22nd week of 2014 patent applcation highlights part 23 |
Patent application number | Title | Published |
20140146126 | Multiparty Service Establishment Based On Priority Rules For Routing - Methods, devices, and storage media provide for receiving a request to use a multiparty service; applying priority rules for routing the request toward a destination endpoint, wherein the applying comprises determining whether the destination endpoint is a private destination endpoint or a public destination endpoint; routing the request toward the private destination endpoint in response to determining that a destination address or a portion thereof included in the request corresponds to the private destination endpoint; and routing the request toward the public destination endpoint in response to determining that the destination address or the portion thereof included in the request corresponds to the public destination endpoint. | 2014-05-29 |
20140146127 | Capturing Video through a Display - An image is displayed from a transparent display according to a first signal. Light passing through the display is received, and a second signal is generated from the received light. A third signal is generated from the first signal and the second signal by eliminating data in the second signal corresponding to the image. | 2014-05-29 |
20140146128 | SYSTEM AND METHOD FOR PROVIDING VIDEO CONFERENCE SERVICE - A system for providing a video conference service is provided. The system includes a Multipoint Processor (MP) configured to process media occurring during a video conference so as to allow the processed media to be transmitted/received between user terminals; and one or more Multipoint Controller (MC) configured to control a session of a user terminal participating in a multi-participant video conference, wherein the MP and the MC are separate from each other. | 2014-05-29 |
20140146129 | Telepresence method, terminal and system - The disclosure discloses a telepresence method, a telepresence terminal and a telepresence system. The system includes a telepresence terminal, multiple audio inputting devices and multiple audio outputting devices and/or multiple video inputting devices and multiple video outputting devices and a remote endpoint, wherein the telepresence terminal has multiple audio and video inputting and outputting interfaces for connecting the multiple audio inputting devices and the multiple audio outputting devices and/or the multiple video inputting devices and the multiple video outputting devices, and is configured to: establish a session, exchange input/output location information of multiple audio streams and/or video streams, perform media capability negotiation, and establish media logical channels with the remote endpoint; encode streams input by the multiple audio inputting devices and/or the multiple video inputting devices, and send the encoded streams to the remote endpoint according to input/output locations of the streams based on the established media logical channels; receive and decode multiple audio streams and/or video streams from the remote endpoint, and forward the decoded streams respectively to audio outputting devices and/or video outputting devices at local locations corresponding to input/output locations of the multiple audio streams and/or video streams received, so that the decoded streams are played by the audio outputting devices and/or the video outputting devices at the local locations. With the disclosure, problems of complicated deployment of an existing telepresence system, intercommunication and stream synchronization within the system are solved. | 2014-05-29 |
20140146130 | DUAL SENSOR IMAGING SYSTEM - Medical apparatus consisting of a first imaging device including a first image sensor having a first field of view, and a second imaging device including a second image sensor having a second field of view smaller than the first field of view. The apparatus also includes a processor configured to process a first image acquired by the first image sensor so as to generate a first processed image having a first image magnification, and to process a second image acquired by the second image sensor so as to generate a second processed image having a second image magnification. The processor is also configured to adjust the first image magnification to be equal to the second image magnification so as to form an adjusted first image, and to generate a stereoscopic image based on the adjusted first image and the processed second image. | 2014-05-29 |
20140146131 | METHOD FOR FORMING IMAGES - According to one aspect of the present inventive concept there is provided a method for forming images, comprising: providing a plurality of images, each image including a first image part and a second image part, and each image depicting a respective partial view, wherein there is an overlap between partial views depicted in pairs of consecutive images, forming a first combined image from said first image parts, which first combined image depicts a first continuous view, and forming a second combined image from said second image parts, which second combined image depicts a second continuous view, wherein the first and the second continuous views overlap. | 2014-05-29 |
20140146132 | OMNIDIRECTIONAL SENSOR ARRAY SYSTEM - An omnidirectional sensor array system, for example a panoptic camera, comprising a plurality of sensors arranged on a support of predetermined shape to acquire data, wherein said sensors are directional and wherein each sensor is attached to a processing node which comprises integrated electronics that carries out at least a portion of the signal processing algorithms locally in order to reduce the computational load of a central hardware unit. | 2014-05-29 |
20140146133 | TRANSPARENT HOLOGRAPHIC DISPLAY WITH DYNAMIC IMAGE CONTROL - Generally, this disclosure provides systems and methods for generating three dimensional holographic images on a transparent display screen with dynamic image control. The system may include a transparent display screen that includes an array of pixels; a driver circuit configured to control each of the pixels in the array of pixels such that the transparent display screen displays an interference fringe pattern, the interference fringe pattern associated with a hologram; and a coherent light source configured to illuminate the transparent display screen with coherent light, wherein transformation of the coherent light by the interference fringe pattern generates a three dimensional holographic image. | 2014-05-29 |
