154613 | CAMERA SYSTEM AND CAMERA BODY - The camera system is constituted by the camera main body and the interchangeable lens, which is removably attachable to the camera main body. The camera main body has an imaging unit, a main body shake detector, a main body image blur corrector, and a body microcomputer configured to control the imaging unit, the shake detector, and the image blur corrector. The interchangeable lens has a shake detector, an image blur corrector, and a lens microcomputer configured to control the shake detector and the image blur corrector. The body microcomputer selects either the main body or lens shake detector, activates the selected shake detector, and stops the other shake detector. | 06-21-2012 |
20120162448 | METHOD AND SYSTEM FOR DETECTING MOTION BLUR - A system for detecting motion blur may include a process in which one or more digital images taken by a camera having a shutter are obtained, wherein the digital image depicts objects in a physical world. Further, the system may estimate the motion blur in the digital image using a ratio of one or more values obtained from the projection of a 2D spectrum of the image and a Fourier transform of a sequence of the shutter used in obtaining the image. | 06-28-2012 |
20120162449 | DIGITAL IMAGE STABILIZATION DEVICE AND METHOD - A method of Digital Image Stabilization (DIS) including a feature point sorting algorithm for selecting optimal feature points, and a computationally efficient tile-vector based Hierarchical Block-Matching search algorithm for deriving motion vectors of the selected feature points, and a feature point motion vector grouping/comparison algorithm for grouping the selected feature points based on magnitude ratio criteria and angle difference criteria. | 06-28-2012 |
20120162450 | DIGITAL IMAGE STABILIZATION DEVICE AND METHOD - A method of Digital Image Stabilization (DIS) including a feature point sorting algorithm for selecting optimal feature points, and a computationally efficient tile-vector based Hierarchical Block-Matching search algorithm for deriving motion vectors of the selected feature points, and a feature point motion vector grouping/comparison process for grouping pairs of the selected feature points based on their vector magnitude ratio and their angular difference. | 06-28-2012 |
20120162451 | DIGITAL IMAGE STABILIZATION - A Digital Image Stabilization method including selecting a principal transform representing a stationary/background object in the scene of a video frame, based on scoring each of a plurality of transforms of tile motion vector (Tile MV) groups and of feature point motion vector (FP MV) groups, and excluding large moving objects based on the history of the stationary (background) group and the history of each of the plurality motion vector groups. | 06-28-2012 |
20120162452 | DIGITAL IMAGE STABILIZATION METHOD WITH ADAPTIVE FILTERING - A Digital Image Stabilization method including selecting a Principal transform representing a stationary/background object in the scene of a video frame, based on scoring each of a plurality of transforms of tile motion vector (Tile MV) groups and of feature point motion vector (FP MV) groups, and excluding large moving objects based on the history of the stationary (background) group and the history of each of the plurality motion vector groups. | 06-28-2012 |
20120162453 | IMAGE PICKUP APPARATUS - An apparatus comprises a taking lens unit, a stop provided between a plurality of optical elements in the taking lens unit, a synchronizing signal generator to which a trigger signal input and that outputs at least a first synchronizing signal and a second synchronizing signal based on the trigger signal, an image pickup unit that performs a first image picking-up based on the first synchronizing signal and performs a second image picking-up based on the second synchronizing signal, and a lens shifting unit that shifts a specific optical element, which is at least one of the optical elements located between the stop and the image pickup unit, in such a way that the center axis of the specific optical element is shifted in a direction perpendicular to the optical axis of the stop during a period after the first image picking-up and before the second image picking-up. | 06-28-2012 |
20120169892 | IMAGE PROCESSING DEVICE AND IMAGE PROCESSING METHOD - There is provided an imaging device including a detection section which detects motion of the image processing device, a blend ratio calculation section which calculates a blend ratio of a first motion compensation image to a second motion compensation image, the first motion compensation image and the second motion compensation image being determined from a first motion vector and a second motion vector each indicating motion between frames, respectively, based on the motion of the image processing device detected by the detection section, a blend section which generates a motion compensation image by blending the first motion compensation image and the second motion compensation image in accordance with the blend ratio calculated by the blend ratio calculation section, and an addition section which adds the motion compensation image generated by the blend section to a target image. | 07-05-2012 |
20120182434 | PHOTOGRAPHING DEVICE AND PHOTOGRAPHING CONTROL METHOD - A device to take photographs and a photographing control method are provided. The device includes a processor to response to user operation to direct a distance sensor to sense a distance between the device and an object which the user intends or might want to shoot. The processor further directs a speed sensor to sense a movement speed of the device, and directs a timer to record time passing. The processor determines the photographing range of an image capturing unit according to the sensed distance and the field of view of the image capturing unit, and calculates a movement distance of the device in real time according to the sensed speed and the recorded time. The processor automatically directs the taking of a photograph when it determines that the movement distance has reached an integer multiple of the photographing range. | 07-19-2012 |
20120182435 | PHOTOGRAPHY-TASK-SPECIFIC DIGITAL CAMERA APPARATUS AND METHODS USEFUL IN CONJUNCTION THEREWITH - A multi-mode digital photography method including generating an output image of a location L at a specific time t which is identified as a function of a user-selected photography task, the method including generating an output image of a particular scene which is built up from a plurality of images thereof, as another function of a user-selected photography task. | 07-19-2012 |
20120194686 | METHODS FOR MOTION CORRECTION FOR HIGH-DYNAMIC-RANGE IMAGING SYSTEMS - Electronic devices may include image sensors and processing circuitry. Image sensors may be used to capture multiple exposure images. Processing circuitry may be used to combine multiple exposure images into high-dynamic-range images. A motion correction method is provided that detects motion between multiple exposure images without using a frame buffer. A noise model is used to separate noise from motion for more accurate motion detection. A dilation operator may be used to enlarge a motion mask generated by the motion detector. Motion-corrected images may be generated from the multiple exposure images using a soft switch based on the motion strength. Motion-corrected multiple exposure images may be combined to generate a motion-corrected HDR image. A smoothing filter may be applied to the motion region of the motion-corrected HDR image. A blooming correction may be used to eliminate color artifacts in the motion-corrected HDR image. | 08-02-2012 |
20120200721 | PORTABLE DEVICE, OPERATING METHOD, AND COMPUTER-READABLE STORAGE MEDIUM - A portable device includes an imaging unit that captures an image of an object and generates image data of the object, a display unit that displays an image of the image data, an input unit that receives input of an operation instruction on an operation performed by the portable device, a moving-state determining unit that determines a moving state of the portable device when the potable device captures an image, and a control unit that changes a content of the operation instruction received by the input unit, depending on a determination result of the moving-state determining unit. | 08-09-2012 |
20120206614 | DIGITAL CAMERA WITH INTEGRATED ACCELEROMETERS - A digital camera system has integrated accelerometers for determining static and dynamic accelerations of the digital cameral system. Data relating to static and dynamic accelerations are stored with recorded image data for further processing, such as for correcting image data for roll, pitch and vibrations and for displaying recorded images with a predetermined orientation using information about, e.g., roll. Data may also be used on-the-fly for smear suppression caused by vibrations. | 08-16-2012 |
20120218426 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD AND PROGRAM - An image processing apparatus includes an intermediate image generating unit configured to input an image which has been shot with differing exposure times set by region, generates a plurality of exposure pattern images corresponding to differing exposure times based on the input image, and generates a plurality of timing images which are difference images of the plurality of exposure pattern images; and a distortion correction processing unit configured to generate a corrected image equivalent to an exposure processing image at a predetermined exposure time by synthesizing processing of the plurality of timing images. | 08-30-2012 |