20140146134 | METHOD AND SYSTEM FOR ENCODING 3D VIDEO - A method and system for encoding three-dimensional (3D) video are provided. The method includes: obtaining a depth map of the 3D video, wherein the depth map includes multiple pixels and each of the pixels has a depth value; identifying a first contour of an object in the depth map; changing the depth values according to whether the pixels are located on the first contour to generate a contour bit map; compressing the contour bit map to generate a first bit stream, and decompressing the first bit stream to generate a reconstructed contour bit map; obtaining multiple sampling pixels of the pixels in the object according to a second contour corresponding to the object in the reconstructed contour bit map; and, encoding locations and the depth values of the sampling pixels. Therefore, a compression ratio of the 3D video is increased. | 2014-05-29 |
20140146135 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - According to one embodiment, an image processing apparatus includes an image generating module, and an image synthesizer. The image generating module is configured to generate a turning-over image that is an image on a turning-over section obtained by folding a part of an area of a main image input. The main image is transmitted through the turning-over section. The image synthesizer is configured to arrange a sub image on a part of the area of the main image, and synthesize the main image, the turning-over image, and the sub image. | 2014-05-29 |
20140146136 | Image depth perception device - In view of the active vision model based on structured light, a hardware structure of a depth perception device (a chip or an IP core) for high-precision images is disclosed. Simultaneously, the module is not only capable of serving as an independent chip, but also an embedded IP core in application. Main principle of the module is as follows. Speckle image sequence (obtained from an external image sensor and unknown depth information) is processed by adaptive and uniform pre-processing sub-module, then is inputted to the module to be compared with the standard speckle image (known depth information), then motion-vector information of the inputted speckle image is obtained by pattern matching of image blocks (similarity calculation) by the block-matching motion estimation sub-module, then depth image is obtained by depth calculation, and finally high-resolution sequence of depth image is outputted by post-processing the depth image. | 2014-05-29 |
20140146137 | ENCODING/DECODING METHOD AND APPARATUS USING A SKIP MODE - Disclosed are an encoding/decoding method and apparatus using a skip mode. The image decoding method comprises:
| 2014-05-29 |
20140146138 | 3D IMAGE SIGNAL PROCESSING APPARATUS - In 3D display, when double the frequency of the input clock exceeds the maximum rate of transmission to cinema display circuit | 2014-05-29 |
20140146139 | DEPTH OR DISPARITY MAP UPSCALING - Method and arrangement for increasing the resolution of a depth or disparity map related to multi view video. The method comprises deriving a high resolution depth map based on a low resolution depth map and a masked texture image edge map. The masked texture image edge map comprises information on edges in a high resolution texture image, which edges have a correspondence in the low resolution depth map. The texture image and the depth map are associated with the same frame. | 2014-05-29 |
20140146140 | IMAGE CAPTURING DEVICE, SEMICONDUCTOR INTEGRATED CIRCUIT, AND IMAGE CAPTURING METHOD - An image capturing device in one aspect of the present invention includes: an imaging device; a lens optical system including a focus lens; a driving section for driving one of the imaging device and the focus lens; a displacement control section for controlling displacement of the imaging device or the focus lens to be driven based on a predetermined displacement pattern; a diaphragm having an aperture having a size which can be changed and being provided in the lens optical system; an aperture control section for controlling the size of the aperture of the diaphragm; a synchronizing section for controlling the displacement control section and the aperture control section based on exposure timing; and an image capturing parameter determining section for determining the exposure time, the size of the diaphragm aperture, and the displacement pattern, wherein: the predetermined displacement pattern includes a first-type displacement pattern and a second-type displacement pattern by which the imaging device or the focus lens is displaced over different ranges between a first focus position and a second focus position in an image capturing scene; the first-type displacement pattern and the second-type displacement pattern are repeated alternately; and the aperture control section controls the diaphragm so as to have a first aperture and a second aperture having a different size from that of the first aperture in the first-type displacement pattern and the second-type displacement pattern based on timing from the synchronizing section. | 2014-05-29 |
20140146141 | THREE-DIMENSIONAL IMAGE PICKUP LENS SYSTEM AND IMAGE PICKUP SYSTEM INCLUDING THE SAME - A three-dimensional image pickup lens system, including two lens apparatuses, each of the two lens apparatuses including: an optical element drivers in a direction containing a component perpendicular to an optical axis; a driving unit driving the optical element; a detector detecting vibration of a corresponding one of the lens apparatuses; a first generator generating a first signal driving the optical element to correct image blur due to the vibration; a second generator generating a second signal driving the optical element to a position corresponding to a set angle of convergence; a retainer retaining an effective maximum correction amount as a correctable maximum image stabilization amount determined based on the second signals generated in the lens apparatuses and is common to the lens apparatuses; and a controller driving the optical element by the driving unit based on the first signal, the second signal, and the effective maximum correction amount. | 2014-05-29 |
20140146142 | THREE-DIMENSIONAL MEASURING DEVICE USED IN THE DENTAL FIELD - The three dimensional measuring device used in the dental field and aimed at measuring in the absence of projection of active or structured light, includes an image-capturing device and data-processor for images. The image-capturing device is capable of simultaneously, or almost simultaneously, capturing at least two images, one of which is totally or partially included in the other one. The included image describes a narrower field than that of the other one, and has a higher accuracy than that of the other one. | 2014-05-29 |
20140146143 | STEREOSCOPIC IMAGE DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - The embodiments herein provide a stereoscopic image display device and method for driving the same capable of improving 2D image quality. The stereoscopic image display device comprises a display panel including a plurality of pixels; a 2D data converter configured to received two-dimensional data for each of a plurality of sub-pixels of the pixels and to convert the 2D data for each of the plurality of sub-pixels into converted 2D data for each of the plurality of sub-pixels based on all of the 2D data for the plurality of sub-pixels; and a display panel driving circuit configured to receive the converted 2D data for each of the plurality of sub-pixels and to supply each of the converted 2D data to a corresponding one of the plurality of sub-pixels in a two-dimensional mode of the stereoscopic image display device. | 2014-05-29 |