20120224073 | IMAGE-BLUR CORRECTION DEVICE, IMAGE PICKUP DEVICE, AND OPTICAL DEVICE - An image-blur correction device includes a vibration detection unit which detects vibrations of two different detection axes in a plane orthogonal to an optical axis, a correction unit which corrects vibration using a correction optical system which is displaced in directions of at least two correction axes different from the detection axes in the plane, a calculation unit that calculates amounts of displacements used to drive the correction optical system so that image-blur generated due to the vibrations is corrected based on amounts of vibrations obtained using the vibration detection unit, a coordinate conversion unit which rotates amounts of vibrations in the two detection axes relative to the corresponding at least two correction axes for conversion through calculations, and a restriction unit which restricts a driving range of the correction unit based on a displacement-amount restriction value obtained from a performance limitation region of the correction optical system. | 09-06-2012 |
20120229661 | PHOTOGRAPHY LENS, PHOTOGRAPHING APPARATUS, PHOTOGRAPHING SYSTEM, IMAGE CAPTURING APPARATUS, AND PERSONAL APPARATUS - Conventional apparatuses did not pay enough attention to assisting operations when the user is in a state differing from the normal, state. Therefore, provided is a photography lens that comprises a first biometric detection apparatus that is capable of detecting change in biometric information of a photographer, or a photographing apparatus that captures an image and comprises a holding section, an operating section for performing an image capturing operation, and a second biometric detection apparatus that is capable of detecting change in biometric information of a photographer and that is disposed in at least one of the holding section and the operating section. | 09-13-2012 |
20120236168 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - To provide an image including no blur from a plurality of images acquired by a camera array image capturing device. An image processing device of the present invention is characterized by including an image acquisition unit configured to acquire a plurality of images captured by a camera array image capturing device having a plurality of image capturing units the exposure conditions of which are different from one another, an overlap region calculation unit configured to calculate an overlap region in which field angles overlap in the plurality of image capturing units from the acquired plurality of images, and a blurred image detection unit configured to detect an image including a blur using a region image of the plurality of images corresponding to the overlap region calculated by the overlap region calculation unit. | 09-20-2012 |
20120236169 | APPARATUS AND METHOD FOR OBTAINING MOTION ADAPTIVE HIGH DYNAMIC RANGE IMAGE - Disclosed is an apparatus and method for obtaining a motion adaptive high dynamic range image, in which a motion degree of a first image and a second taken using different exposure times is calculated. The motion calculation intensity is adjusted based on the calculated motion degree. The motion compensation intensity involves a global motion compensation and/or a location motion compensation. Images subjected to compensation are synthesized and output, so that an image having high dynamic range is obtained. | 09-20-2012 |
20120249813 | IMAGING APPARATUS AND METHOD FOR CONTROLLING SAME - A direction instructing operation unit instructs a control unit to change a direction of a change in the photographic screen range. First motor drives a compensation optical system and second motor drives a compensation optical system in accordance with the control command given by the control unit. When the direction along which framing adjustment has been instructed by the direction instructing operation unit matches neither the drive direction of the first motor nor the drive direction of the second motor for driving the compensation optical system, the control unit matches a drive start time and a drive end time of both the first motor and the second motor, and then controls the ratio of the speed of the second drive unit to the speed of the first drive unit at a constant level to thereby control the moving direction of the photographic screen range. | 10-04-2012 |
20120257069 | Imaging - A method, apparatus and computer program is provided. The apparatus includes at least one processor; and at least one memory storing a computer program including computer program instructions that, when executed by the at least one processor, cause at least the following to be performed: determining at least one area of interest in a scene imaged by an image sensor; initiating capture of a image, including the at least one area of interest, by causing the image sensor to be exposed to light conveyed by an optical arrangement; detecting movement of the apparatus during capture of the image; and controlling movement of at least one of: the image sensor and the optical arrangement, in dependence upon the detected movement of the apparatus and the at least one area of interest, in order to mitigate the perspective error, at the at least one area of interest, in the image being captured. | 10-11-2012 |
20120262587 | Image Capturing System for Capturing and Transmitting Digital Video Images, Image Data Processing System for Receiving and Processing Digital Image Data, Image Stabilizing System, and Method for Generating Digital Video Images with Little Blurring - An image capturing system for capturing and transmitting digital video images comprises an image sensor for acquiring digital image data at a particular time, a position control configured to control a position of at least one of the image sensor and the image capturing system based on a mechatronic model, at least one motion sensor configured to acquire position changes of the at least one of the image sensor and the image capturing system, and an output interface via which the acquired image data and associated metadata can be transmitted to an image data processing system, the metadata comprising the following data: up-to-date control data for position control at the particular time of the image data acquisition, an up-to-date parameter set of the mechatronic model at the particular time of the image data acquisition, and accumulated output data of the at least one motion sensor between the particular time of the image data acquisition and a time of a previous image data acquisition. | 10-18-2012 |
20120262588 | IMAGE BLUR CORRECTION UNIT, LENS BARREL DEVICE, AND CAMERA APPARATUS - An image blur correcting unit allows the optical axis of a lens system to coincide with the center of an imager, thus correcting an image blur. The unit includes a stationary member and a holder member. The holder member holds either one of the elements of the lens system or the imager and moves relative to the stationary member in a first direction and a second direction, the first and second directions being orthogonal to each other in a plane orthogonal to the optical axis. The unit further includes a first guide section and a second guide section for guiding the holder member in the first and second directions during movement, and a driving section moving the holder member in the first and second directions. The one of the elements of the lens system or the imager is disposed outside an area surrounded by the first and second guide sections. | 10-18-2012 |
20120262589 | IMAGE PROCESSING APPARATUS AND METHOD THEREOF - Upon correcting blur of image capture data of an image capturing device by coded exposure processing, an exposure time and aperture value, which are set by a photometry unit of the image capturing device according to an object, are input, and the exposure time or aperture value is adjusted based on a ratio of shutter open periods in an opening and closing pattern of a shutter used in the coded exposure processing. Then, a gain adjustment value of the image capture data corresponding to a deficiency of an exposure amount by the adjusted exposure time or aperture value is set, image capture by an image capturing unit of the image capturing device is controlled based on the opening and closing pattern, exposure time, and aperture value. | 10-18-2012 |
20120287294 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - There is provided an image processing apparatus including an HDR (High Dynamic Range) processing unit inputting images picked up while exposure control that changes an exposure time is being carried out with a predetermined spatial period and a predetermined temporal period on pixels that compose an image sensor, and carrying out image processing. The HDR processing unit generates a first combined image by combining pixel values of a plurality of images with different sensitivities generated by an interpolation process using a plurality of consecutively picked-up images, generates a second combined image by combining pixel values of a plurality of images with different sensitivities generated by an interpolation process that uses a single picked-up image, and generates an HDR image by executing a pixel value blending process on the first combined image and the second combined image in accordance with a blending ratio calculated in accordance with movement detection information. | 11-15-2012 |
20120293670 | Fast measurement of alignment data of a camera system - Methods are disclosed for digital cameras to gain tilt information of an image sensor of the camera in order to achieve a fast correction for this tilt. By moving the lens of the camera to positions providing a maximum sharpness of at least three regions of interest (ROI) in the image sensor the tilt of the image sensor is calculated by using the correspondent lens/sensor distances and the distances of the different ROIs to the center of the image sensor. Yaw and pitch values of the tilt of the image sensor are calculated to enable an alignment of the sensor. | 11-22-2012 |