20140146144 | APPARATUS AND METHOD FOR CALIBRATING MULTI-LAYER THREE-DIMENSIONAL (3D) DISPLAY - Provided is an apparatus and method for calibrating a multi-layer three-dimensional (3D) display (MLD) that may control a 3D display including a plurality of display layers to display a first image on one of the plurality of display layers, acquire a second image by capturing the first image, calculate a homography between the display layer and an image capturer based on the first image and the second image, and calculate geometric relations of the display layer with respect to the image capturer based on the calculated homography. | 2014-05-29 |
20140146145 | Multileveled Television - A video or other kind of screen device form of multiple layers of pixels. The pixels in the different layers may be modified in order to form a 3-D effect. According to another embodiment, the lenses may be associated with different whalers of zoom in order to simulate a 3-D effect. The different layers may also be used as an additive with one another to reduce their output level. The different layers may also be used as backup layers, so that one layer can be used when another player fails. | 2014-05-29 |
20140146146 | IN-PAINTING METHOD FOR 3D STEREOSCOPIC VIEWS GENERATION - A method for generating an intermediate view on the basis of left and right views of a 3D picture and a disparity map, the method including: using pixel information contained in the left and right views and the disparity map for creating an intermediate view, identifying occlusion pixels in the created intermediate view, and filling the occlusion pixels with information gained from adjacent pixels. | 2014-05-29 |
20140146147 | APPARATUS AND METHOD FOR PERFORMING MULTI-VIEW DISPLAY - A display apparatus is provided, including a video processor configured to process video data of contents, a display configured to display content views using the video data processed by the video processor, a communication unit configured to communicate with an external device which is paired with the display apparatus, and a control unit configured to assign a remote control right to a content view corresponding to the remote control right switching command from among the content views based on whether the remote control right switching command is received from the external device. If a remote control signal is received, the control unit performs an operation corresponding to the remote control signal with respect to the content view having the remote control right. | 2014-05-29 |
20140146148 | SYSTEM AND METHOD FOR GENERATING 3-D PLENOPTIC VIDEO IMAGES - Described herein is a system and method for displaying a stereoscopic plenoptic image or video to a user, with eye-tracking capabilities. A display device displays a plenoptic image or video on a screen, and focuses the plenoptic image or video at the depth plane corresponding to the eye-coordinates of the user's gaze. The focused depth plane in the displayed plenoptic frame updates as the frames progress in the video stream, thereby constantly re-focusing the depth plane of the currently displayed plenoptic frame depending on the location of the user's gaze. | 2014-05-29 |
20140146149 | 3D DISPLAY DEVICE AND DRIVING METHOD THEREOF - Embodiments of the present invention disclose a 3D display device and a driving method thereof, and the 3D display device comprises: a display panel, comprising sub-pixel units arranged in a matrix and defined by data lines and gate signal lines, and each gate signal line being located between two adjacent columns of sub-pixel units; a lenticular lens grating, provided at a light exiting side of the display panel, splitting light emitted from the display panel, and comprising lens units, wherein each lens unit corresponds to at least two adjacent columns of sub-pixel units; in a 3D display mode, columns of sub-pixel units alternatively display a left/right eye image and a right/left eye image, and each lens unit comprises, in a region corresponding to each column of the sub-pixel units, a lens structure matching the left or right eye image currently displayed by the column of the sub-pixel units. | 2014-05-29 |
20140146150 | TELEVISION SYSTEM AND IMAGE DISPLAY METHOD THEREOF - A television device and an image display method thereof are provided. The television devices includes an image color converter configured to generate image data, after color conversion, wherein the image data is configured for a person with a color vision deficiency for an area which is selected based on selection area information from a terminal device which selects the area or a plurality of areas from a screen layout, a display data generator configured to generate display data based on the image data and color conversion information which is generated by the image color converter, a display configured to display the display data, and a layout information extractor configured to extract layout information corresponding to the screen layout of the image data. | 2014-05-29 |
20140146151 | Vision Assistive Devices and User Interfaces - Vision assistive device and user interface are disclosed. In some embodiments, a vision assistive device includes a housing having a base for positioning the housing on a surface; one or more imaging units disposed along a top portion of the housing, each imaging unit being angled downward so a central axis of the imaging unit forms an acute angle with the surface so the imaging unit captures a target image from a target object; and a control system accommodated within the housing, the control system being connected to the one or more imaging units to process the target image captured by each imaging unit and to output the target image to a user. | 2014-05-29 |
20140146152 | DRIVER VIEW ADAPTER FOR FORWARD LOOKING CAMERA - When monitoring the forward area in front of a vehicle, video of the forward area and the driver of the vehicle is concurrently captured by a single forward facing camera with a rearward facing mirror assembly reflects an image of the driver, who is positioned behind the forward facing camera, into the forward facing field of view of the camera. The mirror assembly is positioned in an inactive portion of the field of view of the camera so that the reflected image of the driver appears in the inactive portion of the field of view in the captured video. In this manner, synchronized video of the forward area in the driver is generated without requiring computationally expensive post processing. | 2014-05-29 |