20120307085 | METHODS AND SYSTEMS FOR IMAGE STABILIZATION - Several methods, devices and systems for stabilizing images and correcting rolling shutter effects are described. In one embodiment, a computer implemented method for image stabilization for an image-capturing device with associated calibration data includes determining motion data for the image-capturing device using a motion-estimating device. The method also includes matching motion data to a sequence of frames captured by the image-capturing device to determine motion data for each frame, constructing a target motion path of the image-capturing device based on the motion data for each frame, and computing a desired motion correction from a motion path observed in the motion data to the target motion path. | 12-06-2012 |
20120307086 | Video Stabilization - Method, device and computer program product for stabilizing a video signal. A plurality of frames of the video signal are captured using a camera. A motion sensor associated with the camera is used to generate a plurality of samples representing motion of the camera. The samples are used to determine a displacement of the camera between a first time and a second time, wherein the first time corresponds to an exposure time midpoint of a first frame of the video signal and the second time corresponds to an exposure time midpoint of a second frame of the video signal. The determined displacement is used to compensate for motion in the video signal between the first and second frames caused by the motion of the camera, to thereby stabilize the video signal. | 12-06-2012 |
20120327254 | IMAGE STABILIZATION SYSTEM - An image stabilization system includes: a region vector detection unit configured to detect a motion vector of each of a plurality of regions in an image; a reliability determination unit configured to determine reliability of the motion vector of each of the regions; a region indicator configured to indicate, to the region vector detection unit, a new detection target region instead of a region whose motion vector is determined to have low reliability; an image vector computing unit configured to compute a motion vector of the entire image using a motion vector determined to have high reliability; and a stabilization unit configured to move an entire image to be output according to the motion vector of the entire image to compensate for sway of the image. | 12-27-2012 |
20130010139 | IMAGE CAPTURING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus includes a geometric converter configured to perform a geometric conversion process to a first frame image among frame images that are sequentially generated through imaging, based on motion information obtained by using a motion detector sensor, a motion vector detector configured to detect a motion vector between a geometric conversion image obtained through the geometric conversion process and a second frame image that has not undergone the geometric conversion process, an image stabilization parameter calculator configured to calculate an image stabilization parameter for different motions by using the motion information and the motion vector, and a stabilized image generator configured to generate a stabilized image through a deformation process to the second frame image or a frame image generated subsequent to the second frame image by utilizing the image stabilization parameter. | 01-10-2013 |
20130010140 | PORTABLE HAND-HELD DEVICE FOR DEBLURRING SENSED IMAGES - A portable hand-held device is provided having an image sensor for sensing an image of a scene, a motion sensor for detecting motion of the device relative to the scene, and a processor for receiving image manipulation instructions via encoded media. The processor processes the sensed image to remove blur therein based on the detected relative device motion and the received image manipulation instructions. | 01-10-2013 |
20130010141 | HANDHELD DIGITAL CAMERA DEVICE WITH MOTION SENSING AND DECODING CAPABILITIES - A handheld digital camera device including: an image sensor for capturing images and generating image data; a two-dimensional motion sensor for generating motion data; and an integral processor configured for: controlling operation of the image sensor; estimating an angular velocity of the camera device relative to an external environment using the motion data; decoding an imaged coding pattern printed on a substrate; and performing an action in the handheld electronic device based on the decoded coding pattern. | 01-10-2013 |
20130016239 | METHOD AND APPARATUS FOR REMOVING NON-UNIFORM MOTION BLUR USING MULTI-FRAMEAANM CHO; Jung UkAACI Hwaseong-siAACO KRAAGP CHO; Jung Uk Hwaseong-si KRAANM LEE; Seung YongAACI Pohang-siAACO KRAAGP LEE; Seung Yong Pohang-si KRAANM CHO; Sung HyunAACI Pohang-siAACO KRAAGP CHO; Sung Hyun Pohang-si KRAANM LEE; Shi HwaAACI SeoulAACO KRAAGP LEE; Shi Hwa Seoul KRAANM MOON; Young SuAACI SeoulAACO KRAAGP MOON; Young Su Seoul KRAANM CHO; Ho JinAACI Pohang-siAACO KRAAGP CHO; Ho Jin Pohang-si KR - A method and apparatus for removing a non-uniform motion blur using a multi-frame may estimate non-uniform motion blur information using a multi-frame including a non-uniform motion blur, and may remove the non-uniform motion blur using the estimated non-uniform motion blur and the multi-frame. The apparatus may also obtain more accurate non-uniform motion blur information by iteratively performing the estimation of the non-uniform motion blur information, and the removal of the non-uniform motion blur. | 01-17-2013 |
20130016240 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND STORAGE MEDIUMAANM Sasaki; MasaakiAACI TokyoAACO JPAAGP Sasaki; Masaaki Tokyo JPAANM Nara; KazuyaAACI TokyoAACO JPAAGP Nara; Kazuya Tokyo JP - An image processing apparatus includes an at-rest-state determination unit that determines whether the image processing apparatus is at rest or not based on motion vectors of image data, and an image change detecting unit that detects the change in image data sequentially inputted. Then, in a state in which it is determined by a determination unit that an image processing apparatus is at rest, an image change detecting unit detects a change in image data, and in a case in which the image data has changed, records the data of the captured image. | 01-17-2013 |
20130016241 | PORTABLE HAND-HELD DEVICE FOR MANIPULATING IMAGES - A portable hand-held apparatus is provided having a memory for storing images, a motion sensor for detecting motion of the device, and a processor for receiving image manipulation instructions via encoded media. The processor processes the stored images based on the detected device motion and the received image manipulation instructions to produce output images. | 01-17-2013 |
20130021483 | USING MOTION INFORMATION TO ASSIST IN IMAGE PROCESSING - Embodiments of the present application use motion information of an imaging device in encoding video or image frames captured by the imaging device. In one embodiment, a video encoding system that processes image data captured by an image sensor comprises at least one encoder that receives motion information describing motion of the imaging sensor during capturing of the image data and that encodes the image data with assistance of the motion information. | 01-24-2013 |
20130021484 | DYNAMIC COMPUTATION OF LENS SHADING - Embodiments of the present disclosure utilize captured image information to dynamically determine a lens shading surface being experienced by an imaging device or camera under current conditions. The lens shading surface is then used to apply a correction to the pixels of captured images to compensate for effects of lens shading. | 01-24-2013 |
20130057714 | IMAGE PICKUP DEVICE, IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - This image capture device includes an image capturing section | 03-07-2013 |
20130063614 | IMAGE CAPTURING APPARATUS, IMAGE PROCESSING METHOD AND PROGRAM - This invention provides an image free from camera shake by using a plurality of images captured by a camera array image capturing apparatus. A determination unit determines whether to execute a camera shake correction processing. A memory unit temporarily stores only a group of images determined by a determination unit to be camera shake corrected. A camera shake correcting unit synthesizes images to correct blurs in the images. A matching point searching unit determines matching pixels by checking pixel value similarity between images. A moving amount calculating unit, based on the result acquired by the matching point searching unit, calculates a moving amount of each pixel between images. A position correcting unit, based on the moving amount of each pixel calculated by the moving amount calculating unit, corrects the positions of the images. An image synthesizing unit synthesizes a group of images that are position-corrected by the position correcting unit. | 03-14-2013 |
20130076920 | VIDEO DE-SHAKE APPARATUS AND METHOD - A system and method for applying video de-shake to video content includes a classification engine configured to generate a classification of the video content based on at least one source characteristic. The system also includes a de-shake engine configured to selectively apply camera shake compensation to the video content based on the classification. The classification engine may be configured to generate a classification based on, for example, the presence of closed caption data, the presence of copy protection data, current frame rate associated with the video content, or a native frame rate associated with the video content. | 03-28-2013 |
20130076921 | Video Stabilization - Method, device and computer program product for transmitting a video signal from a user device includes capturing a plurality of frames of the video signal using a camera at the user device, determining a functional state of the device and selectively stabilizing the video signal prior to transmission based on the functional state. | 03-28-2013 |