20140146153 | WIRELESS SURGICAL LOUPE - A wireless surgical loupe enables a user to use the wireless loupe to perform a procedure, transmit information acquired by the wireless loupe and display patient information on a wireless loupe display. The transmitted information is able to be used to aid the operating room procedure, enhance education and be recorded for later use. | 2014-05-29 |
20140146154 | PATIENT MONITORING SYSTEM WITH IMAGE CAPTURE FUNCTIONALITY - A patient monitoring system with image capture functionality, wherein the system is configured such that image data is recorded in response to the sensor signal only if that sensor signal is generated more than a predefined period of time following the identification of a predefined access token. Methods for operating such a system, and computer software/hardware configured to enable the operation and/or configuration of such a system are also disclosed. The embodiments described herein are designed in particular, to assist in protecting a patient against unauthorized persons attempting to interfere with the patient. The system has other management functions such as analyzing fall risk likelihoods, observing patient behavior, improving staff response times, statistical analysis, and ascertaining false alarms | 2014-05-29 |
20140146155 | Image Processing - An image processing method may include capturing images of a subject using an image capture device. The images may be aligned and one image may be subtracted from another to obtain a remainder image. The remainder image may be marked and then recombined with one of the images. | 2014-05-29 |
20140146156 | PRESENTATION OF GAZE POINT DATA DETECTED BY AN EYE-TRACKING UNIT - A method of presenting gaze-point data of a subject detected by an eye-tracking unit includes presenting a test scene picture acquired by a camera unit, and displaying shapes on the test scene picture. The shapes represent momentary gaze points of the subject. | 2014-05-29 |
20140146157 | SYSTEM AND METHOD FOR SAMPLE DILUTION AND PARTICLE IMAGING - A system for diluting a sample fluid sufficiently to enable the capture images of particles contained in the sample fluid. The system includes a fluid dilution system and a particle imaging system. The fluid dilution system includes a mixing conduit for combining a diluent and the sample solution. The mixing conduit is coupled to a flow chamber associated with imaging capturing devices including a camera. When the sample fluid is too opaque or viscous to enable capture of particle images of sufficient clarity, the fluid dilution system is activated to introduce diluent into the mixing conduit in sufficient volume to dilute the sample fluid. The diluted sample fluid is passed through the flow chamber and particle images captured. Information regarding captured images may be stored, analyzed and transferred from a remote location. | 2014-05-29 |
20140146158 | DEVICE FOR MICROSCOPIC EXAMINATION - A device for microscopic examination includes an image output unit, at least two image input units, which are arranged in a spatially distributed manner and which have different sample receiving regions, at least one object carrier unit which supports at least one sample, in particular at least one biological sample, and includes a coupling unit, which couples the image output unit and one of the at least two image input units optically to form a microscope unit. | 2014-05-29 |
20140146159 | Z-MICROSCOPY - We present a method for parallel axial imaging, or z-microscopy, utilizing an array of tilted micro mirrors arranged along the axial direction. Image signals emitted from different axial positions can be orthogonally reflected by the corresponding micro mirrors and spatially separated for parallel detection, essentially converting the more challenging axial imaging to a lateral imaging problem. Each micro mirror also provides optical sectioning capability due to its finite dimension. | 2014-05-29 |
20140146160 | Method of Sampling a Sample and Displaying Obtained Information - The invention relates to a method of sampling and displaying information comprising | 2014-05-29 |
20140146161 | OUTER SURFACE INSPECTING ROBOT WITH FLIPPING OVER FLANGE MECHANISM - A pipe inspecting robot for traveling along the surface of a pipeline, the robot having a body, first and second independently articulating legs attached to the body, and first and second leg motors in controlling communication with the first and second articulating legs, respectively. The robot also has first and second pairs of wheels attached to the first and second articulating legs at an opposite end of the legs from the body. The first and second leg motors are configured so that when the first pair of wheels encounters an obstacle, the second leg motor rotates the second leg upward away from the surface of the pipeline and radially around the body until the second pair of wheels contacts the surface of the pipeline on an opposite side of the obstacle, after which the first leg motor rotates the first leg upward away from the surface of the pipeline and radially around the body until the first pair of wheels contacts the surface of the pipeline, thereby causing the robot to pass over the obstacle. | 2014-05-29 |
20140146162 | Optical Video Measurement System Having Interchangeable Optics - An optical video measurement system for comparing a manufactured part against a representation of the manufactured part. The measurement platform system includes an optical video system for capturing images of the manufactured part. The optical video system includes a camera configured to capture one or more images of the manufactured part. The camera is configured to cooperate with one of several interchangeable lens assemblies for providing optics for the camera. The camera is configured to receive and retain one of the several interchangeable lens assemblies by way of a bayonet mount, wherein each of the interchangeable lens assemblies includes a male side configured to be received within a female side of the camera. The video measurement system further includes a mounting assembly configured to receive and retain a portion of each of the interchangeable lens assemblies and maintain alignment of each of the interchangeable lens assemblies with the camera. | 2014-05-29 |
20140146163 | REEL-TO-REEL INSPECTION APPARATUS AND INSPECTION METHOD USING THE SAME - Provided are a reel-to-reel inspection apparatus and method. The reel-to-reel inspection apparatus includes: an unwinding unit configured to unwind a roll-shaped object; a first inspection unit configured to photograph a surface of the object discharged from the unwinding unit; a second inspection unit configured to photograph another surface of the object which has passed through the first inspection unit; a marking unit configured to indicate a mark on the object which has passed through the second inspection unit; and a winding unit configured to wind in a roll shape the object which has passed through the marking unit. | 2014-05-29 |
20140146164 | Calibration of a Dynamic Digital Imaging System for Detecting Defects in Production Stream - A system and method for calibrating a dynamic digital imaging system for the detection of defects in a moving product stream. The system has an elevated platform above a conveying unit for receiving a reference color tile. The elevated platform allows for the passage of products to be inspected on the below conveying unit surface such that calibration and re-calibration processes during image capturing may be accomplished on a continuous basis without interruption of the product stream. | 2014-05-29 |
20140146165 | Glass-Sheet Optical Inspection Systems and Methods with Illumination and Exposure Control - Optical inspection systems and methods for inspecting a glass sheet for defects are disclosed. The systems and methods employ a digital camera and a plurality of different types of illumination sources. The object plane of the digital camera moves through the glass sheet body while flash exposures from one or more of the illumination sources are performed. The movement occurs during a ready-to-acquire time of the digital camera. This allows the digital camera to capture a plurality of digital inspection images on the fly at different exposure positions within the glass sheet body without waiting for any digital image processing to occur. The digital inspection images are then reviewed to characterize any revealed defects. | 2014-05-29 |
20140146166 | APPARATUS AND METHOD FOR ALIGNING DISPLAY SUBSTRATE - An apparatus for aligning a display substrate includes a substrate seater, a mark identification light reflective plate on the substrate seater, wherein the display substrate is positioned on the substrate seater and includes an alignment mark including a black organic film, and wherein the mark identification light reflective plate overlaps the alignment mark of the display substrate positioned on the substrate seater. | 2014-05-29 |
20140146167 | Perception Based Loading - Systems and methods for assisted positioning of a haul machine at a destination position for receiving materials from a loading machine are provided. The method includes obtaining from at least one perception device information reflecting a location or orientation of a first fiducial attached to the loading machine; determining a location or position of the first fiducial based on the information provided by the at least one perception device; determining the destination position based on the location or position of the first fiducial; and issuing guidance to an operator of the haul machine indicating an adjustment in steering angle based on the determined destination position. | 2014-05-29 |
20140146168 | METHOD FOR DISPLAYING IMAGES OF A REVERSE VIEW CAMERA SYSTEM OF A MOTOR VEHICLE ON A DISPLAY - A method is provided for displaying images from a reverse view camera system of a motor vehicle on a display, which includes, but is not limited to generating an image of a rearward environment of the motor vehicle with the aid of the reverse view camera system, providing an information system in the motor vehicle, displaying the image of the rearward environment on the display, and displaying a parameter associated with the information system on the display whilst driving. | 2014-05-29 |
20140146169 | METHOD OF ACQUIRING SEVERAL IMAGES OF THE SAME PACKAGE WITH THE AID OF A SINGLE LINEAR CAMERA - The invention relates to a method of inspecting packages with the help of a linear image sensor. According to the invention the method comprises the steps of:
| 2014-05-29 |
20140146170 | Methods, Systems, and Products for Emergency Services - Methods, systems, and products provide emergency services during emergency situations. When an emergency situation is determined, activation commands are sent to activate cameras and/or microphones within a geographic vicinity of the emergency situation. Mobile devices and traffic cameras, for example, are thus instructed to capture image and audio data during the emergency situation. | 2014-05-29 |
20140146171 | Surveillance and Security Communications Platform - A surveillance and security communications platform for detecting and responding to potential emergencies is provided. The platform may be utilized to automatically open communications channels via multiple media streams based on predefined settings for detecting a potential emergency situation. The platform may further be utilized to automatically send video and audio streams to an emergency responder upon detecting the potential emergency situation. The platform may further be utilized to detect the potential emergency situation while it is occurring and automatically initiate escalated emergency notifications to multiple parties. The platform may further be utilized to receive computing device sensor data for detecting the potential emergency for a potential victim in a business or home setting and immediately send an emergency notification, which may include a predefined text-to-speech announcement, to emergency responders in order to mitigate the potential emergency. | 2014-05-29 |
20140146172 | DISTRIBUTED IMAGE PROCESSING SYSTEM - Provided is a distributed image processing system for detecting an object located in a monitoring target area and an attribute of the object. An area terminal processes an image captured by a video camera, and detects whether the object of which the image is captured is present. When detecting the object located in the monitoring target area, the area terminal focuses an image capturing visual field of a digital still camera on the detected object, and inputs a release signal to the digital still camera. The area terminal transmits a still image captured by the digital still camera to a server through a network. The server processes the still image transmitted from the area terminal, and detects an attribute such as a kind and a size of the object of which the image is captured. The server performs an output according to a detection result of the object located in the monitoring target area. | 2014-05-29 |
20140146173 | Integrated Aerial Photogrammetry Surveys - Novel tools and techniques for generating survey data about a survey site. Aerial photography of at least part of the survey site can be analyzed using photogrammetric techniques. In some cases, an unmanned aerial system can be used to collect site imagery. The use of a UAS can reduce the fiscal and chronological cost of a survey, compared to the use of other types aerial imagery and/or conventional terrestrial surveying techniques used alone. | 2014-05-29 |
20140146174 | METHOD AND SYSTEM FOR THE REAL-TIME DETERMINATION OF SIGNALS TO BE SUMMED FROM AMONG A SET OF RECEIVED SIGNALS - A method is provided for the real-time determination of signals to be summed from signals representative of an image portion which are respectively received from detectors belonging to the same optical sensor, the detectors being organized in a matrix formed by rows and columns, the signals to be summed being received on the same column. The method also determines the time during which the detectors must acquire the signals to be summed. The method determines a value representative of a modulation transfer function of at least one lens and/or at least one mirror placed upstream of the optical sensor, and a signal-to-noise ratio of the image portion, based on a location of one of the detectors and on a signal representative of an image portion obtained from the detectors. This representative value is dependent on the number. The method searches for the number and the time maximizing the representative value. | 2014-05-29 |