20130076922 | CORRECTING OPTICAL DEVICE AND IMAGE PICKUP APPARATUS - A correcting optical device according to an aspect of the present invention in which, when image shake is not corrected, a restricting member is caused to engage an engaging portion, to restrict translational movement of a movable member, and in which, when the image shake is corrected, the restricting member is caused to disengage the engaging portion, to cause the movable member to be in a state capable of the translational movement, the restricting member being provided at the rotary member, the engaging portion being provided at the movable member. A driving unit drives the movable member in a direction in which the movable member moves translationally with respect to a fixed member in a plane perpendicular to an optical axis of a correcting lens, so that the correcting lens corrects the image shake, and drives the rotary member in a direction in which the rotary member rotates around the optical axis. | 03-28-2013 |
20130093905 | IMAGE BLUR CORRECTION APPARATUS AND OPTICAL APPARATUS - An image blur correction apparatus includes an shooting state detecting portion that determines a shooting state of a first shooting state or a second shooting state based on an angular velocity signal, and a controller that performs an image blur correction using characteristics depending on a determination result of the shooting state determining portion, and the shooting state determining portion determines that the first shooting state has started when the angular velocity signal exceeds a first threshold value and exceeds a second threshold value having an opposite sign of the first threshold value within a predetermined time after exceeding the first threshold value, and determines that the first shooting state is continuously maintained when the angular velocity signal exceeds a third threshold value and exceeds a fourth threshold value that has an opposite sign of the third threshold value within the predetermined time after exceeding the third threshold value. | 04-18-2013 |
20130100304 | Optical Unit with Shake Correcting Function - An optical unit may include a fixed body; a movable module which holds an optical element; a swing support point which swingably supports the movable module; a shake correction drive mechanism which swings the movable module with the swing support point as a swing center around two axial lines intersecting an optical axis direction of the optical element between an outer peripheral face of the movable module and the fixed body; a first photo reflector provided between a bottom part of the movable module and the fixed body at a position superposing on one of the two axial lines and that detects displacement of the movable module; and a second photo reflector provided between the bottom part of the movable module and the fixed body at a position superposing on the other of the two axial lines and that detects displacement of the movable module. | 04-25-2013 |
20130107065 | INERTIAL SENSOR AIDED STATIONARY OBJECT DETECTION IN VIDEOS | 05-02-2013 |
20130107066 | SENSOR AIDED VIDEO STABILIZATION | 05-02-2013 |
20130113950 | APPARATUS AND METHOD FOR GENERATING MOTION BLUR IN MOBILE TERMINAL - An apparatus and a method for generating a motion blur in a mobile terminal are provided. It is determined whether motion halting occurs during video shooting. If the motion halting occurs, a motion vector of each block between first and second consecutive images where the motion halting has occurred is estimated. A motion blur is generated on the second image using the motion vector of each block, and the motion-blurred image is displayed on a display unit. | 05-09-2013 |
20130120600 | Methods and Apparatus for Subspace Video Stabilization - Methods, apparatus, and computer-readable storage media for subspace video stabilization. A subspace video stabilization technique may provide a robust and efficient approach to video stabilization that achieves high-quality camera motion for a wide range of videos. The technique may transform a set of input two-dimensional (2D) motion trajectories so that they are both smooth and resemble visually plausible views of the imaged scene; this may be achieved by enforcing subspace constraints on feature trajectories while smoothing them. The technique may assemble tracked features in the video into a trajectory matrix, factor the trajectory matrix into two low-rank matrices, and perform filtering or curve fitting in a low-dimensional linear space. The technique may employ a moving factorization technique that is both efficient and streamable. | 05-16-2013 |
20130128061 | IMAGE PROCESSING APPARATUS AND PROCESSING METHOD THEREOF - An image processing apparatus and a processing method thereof are provided. The image processing apparatus includes an image capturing module, an image separation module, an image stabilization module, a temporal noise reduction module, and a spatial noise reduction module. The image capturing module captures a plurality of Bayer pattern images. The image separation module decreases the Bayer pattern images in size and transforms them into a plurality of YCbCr format images. The image stabilization module receives Y channel images of the YCbCr format images and the Bayer pattern images to perform motion estimation, to produce a plurality of global motion vectors (GMVs). The temporal noise reduction module performs temporal blending process on the Bayer pattern images according to the GMVs, to produce first noise reduction images. The spatial noise reduction module performs 2-dimensional spatial noise reduction on the first noise reduction images to produce second noise reduction images. | 05-23-2013 |
20130128062 | Methods and Apparatus for Robust Video Stabilization - Methods and apparatus for robust video stabilization. A video stabilization technique applies a feature tracking technique to an input video sequence to generate feature trajectories. The technique applies a video partitioning technique to segment the input video sequence into factorization windows and transition windows. The technique smoothes the trajectories in each of the windows, in sequence. For factorization windows, a subspace-based optimization technique may be used. For transition windows, a direct track optimization technique that uses a similarity motion model may be used. The technique then determines and applies warping models to the frames in the video sequence. In at least some embodiments, the warping models may include a content-preserving warping model, a homography model, a similarity transform model, and a whole-frame translation model. The warped frames may then be cropped according to a cropping technique. | 05-23-2013 |
20130128063 | Methods and Apparatus for Robust Video Stabilization - Methods and apparatus for robust video stabilization. A video stabilization technique applies a feature tracking technique to an input video sequence to generate feature trajectories. The technique applies a video partitioning technique to segment the input video sequence into factorization windows and transition windows. The technique smoothes the trajectories in each of the windows, in sequence. For factorization windows, a subspace-based optimization technique may be used. For transition windows, a direct track optimization technique that uses a similarity motion model may be used. The technique then determines and applies warping models to the frames in the video sequence. In at least some embodiments, the warping models may include a content-preserving warping model, a homography model, a similarity transform model, and a whole-frame translation model. The warped frames may then be cropped according to a cropping technique. | 05-23-2013 |
20130128064 | Methods and Apparatus for Robust Video Stabilization - Methods and apparatus for robust video stabilization. A video stabilization technique applies a feature tracking technique to an input video sequence to generate feature trajectories. The technique applies a video partitioning technique to segment the input video sequence into factorization windows and transition windows. The technique smoothes the trajectories in each of the windows, in sequence. For factorization windows, a subspace-based optimization technique may be used. For transition windows, a direct track optimization technique that uses a similarity motion model may be used. The technique then determines and applies warping models to the frames in the video sequence. In at least some embodiments, the warping models may include a content-preserving warping model, a homography model, a similarity transform model, and a whole-frame translation model. The warped frames may then be cropped according to a cropping technique. | 05-23-2013 |
20130135487 | IMAGING APPARATUS - An imaging apparatus includes an image sensor that exposes a subject image by reading lines sequentially to generate an image; a detector that detects an angular velocity of a shake of the imaging apparatus; a controller that: (i) determines the detected angular velocity as an angular velocity for correction when the detected angular velocity is equal to or less than a predetermined angular velocity and, determines the predetermined angular velocity as the angular velocity for correction when the detected angular velocity is larger than the predetermined angular velocity; and (ii) corrects to reduce an influence of a shake to the image generated by the image sensor by image processing based on the determined angular velocity for correction. | 05-30-2013 |
20130162849 | AUTO-FOCUSING CAMERA MODULE AND IMAGING METHOD USING SAME - An auto-focusing camera module includes a lens module, an image sensor, a color separation unit, a main processor unit, an image processing unit and an OIS unit. The lens module captures an image of object. The image sensor senses the image captured by the lens module. The color separation unit separates the image into red, green and blue colors. The main processor unit calculates MTF values of the image and determines a shooting mode of the auto-focusing camera. The image processing unit processes the image according to the MTF values to compensate for blurring of the image caused by being out of focus. The driving unit drives the lens module to focus the image on the image sensor according to MTF values. The OIS unit detects shaking before shooting and drives the lens module to compensate for the detected shaking. | 06-27-2013 |