20140146175 | APPARATUS AND METHOD FOR CONTROLLING HIGH LAMP OF VEHICLE - According to an exemplary embodiment of the present invention, the apparatus for controlling high lamp in a vehicle includes a camera photographing a subject in front of the vehicle, a brightness measurer measuring brightness from an image of the subject in front of the vehicle photographed by the camera, and a controller controlling the high lamp using a brightness data measured by the brightness measurer. | 2014-05-29 |
20140146176 | MOVING BODY DETECTION DEVICE AND MOVING BODY DETECTION METHOD - A moving-body-detecting device is provided with an image capture unit, an image conversion unit, a three-dimensional-object-detecting unit, a turn detecting unit, and a control unit. The image capture unit captures images of the rear side of a vehicle. The image conversion unit performs viewpoint conversion of the captured images into bird's-eye view images. The three-dimensional-object-detecting unit generates differential waveform information based on a differential image of bird's-eye view images taken as different points in time, and detects three-dimensional objects based on the differential waveform information. The control unit suppresses detection of the three-dimensional object based on the differential waveform information, in cases in which turning of the vehicle has been detected as compared with cases in which the vehicle is not turning. | 2014-05-29 |
20140146177 | MOBILE DEVICE WITH PERSONALIZED CONTENT - Methods for automatically buffering and displaying video feeds associated with a live event are described. The video feeds displayed on the mobile device may comprise live video feeds or replays associated with the live event. A replay may comprise a playback of one or more buffered video feeds in a particular sequence and at a particular playback rate. The particular sequence may be determined based on the viewing behavior of the end user of the mobile device and/or the viewing behaviors of one or more other end users using other mobile devices at the live event. In some cases, the replay may comprise a shared replay in which a group of end users attending the live event may interact with each other while sharing a common replay. | 2014-05-29 |
20140146178 | IMAGE PROCESSING APPARATUS AND METHOD USING SMART GLASS - An image processing apparatus using a smart glass is provided, the image processing apparatus including an extractor to extract a first target to be observed by a user from a first image received from the smart glass and generate a second image using the extracted first target, an information collector to collect information related to the first target, and an image generator to reconstruct a third image using at least one of the second image and the information related to the first target, based on user settings. | 2014-05-29 |
20140146179 | CONTROLLER FOR IMAGING TERMINAL - A controller for an imaging terminal having an imaging device and a first displaying device includes a processor and a memory. The memory stores instructions, when executed by the processor, causing the processor to perform: acquiring shot image data, the shot image data being obtained by shooting a second displaying device which is a part of an apparatus, the apparatus being a target device to be shot, the second displaying device being configured to display a specific state image indicative of a current state of the apparatus; acquiring, by analyzing the shot image data, specific identification information for identifying specific relevant information associated with the specific state image; acquiring the specific relevant information by using the specific identification information; and controlling the first displaying device to display the specific relevant information. | 2014-05-29 |
20140146180 | INFRARED THERMAL IMAGING SYSTEM AND METHOD - Systems and methods for configuring an infrared thermal imaging system using a video interface of an electronic device, such as a microcontroller, for example, for sending commands and control information. In one example a an infrared thermal imaging system includes a focal plane array (FPA) of infrared detectors, the FPA being configured to generate an output signal in response to infrared radiation impinging thereupon, read out integrated circuitry (ROIC) operatively coupled to the FPA, and a microcontroller having at least one video display interface operatively coupled to the ROIC, the microcontroller being configured to send data to the ROIC via the at least one video display interface, the data including command data. | 2014-05-29 |
20140146181 | APPARATUS AND METHOD FOR ACQUIRING DIFFERENTIAL IMAGE - An apparatus for acquiring a differential image includes: an image acquiring unit acquiring a first image including environment light from an image sensor of a camera and infrared polarized light from an illuminating unit and a second image including horizontal polarized light of the environment light; an image correcting unit correcting brightnesses of background areas of the first and second images; and a differential image generating unit generating a differential image between the first and second images of which the brightnesses of the background areas are corrected. | 2014-05-29 |
20140146182 | DEVICE AND METHOD FOR DETECTING MOVING OBJECTS - A moving object detection apparatus comprising: an image acquisition device; a first moving object detection device; a difference image generation device; a second moving object detection device for detecting existence/nonexistence of the moving object based on the difference image generated by the difference image generation device; and an integration device for integrating a detection result by the first moving object detection device and a detection result by the second moving object detection device and determining that the moving object is detected in a case where the moving object is not detected by at least the first moving object detection device and the moving object is detected by the second moving object detection device. | 2014-05-29 |
20140146183 | METHODS AND APPARATUS FOR DISPLAYING VIDEO DESPITE A NONFUNCTIONAL OPERATING SYSTEM - A first video messaging service, running on top of an operating system in a data processing system, automatically presents a first video message. After using the first video messaging service to present the first video message, the data processing system automatically determines whether the first video messaging service has become nonfunctional. In response to determining that the first video messaging service has become nonfunctional, the data processing system automatically uses a backup video messaging service to present a second video message. The backup video messaging service operates in a boot environment. In one embodiment, the data processing system is configured to provide digital signage, the first video messaging service presents content for the digital signage when the operating system is operational, and the second video messaging service presents content for the digital signage when the operating system is nonfunctional. Other embodiments are described and claimed. | 2014-05-29 |
20140146184 | Calibration of Plenoptic Imaging Systems - Calibration for plenoptic imaging systems. The calibration preferably is performed automatically by a processor. In one approach, the processor accesses a plenoptic image captured by the plenoptic imaging system. The plenoptic image is analyzed to determine reference points for superpixels of the plenoptic imaging system, for example the centers of the superpixels. The reference points are used to determine a location of each superpixel relative to the detector array. | 2014-05-29 |
20140146185 | METHOD AND SYSTEM FOR GENERATING REAL-TIME MOTION VIDEO - The present invention relates to a method for generating real-time motion video. The method comprises receiving, at a video processing device, calibration data from a memory in an image sensor unit, the calibration data relating to properties of the image sensor unit. The video processing device receiving real-time raw image data from the image sensor unit via a communication cable and a communication protocol. The video processing device processing the real-time raw image data received from the image sensor unit, where the processing includes adjusting received image data based on at least part of the received calibration data and encoding the image data to a predetermined video format, and outputting the processed image data in real time. | 2014-05-29 |
20140146186 | DATA PROCESSING APPARATUS WITH ADAPTIVE COMPRESSION ALGORITHM SELECTION BASED ON VISIBILITY OF COMPRESSION ARTIFACTS FOR DATA COMMUNICATION OVER CAMERA INTERFACE AND RELATED DATA PROCESSING METHOD - A data processing apparatus has a compressor and an output interface. The compressor receives an input multimedia data, and generates an output multimedia data according to the input multimedia data. The output interface packs the output multimedia data into an output bitstream, and outputs the output bitstream via a camera interface. The compressor adaptively adjusts a compression algorithm applied to the input multimedia data according to visibility of compression artifacts. By way of example, the camera interface may be a camera serial interface (CSI) standardized by a Mobile Industry Processor Interface (MIPI). | 2014-05-29 |
20140146187 | DATA PROCESSING APPARATUS FOR CONFIGURING CAMERA INTERFACE BASED ON COMPRESSION CHARACTERISTIC OF COMPRESSED MULTIMEDIA DATA AND RELATED DATA PROCESSING METHOD - A data processing apparatus at a transmitter end has an output interface and a camera controller. The output interface packs a compressed multimedia data into an output bitstream transmitted via a camera interface. The camera controller refers to a compression characteristic of the compressed multimedia data to configure a transmission setting of the output interface over the camera interface. A data processing apparatus at a receiver end has an input interface and a controller. The input interface un-packs an input bitstream received via the camera interface into a compressed multimedia data. The controller configures a reception setting of the input interface over the camera interface in response to a compression characteristic of the compressed multimedia data. In addition, the data processing apparatus at the transmitter end may selectively enable a compression mode by checking the de-compression capability of the data processing apparatus at the receiver end. | 2014-05-29 |
20140146188 | DATA PROCESSING APPARATUS WITH ADAPTIVE COMPRESSION ALGORITHM SELECTION FOR DATA COMMUNICATION BASED ON SENSOR INPUT/SENSOR CONFIGURATION/DISPLAY CONFIGURATION OVER CAMERA INTERFACE AND RELATED DATA PROCESSING METHOD - A data processing apparatus has a compressor and an output interface. The compressor receives an input multimedia data, and generates an output multimedia data according to the input multimedia data. The output interface packs the output multimedia data into an output bitstream, and outputs the output bitstream via a camera interface. The compressor adaptively adjusts a compression algorithm applied to the input multimedia data according to at least one sensor input signal. For example, the at least one sensor input signal is generated from at least one of an ambient light sensor, a proximity sensor, a thermal sensor, an accelerometer, a gyroscope, and a receiver of a global navigation satellite system. Alternatively, the compressor may be configured to adaptively adjust the compression algorithm applied to the input multimedia data according to a sensor configuration of a camera sensor or a display configuration of a display apparatus. | 2014-05-29 |
20140146189 | ELECTRONIC APPARATUS - An electronic system comprising an image pickup unit | 2014-05-29 |
20140146190 | Method And System For Automated Or Manual Evaluation To provide Targeted And Individualized Delivery Of Cosmetic Actives In A Mask Or Patch Form - A system and method are provided for targeted and individualized delivery of multiple skin benefit agents to the skin of a user. The image of a predetermined treatment area of the user's skin is first captured by an imaging device. Selective data input from analysis tools and the end user is then analyzed by a computing device to generate a unique skin profile for the user, which is indicative of the skin conditions at the predetermined treatment area. Based on such skin profile, a printing device prints out one or more cosmetic delivery sheets that can be applied to the predetermined treatment area. Each of the cosmetic delivery sheets contains a substrate with multiple isolate, discrete regions, while at least two of the regions are imprinted with different skin benefit agents for treating different skin conditions of the predetermined treatment area according to the unique skin profile of the user. | 2014-05-29 |
20140146191 | AMOUNT-OF-SHAKE SENSING APPARATUS, IMAGING APPARATUS, AND METHOD FOR DETECTING THE AMOUNT OF SHAKE - The apparatus of the invention is characterized by executing radius-of-rotation calculation operation for calculating a radius of rotation from a velocity change found by time integration of acceleration, and an angular velocity; velocity calculation operation in which during a given time from a start of exposure, velocity is calculated based on the angular velocity and the radius of rotation calculated before the start of exposure, and after a lapse of the given time, the acceleration is cumulatively added to the velocity detected during the given time to calculate the velocity, and amount-of-movement calculation operation for time-integrating the velocity calculated in the velocity calculation operation to calculate the amount of movement. | 2014-05-29 |