20130162850 | IMAGE CAPTURE APPARATUS AND CONTROL METHOD FOR SAME - The present disclosure relates to an image capture apparatus and a control method for the same, with which a moving picture captured for a specific length of time before or after the capture of a still picture can be recorded during still picture capture. The image capture apparatus has a first image stabilization mode and a second image stabilization mode in which a shake component not corrected in the first image stabilization mode can be corrected, and has an image stabilization function that performs image stabilization on the basis of shake of the image capture apparatus. The image stabilization function performs image stabilization without using the second image stabilization mode when the moving picture is buffered, which allows stable image stabilization to be utilized during the capture of a recorded moving picture. | 06-27-2013 |
20130176447 | IMAGE PROCESSING APPARATUS, IMAGE CAPTURING APPARATUS, AND PROGRAM - An exemplary image processing apparatus generates an interpolation frame to be inserted between a first frame and a second frame, contiguous with each other, of a moving picture obtained by an image capturing apparatus. The image processing apparatus includes: a motion vector calculation section configured to calculate a motion vector of an object by performing a block matching operation between the first and second frames; and an interpolation frame generation section configured to generate the interpolation frame through a process performed based on a magnitude of motion of the image capturing apparatus from a point in time when the first frame is obtained to a point in time when the second frame is obtained. | 07-11-2013 |
20130222622 | IMAGE CAPTURING APPARATUS - An image capturing apparatus having a camera shake correction function, includes an optical system, a movable member that is movable on a plane perpendicular to an optical axis of the optical system to achieve the camera shake correction function, an angular velocity detector configured to detect an angular velocity of shake of the image capturing apparatus and generate a detection signal, and a controller configured to drive the movable member based on the output from the angular velocity detector. The controller includes a time change rate limiter configured to limit a time rate of change of angular velocity indicated by the detection signal output from the angular velocity detector to be no greater than a predetermined limiting value, and drive the movable member based on the detection signal output through the time change rate limiter. | 08-29-2013 |
20130222623 | CAMERA IMAGE STABILIZATION - A method of motion compensation in a camera may include deriving a motion signal representative of a motion of the camera, processing video frames of a video signal from an image sensor of the camera during a viewfinder mode to derive motion vectors between pairs of frames, and processing the motion signal with a number of combinations of gain and offset factors during the viewfinder mode. The method may also include determining combinations for producing threshold motion vectors, and applying the combination producing the threshold motion vectors for processing the motion signal during a still capture mode to produce a control signal for a motion compensating element for optics of the camera. | 08-29-2013 |
20130222624 | RANGE MEASUREMENT USING MULTIPLE CODED APERTURES - A method of using an image capture device to identify range information for objects in a scene includes providing an image capture device having an image sensor, at least two coded apertures, and a lens; storing in a memory a set of blur parameters derived from range calibration data for each coded aperture; capturing images of the scene having a plurality of objects using each of the coded apertures; providing a set of deblurred images using the captured images from each coded aperture and each of the blur parameters from the stored set; and using the set of deblurred images to determine the range information for the objects in the scene. | 08-29-2013 |
20130242120 | MOTION-STATE CLASSIFICATION FOR CAMERA APPLICATIONS - A mobile device uses data from one or more sensors to determine a user context, such as a motion state of the user, and adjusts at least one camera feature selected form a group consisting of continuous auto-focus, auto-white balance, video encode quality, frame rate, search range used for focusing, and exposure mode based on the user context. The user context may include, e.g., at least one of panning, walking, standing, sitting, and traveling in a moving vehicle. | 09-19-2013 |
20130242121 | IMAGE COMPOSING APPARATUS FOR CONTINUOUSLY SHOOTING PLURAL IMAGES AND COMBINING THE PLURAL IMAGES - An image obtaining unit continuously obtains plural images each showing a moving subject and motionless subject. Dark current noise is removed from the plural images. Image portions of the moving subject are extracted from the plural images with noise removed, which image portions occupy different positions in the plural images, respectively. Image portions of the motionless subject are extracted from the plural images with noised removed, which image portions occupy the fixed positions in the plural images, respectively. The extracted image portions of the moving subject are moved in the plural images with noise removed based on the corresponding positions in the respective images. The moved image portions of the moving subject are combined with the mage portions of the motionless subject held at the fixed positions in the plural images with noise removed, whereby a shooting image is composed. | 09-19-2013 |
20130258122 | METHOD AND DEVICE FOR MOTION ENHANCED IMAGE CAPTURE - The present disclosure provides motion enhanced image capture methods and devices. Sensed motion is used to adjust for non-motion related imaging problems, such as low light conditions and imaging stitching image alignment, to improve image capture and post-capture image processing. | 10-03-2013 |
20130271615 | METHOD OF REMOVING AN ARTEFACT FROM AN IMAGE - A method of removing an artefact from an image captured with a motion invariant camera is disclosed. The captured image is de-blurred using a spatially invariant blur kernel. An edge filter with a fixed offset is applied to the de-blurred image to identify the location of at least one artefact. A parameter is estimated based on a region either side of the identified location. The at least one artefact is removed from the de-blurred image using the parameter. | 10-17-2013 |
20130300883 | Vision System and Method for Motion Adaptive Integration of Image Frames - A night vision device and method for filtering a series of image frames that depict a moving subject, which thereby improves the signal-to-noise ratio of each image frame, is provided. A composite image is formed for each image frame by combining pixel values in a current image frame with pixel values in composite images corresponding to image frames acquired before the current image frame. Additionally, pixels values in image frames acquired subsequent to the acquisition of the current image frame are included when forming the composite image. A bi-directional recursive filter is used to weight the contributions from the previous composite images and subsequent image frames with a decay constant. Motion of the imaging system is optionally compensated for by establishing a moving reference frame and shifting the image frames to account for this motion; thus, registering the image frames before filtering the current image frame. | 11-14-2013 |
20130321654 | IMAGING APPARATUS - An imaging apparatus includes an imaging unit that includes a shooting lens for collecting an image of a subject to be shot; and an imaging element that forms the image collected by the shooting lens and generates image data through photoelectric conversion of formed image. The imaging apparatus also includes an inclination detector that detects an inclination of the imaging apparatus from a predetermined position, through a rotation around a shooting optical axis of the shooting lens. The apparatus also includes a control unit that changes an operating mode to a switchable state capable of switching between operating modes when a predetermined time has elapsed in a state in which the inclination detected by the inclination detector falls within a predetermined range in which the operating modes of the imaging apparatus are switched to each other. | 12-05-2013 |
20140015988 | IMAGING DEVICE - An imaging device including: a first substrate having a first communication device; a second substrate having a solid-state imaging device and second communication device to exchange signals with the first substrate; a shake correction section adapted to detect the shake of an enclosure and correct the shake based on the detection result by moving the first substrate in the plane vertical to the optical path; and a millimeter wave signal transmission line that permits transmission of information in the millimeter wave band between the first and second communication devices, wherein a signal to be transmitted between the first and second communication devices is converted into a millimeter wave signal first before being transmitted via the millimeter wave signal transmission line. | 01-16-2014 |
20140022403 | Method of Notifying Users Regarding Motion Artifacts Based on Image Analysis - A digital image acquisition system having no photographic film comprises a portable apparatus for capturing digital images and a digital processing component for reducing camera motion blur in an image captured by the apparatus. The digital processing component operates by comparing the image with at least one other image, for example a preview image, of approximately the same scene taken outside the exposure period of the main image. In one embodiment the digital processing component identifies at least one feature which is relatively less blurred than the corresponding feature in the main image and/or calculates a trajectory of at least one feature in a plurality of preview images and extrapolates such feature onto the main image, and calculates a PSF in respect of the feature, and de-convolves the main image using the PSF. | 01-23-2014 |
20140028861 | OBJECT DETECTION AND TRACKING - Imaging systems and methods improve object recognition by more strongly enhancing contrast between the object and non-object (e.g., background) surfaces than would be possible with a simple optical filter tuned to the wavelength(s) of the source light(s). In some embodiments, the overall scene illuminated by ambient light is preserved (or may be reconstructed) for presentation purposes—e.g., combined with a graphical overlay of the sensed object(s) in motion. | 01-30-2014 |
20140049657 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND STORAGE DEVICE STORING IMAGE PROCESSING PROGRAM - An image processing apparatus obtains a motion vector between at least three images including first, second, and third images obtained through continuous shooting under different exposure conditions and computes a first motion vector between the first and second images and a second motion vector between the first and third images in a plurality of positions on the first image. A reliability level of the motion vector is determined, and an estimated motion vector between the first and second images is computed for the first motion vector having low reliability based on the second motion vector computed in the corresponding position and the shooting interval between the images. In a case where the second motion vector computed in a position corresponding to that of the first motion vector having low reliability has high reliability, the first motion vector having low reliability is substituted with the estimated motion vector. | 02-20-2014 |
20140063275 | VISUAL SALIENCY ESTIMATION FOR IMAGES AND VIDEO - Methods and apparatus for visual saliency estimation for images and video are described. In an embodiment, a process includes decomposing, by a processor, an image into elements, wherein each element includes at least one pixel. The processor then calculates a first image measure indicative of each element's uniqueness in the image on a per element basis, and a second image measure indicative of each element's spatial distribution in the image on a per element basis. A per element saliency measure is provided by combining the first image measure and the second image measure, or by utilizing the first image measure, or by utilizing the second image measure. | 03-06-2014 |
20140078324 | IMAGE DISTORTION CORRECTION IN SCALING CIRCUIT - Techniques relating to correction of image distortion caused by movement of a camera unit during image capture. In one embodiment, an apparatus may include a camera unit and a scaling circuit. The apparatus may be configured to calculate a shift value for a line of an image captured by the camera unit, where the shift value is indicative of an amount of movement of the camera unit during at least a portion of capture of the image. The scaling circuit may be configured to operate on the line starting at a line position that is based on the calculated shift value. The calculated shift value may be based on movement information generated by a motion sensor. The scaling circuit may include a digital differential analyzer and one or more multi-tap polyphase filters. The line position may be specified as a fractional pixel value. | 03-20-2014 |
20140078325 | IMAGE CAPTURING APPARATUS AND CONTROL METHOD THEREFOR - An image capturing apparatus capable of operating an imaging unit in a plurality of shooting modes is provided. In response to designation of one or more keywords related to a shooting scene by a user, one or more of the plurality of shooting modes, which correspond to the one or more keywords, are selected. In shooting, a shooting scene is determined based on an image signal generated by the imaging unit. Shooting parameters are generated based on the one or more selected shooting modes and the determined shooting scene. The operation of the imaging unit is controlled using the generated shooting parameters. | 03-20-2014 |
20140118567 | METHOD OF AND SYSTEM FOR DETECTING MOTION IN REAL TIME - A method and a system for detecting a motion in real time. The system includes: a parallel image generator which generates, in parallel, multi-resolution images, the generated multi-resolution images having at least one or more resolution levels; a characteristic dot extractor which extracts a characteristic dot from at least one of the generated multi-resolution images; and a motion vector detector which detects a motion vector from a low-resolution image based on the extracted characteristic dot and extends the detected motion vector of the low-resolution image to a motion vector of high-resolution. | 05-01-2014 |
20140176740 | DIGITAL IMAGE PROCESSING APPARATUS AND METHOD OF ESTIMATING GLOBAL MOTION OF IMAGE - Provided are a digital image processing apparatus which corrects a position of each of a plurality of template motion vectors of an image frame of a captured image by considering relative positions of neighboring motion vectors respectively similar to each of the template motion vectors, calculates a score of each of the template motion vectors by considering a number of the neighboring motion vectors, and selects a global motion vector representing the image frame based on the score, and a method of estimating a global motion of an image to stabilize the captured image using the global motion. | 06-26-2014 |
20140211028 | Video Stabilization - Method, device and computer program product for stabilizing a video signal. A plurality of frames of the video signal are captured using a camera. A motion sensor associated with the camera is used to generate a plurality of samples representing motion of the camera. The samples are used to determine a displacement of the camera between a first time and a second time, wherein the first time corresponds to an exposure time midpoint of a first frame of the video signal and the second time corresponds to an exposure time midpoint of a second frame of the video signal. The determined displacement is used to compensate for motion in the video signal between the first and second frames caused by the motion of the camera, to thereby stabilize the video signal. | 07-31-2014 |
20140247370 | METHOD AND APPARATUS FOR VIDEO STABILIZATION BY COMPENSATING FOR VIEW DIRECTION OF CAMERA - A video stabilization method includes: measuring an inter-frame camera motion based on a difference angle of a relative camera view direction in comparison with a reference camera view direction in each frame of a frame sequence of a video; generating a camera motion path of the frame sequence by using the inter-frame camera motion and determining a camera view direction adjustment angle based on a user's view direction by using the camera motion path; and compensating for the camera view direction by using the camera view direction adjustment angle in each frame. | 09-04-2014 |
20140293073 | IMAGE-SHAKE CORRECTION APPARATUS AND IMAGING APPARATUS INCORPORATING THE SAME - The image-shake correction apparatus 1 of the invention comprises a base part 10 including a permanent magnet 20 and a moving part 30 having a coil 40 located in a position opposite to the permanent magnet 20, wherein the permanent magnet 20 and coil 40 form together a voice coil motor 70, and the permanent magnet 20 includes cutouts 101, 102 and 103. | 10-02-2014 |
20140307111 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus performs distortion aberration correction appropriate for each of the cases where the image processing apparatus clips image data by performing electronic image stabilization and does not clip the image data by performing the electronic image stabilization. The image processing apparatus includes a correction unit configured to perform the distortion aberration correction on image data in which distortion aberration has, and a stabilization unit configured to perform clipping from the image data based on a movement of an imaging unit when the image data has been generated. The correction unit reduces an amount of the distortion aberration correction in a case where the stabilization unit does not clip the image data, as compared to a case where the stabilization unit clips the image data. | 10-16-2014 |
20140327788 | METHODS AND SYSTEMS FOR PROCESSING A VIDEO FOR STABILIZATION USING DYNAMIC CROP - Methods and systems for processing a video for stabilization are described. A recorded video may be stabilized by removing at least a portion of shake introduced in the video. An original camera path for a camera used to record the video may be determined. A crop window size may be selected, a crop window transform may accordingly be determined, and the crop window transform may be applied to the original video to provide a modified video from a viewpoint of the modified motion camera path. | 11-06-2014 |
20140354834 | OPTICAL DEVICE, CONTROL METHOD THEREFOR, AND STORAGE MEDIUM STORING CONTROL PROGRAM THEREFOR - An optical device that is capable of reducing eccentric aberration while reducing image blur. A first shake correction unit corrects image blur optically based on a shake amount that is detected by a shake detection unit. A second shake correction unit corrects image blur optically based on a shake amount that is detected by the shake detection unit. The second shake correction unit has a different image blur correction effect from the first shake correction unit. The optical device has a mode in which shake correction is performed using the first shake correction unit without using the second shake correction unit. | 12-04-2014 |
20140362241 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP METHOD - An image pickup apparatus including: an image pickup section acquiring a bright-time image and acquiring a dark-time image with a same exposure time period as the bright-time image; a shake detection section detecting a shake; an image cut-out section cutting out a cut-out bright-time image for which the shake is corrected, from the bright-time image, on the basis of the shake detected by the shake detection section and cutting out a cut-out dark-time image at a same cut-out position as the cut-out bright-time image, from the dark-time image; and an image processing section generating a corrected image for which dark current is corrected, by subtracting the cut-out dark-time image from the cut-out bright-time image. | 12-11-2014 |
20150015728 | FOCUS ADJUSTING APPARATUS - A focus adjusting process and apparatus are described which can optimize a balance between AF performance and appearance of moving image, regardless of a position or size of an enlarged area to be recorded in a moving image. | 01-15-2015 |
20150029349 | DIGITAL IMAGE PROCESSING - A method of enhancing pictures recorded by a digital imaging device, including, activating the imaging device to record a burst of multiple consecutive digital pictures, recording the pictures of the burst, selecting one of the digital pictures of the burst to serve as a base picture, estimating alignment of each picture to compensate for motion relative to the base picture, enhancing the base picture by combining with details from the other recorded pictures of the burst while compensating for the motion, providing the enhanced picture as output. | 01-29-2015 |
20150042828 | IMAGE SHAKE CORRECTING APPARATUS AND ITS CONTROL METHOD, LENS BARREL, OPTICAL EQUIPMENT, AND IMAGING APPARATUS - An imaging apparatus is provided with an angular velocity meter for detecting angular shake and an acceleration meter for detecting translational shake. A CPU calculates an image shake correction amount based on a shake detection signal. A shake correction unit corrects image shake by driving a correcting member according to a calculated image shake correction amount. An imaging magnification calculation unit calculates an imaging magnification of an imaging lens, and outputs it to a signal switching unit. The signal switching unit switches between an output of an integration filter and an output of an HPF according to a size of the imaging magnification. The CPU performs image shake correction by changing following properties of a low-frequency range of a correcting filter, and by calculating an image shake correction amount. | 02-12-2015 |
20150077579 | MOTION SENSOR, AND ELECTRONIC APPARATUS USING SAME - A motion sensor includes a sensor element that outputs a sense signal in response to a motion applied thereto and a sensor circuit that senses the motion based on the sense signal. The sensor circuit includes a sensor-element-signal amplifier that receives the sense signal. The sensor-element-signal amplifier operates switchably between at a normal mode and at a low-noise mode that consumes a larger electric power and produces a smaller noise than the normal mode. This motion sensor senses a small motion and a large motion accurately. | 03-19-2015 |
20150085149 | IMAGE CAPTURE APPARATUS AND CONTROL METHOD THEREFOR - An amount of change between images is calculated based on a motion vector between images obtained by an image sensor and on shake information related to a shake in a rotational direction around at least an axis perpendicular to an optical axis of an imaging optical system. Then, based on a shake correction amount determined based on the shake information and the amount of change, an image obtained by the image sensor is geometrically deformed. The amount of change is a shake component of the image capture apparatus in a direction perpendicular to the optical axis, and is calculated after cancelling at least one of a change between images caused by the shake in the rotational direction included in the shake information and a change between images caused by an influence of a difference between exposure periods of the image sensor. | 03-26-2015 |
20150109466 | VIDEO CREATION DEVICE AND VIDEO CREATION METHOD - An image creation device includes an acquisition unit that acquires an image to be processed, a region information acquisition unit that acquires region information specifying an object region where an object to be processed is shown in the image to be processed, a setting unit that sets a fixed control point, a vibration control point and a vibration direction based on a shape of the object region by referring to a storage unit storing a shape of the object in association with a fixed control point, a vibration control point and a vibration direction when the object vibrates, a creation unit that creates a video to be displayed with the object vibrating in accordance with the fixed control point, the vibration control point and the vibration direction, and an output unit that outputs the image to be processed where the video is superimposed. | 04-23-2015 |
20150109467 | CAMERA AND METHOD OF CONTROLLING OPERATION OF SAME - It is arranged so that a camera user can recognize presence of camera shake in a case where the user is looking at a subject through an optical viewfinder. A portion of the image of a subject captured by a solid-state electronic image sensing device is displayed in an electronic viewfinder constituted by a liquid crystal display unit. An image of a subject optically formed via an objective window of the optical viewfinder and the portion of the image of the subject displayed in the electronic viewfinder are superimposed. If camera shake is taking place, the portion of the image of the subject in the superimposed images will appear blurry. By viewing this portion of the image of the subject, therefore, the user can tell whether camera shake is taking place. | 04-23-2015 |
20150116514 | CAMERA LENS MODULE - Disclosed herein is a camera lens module. The camera lens module in accordance with an embodiment of the present invention includes a vibration correction carrier, a rolling unit disposed in parallel to a direction vertical to an optical axis and configured to support the vibration correction carrier, a lens barrel carrier disposed on a side opposite the vibration correction carrier based on the rolling unit, and a base configured to mount the vibration correction carrier and the lens barrel carrier on the base. | 04-30-2015 |
20150116515 | CAMERA MODULE - There is provided a camera module including: a housing; a lens unit mounted in the housing; a hand shake correction unit correcting a movement of the lens unit with respect to the housing; and a damping member disposed between the housing and the lens unit to thereby reduce the movement of the lens unit through the hand shake correction unit. | 04-30-2015 |
20150146022 | RAPID SHAKE DETECTION USING A CASCADE OF QUAD-TREE MOTION DETECTORS - A method of determining stability of a camera comprises capturing an image with the camera and then (A) determining a magnitude of motion for each region of a current sub-division of the image. A step (B) then determines a number of the magnitudes of motion not larger than a magnitude threshold associated with the current sub-division, and where the determined number is greater than or equal to a region threshold associated with the number of regions in the current sub-division, (i) determining the camera to be stable, or otherwise (ii) dividing the current sub-division of the image into a further sub-division and repeating steps (A) and (B) upon the further sub-division. | 05-28-2015 |
20150146023 | IMAGE PICKUP APPARATUS AND CONTROL METHOD - An image shake correcting device includes a shake detecting unit configured to detect a shake of an image pickup apparatus; a first optical correcting unit and a second optical correcting unit configured to correct optically an image shake by using a shake signal output from the shake detecting unit; a first position detecting unit configured to detect a position of the first optical correcting unit and output a first position detection signal; and a calculating unit configured to calculate a target position signal for controlling the first optical correcting unit based on the shake signal. The calculating unit calculates a target position signal for controlling the second optical correcting unit by using the signal that is obtained by subtracting the first position detection signal for detecting the position of the first optical correcting unit controlled by the target position signal from the target position signal. | 05-28-2015 |
20150146024 | IMAGE PICKUP APPARATUS AND CONTROL METHOD - An image pickup apparatus includes a shake detecting unit configured to detect a shake of the image pickup apparatus; a first and a second optical correcting unit configured to move in a direction different from an optical axis so as to correct optically an image shake; a first position detecting unit configured to detect a position of the first optical correcting unit and output a first position detection signal; a second position detecting unit configured to detect a position of the second optical correcting unit and output a second position detection signal; and a controlling unit configured to control the first optical correcting unit and the second optical correcting unit. A range for detecting a position of the first position detecting unit is different from that of the second position detecting unit. | 05-28-2015 |
20150358547 | IMAGE PROCESSING APPARATUS - An image processing apparatus includes an imaging unit which outputs an imaging result as a time-series image and an image correction unit, to which the time-series image outputted from the imaging unit is inputted as an input image, for correcting image fluctuation in the input image. The image correction unit includes a temporally-smoothed image generation section which generates a temporally-smoothed image by smoothing time-series input images, a similarity determination section which sets a local area for the temporally-smoothed image and determines similarities between the local area and partial areas of the time-series input images; and a corrected image generation section which selects a partial area having the highest similarity to the local area, and generates a corrected image based on the selected partial area. | 12-10-2015 |
20150358548 | OPTICAL DEVICE, CONTROL METHOD THEREFOR, AND STORAGE MEDIUM STORING CONTROL PROGRAM THEREFOR - An optical device that is capable of reducing eccentric aberration while reducing image blur. A first shake correction unit corrects image blur optically based on a shake amount that is detected by a shake detection unit. A second shake correction unit corrects image blur optically based on a shake amount that is detected by the shake detection unit. The second shake correction unit has a different image blur correction effect from the first shake correction unit. The optical device has a mode in which shake correction is performed using the first shake correction unit without using the second shake correction unit. | 12-10-2015 |
20160014337 | PHOTOGRAPHING APPARATUS, MOTION ESTIMATING APPARATUS, IMAGE COMPENSATING METHOD, MOTION ESTIMATING METHOD, AND COMPUTER-READABLE RECORDING MEDIUM | 01-14-2016 |
20160028958 | IMAGING APPARATUS AND IMAGE BLUR CORRECTION METHOD - An imaging apparatus includes a follow shot control unit and a blur correction unit. The follow shot control unit calculates a panning angular velocity and a tilting angular velocity based on a first or second angular velocity for an image pickup device on the basis of magnitude correlation between the first and second angular velocities for image pickup device and on the basis of an inclination angle immediately before exposure and a ratio between the first and second angular velocities, when a state is a following shot state. The blur correction unit calculates an image blur correction amount on the basis of a difference between the first angular velocity and the panning angular velocity and a difference between the second angular velocity and the tilting angular velocity. | 01-28-2016 |
20160057351 | IMAGE PROCESSING APPARATUS AND METHOD OF CONTROLLING IMAGE PROCESSING APPARATUS - An image processing apparatus comprising: a first obtaining unit configured to obtain a focal length of an imaging optical system; a second obtaining unit configured to obtain a distance to a subject; a setting unit configured to set a movable range for a correction unit configured to correct camera shake, based on the focal length and the distance to a subject; and a calculation unit configured to calculate a correction amount for correcting the camera shake within the movable range that was set by the setting unit, based on a camera shake signal from a camera shake detection unit configured to detect camera shake and output the camera shake signal. | 02-25-2016 |
20160057352 | IMAGE-CAPTURING DEVICE, SOLID-STATE IMAGE-CAPTURING ELEMENT, CAMERA MODULE, ELECTRONIC DEVICE, AND IMAGE-CAPTURING METHOD - There is provided an image-capturing device including an image-capturing unit that captures a subject to output the captured image, a detection unit that physically detects a shake angle when the image-capturing unit has shaken, and a correction processing unit that calculates a correction amount based on an arrangement position of a pixel constituting the image outputted by the image-capturing unit and the shake angle detected by the detection unit, to correct the image according to the correction amount. | 02-25-2016 |
20160088225 | METHOD AND TECHNICAL EQUIPMENT FOR IMAGING - The application concerns a method and a technical equipment for multiframe capturing. In the method a level of motion in a target to be captured is determined ( | 03-24-2016 |
20160088226 | CAMERA SYSTEM COMPRISING A CAMERA, CAMERA, METHOD OF OPERATING A CAMERA AND METHOD FOR DECONVOLUTING A RECORDED IMAGE - A system and camera wherein the camera comprises in the light path a diffuser ( | 03-24-2016 |
20160105612 | BLUR CORRECTION APPARATUS - A blur correction apparatus includes a first fixing member, a moveable member and a second fixing member. A coil for generating a magnetic flux is arranged on the first fixing member. The movable member includes (1) an optical element, (2) a first magnet facing the coil, and (3) a second magnet arranged along a line parallel with an optical axis of the optical element and facing the first magnet, such that the first magnet is arranged between the second magnet and the coil. The movable member can move in a direction perpendicular to the optical axis. The second fixing member includes a hall element that is arranged adjacent to the second magnet. The second magnet is arranged between the first magnet and the hall element. The coil, the first magnet, the second magnet and the hall element are sequentially disposed in a line parallel with the optical axis, in this order. | 04-14-2016 |
20160127647 | IMAGE SHAKE CORRECTION DEVICE, AND OPTICAL DEVICE AND IMAGE CAPTURING APPARATUS USING THE SAME - In an image shake correction device in which a lens holder holding an image shake correcting lens is supported by a ball, the image shake correcting lens is driven in such a manner that the ball does not make sliding contact with the lens holder or does not contact a ball restriction portion during still image capturing. The image shake correction device permits the ball to contact the ball restriction portion during moving image capturing. | 05-05-2016 |
20160150160 | METHODS AND SYSTEMS FOR REMOVAL OF ROLLING SHUTTER EFFECTS - Methods and systems for rolling shutter removal are described. A computing device may be configured to determine, in a frame of a video, distinguishable features. The frame may include sets of pixels captured asynchronously. The computing device may be configured to determine for a pixel representing a feature in the frame, a corresponding pixel representing the feature in a consecutive frame; and determine, for a set of pixels including the pixel in the frame, a projective transform that may represent motion of the camera. The computing device may be configured to determine, for the set of pixels in the frame, a mixture transform based on a combination of the projective transform and respective projective transforms determined for other sets of pixels. Accordingly, the computing device may be configured to estimate a motion path of the camera to account for distortion associated with the asynchronous capturing of the sets of pixels. | 05-26-2016 |
20160165137 | IMAGING APPARATUS AND METHOD OF CONTROLLING THE SAME - An imaging apparatus and method of controlling the same is disclosed. The imaging apparatus includes camera modules, a motion sensor configured to sense a motion of the imaging apparatus to generate a motion value, a controller configured to generate a control signal to adjust a position of a lens of the camera modules based on the motion value, a image stabilizers configured to adjust the position of the lens of the camera modules in response to the control signal and to sense the adjusted position of the lens, and a selector configured to select at least one of the first image stabilizing unit or the second image stabilizing unit, in response to a selective input signal, to transfer the control signal to the selected image stabilizer, and to transfer the sensed position of the lens to the controller from the selected image stabilizer. | 06-09-2016 |
20160165139 | IMAGE SHAKE CORRECTION DEVICE, IMAGE PICKUP APPARATUS, AND CONTROL METHOD - Provided is an image shake correction device to correct image shake during panning photographing to let the movement of an image pick-up apparatus follow the movement of a main subject which uses a shift lens group. The image shake correction device executes a determination process on a motion vector for calculating an angular velocity of the main object for use in calculation of a drive signal of the shift lens group. The image shake correction device changes the determination process on the motion vector according to a state of the image pick-up apparatus. | 06-09-2016 |
20160173779 | IMAGE CAPTURE HAVING TEMPORAL RESOLUTION AND PERCEIVED IMAGE SHARPNESS | 06-16-2016 |
20160182870 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROJECTION APPARATUS | 06-23-2016 |
20160191802 | DEVICES, SYSTEMS, AND METHODS FOR ESTIMATION OF MOTION BLUR FROM A SINGLE IMAGE - Devices, systems, and methods for estimating blur in an image obtain an image, identify pixels in the image that have intensity values that equal or exceed a first intensity threshold in a first color channel, and identify a trajectory based on the pixels in the image that have intensity values that exceed the first intensity threshold in the first color channel. Also, the devices, systems, and methods identify multiple instances of the trajectory in the image, identify an instance of the trajectory that includes pixels that have intensity values that do not equal or exceed a second intensity threshold in a second color channel, and generate a blur kernel based on the intensity values in the second color channel of the pixels in the instance of the trajectory. | 06-30-2016 |
20160205323 | METHOD AND APPARATUS FOR VIDEO ANTI-SHAKING | 07-14-2016 |
20170236257 | Joint Video Stabilization and Rolling Shutter Correction on a Generic Platform | 08-17-2017 |
20170237903 | SYSTEM AND METHOD FOR STABILIZING A DATA STREAM FROM AN IN-FLIGHT OBJECT | 08-17-2017 |