20140146192 | ACOUSTIC CONFIGURATION OF A WIRELESS CAMERA - An example wireless camera system includes a camera, a wireless network adapter, an acoustic receiver, and a processor. The camera is configured to acquire image data and the wireless network adapter wirelessly communicates the image data over a wireless network. The acoustic receiver is configured to receive an acoustic signal containing configuration data and the processor configures the network adapter to communicate over the wireless network using the received configuration data of the acoustic signal. | 2014-05-29 |
20140146193 | HANDLE FOR HANDHELD TERMINAL - A handle for a handheld terminal includes a first interface module, a first key module, a first power supply module, and a base handle module. The handle couples with the handheld terminal. The handle makes a wireless connection with the handheld terminal the first interface module or a wired connection with the handheld terminal via the first interface module. The first key module includes one or more user operation command keys. The first power supply module supplies power for the handle. The handle is operable with one hand. | 2014-05-29 |
20140146194 | DATA PROCESSING SYSTEM FOR TRANSMITTING COMPRESSED MULTIMEDIA DATA OVER CAMERA INTERFACE - A data processing system has a first data processing apparatus and a second data processing apparatus. The first data processing apparatus has at least a camera sensor, a compressor and an output interface. The camera sensor generates first input multimedia data. The compressor compresses the first input multimedia data into compressed multimedia data. The output interface packs compressed multimedia data into a bitstream. The second data processing apparatus has at least an input interface, a data access circuit, and a de-compressor. The input interface un-packs the bitstream into second input multimedia data. The data access circuit stores second input multimedia data into a multimedia buffer and reads buffered multimedia data from the multimedia buffer. The de-compressor de-compresses buffered multimedia data. Alternatively, one of the compressor and the decompressor may be implemented in a third data processing apparatus coupled between the first data processing apparatus and the second data processing apparatus. | 2014-05-29 |
20140146195 | DATA PROCESSING APPARATUS FOR TRANSMITTING/RECEIVING COMPRESSION-RELATED INDICATION INFORMATION VIA CAMERA INTERFACE AND RELATED DATA PROCESSING METHOD - A data processing apparatus has a compressor and an output interface. The compressor generates a compressed multimedia data by compressing a multimedia data according to a compression algorithm. The output interface records indication information in an output bitstream, and outputs the output bitstream via a camera interface, wherein the output bitstream is derived from the compressed multimedia data, and the indication information is set in response to the compression algorithm employed by the compressor. Another data processing apparatus has a de-compressor and an input interface. The de-compressor de-compresses a compressed multimedia data derived from an input bitstream. The input interface receives the input bitstream via a camera interface, parses indication information included in the input bitstream, and configures the de-compressor to employ a de-compression algorithm as indicated by the indication information. | 2014-05-29 |
20140146196 | FOCUS DETECTION APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, ANDFOCUS DETECTION METHOD - A focus detection apparatus performs focus detection of a phase difference method by using signals from an image pickup element including a first pixel and a second pixel sharing one micro lens, and the focus detection apparatus includes a first saturation detector configured to detect saturation of a first signal obtained from the first pixel, a second saturation detector configured to detect saturation of a second signal obtained from the second pixel, a luminance generating portion configured to generate luminance signals of the first signal and the second signal after detecting the saturations of the first signal and the second signal are detected, and a processor configured to perform a correlation calculation based on the luminance signals. | 2014-05-29 |
20140146197 | IMAGE PICKUP ELEMENT, IMAGE PICKUP APPARATUS, AND IMAGE PICKUP SYSTEM - An image pickup element includes a first pixel, a second pixel, and a third pixel that share one microlens, a first boundary that is provided between the first pixel and the second pixel, and a second boundary that is provided between the first pixel and the third pixel, and when a charge amount of the first pixel is saturated, a first charge amount from the first pixel to the second pixel via the first boundary is larger than a second charge amount from the first pixel to the third pixel via the second boundary. | 2014-05-29 |
20140146198 | IMAGE PROCESSING DEVICE AND IMAGE PICK-UP DEVICE - Provided is an image processing device that acquires from an input image a high-quality image that is free from halos and features high contrast from a dark image portion to a light image portion of the image. The image processing device ( | 2014-05-29 |
20140146199 | IMAGE PROCESSING METHODS AND SYSTEMS FOR HANDHELD DEVICES - Image processing methods and systems for handheld devices are provided. First, an image effect is determined. Then, a plurality of preview images is continuously captured by an image capture unit of an electronic device. After the respective preview image is captured, the image effect is applied to the preview image, and the preview image applied with the image effect is displayed in a display unit of the electronic device. | 2014-05-29 |
20140146200 | ENTRIES TO AN ELECTRONIC CALENDAR - An example method of entering calendar events into an electronic calendar involves capturing a digital image of a document that contains a written calendar event; analyzing the digital image of the document containing the written calendar event to extract text information appearing on the digital image of the document; matching the extracted text information in the digital image of the written calendar event document to a date in the electronic calendar; and populating the extracted text information to at least one field of the electronic calendar associated with the date. | 2014-05-29 |
20140146201 | OPTIMIZATION OF OPTICAL SYSTEMS FOR IMPROVED LIGHT FIELD CAPTURE AND MANIPULATION - According to various embodiments of the present invention, the optical systems of light field capture devices are optimized so as to improve captured light field image data. Optimizing optical systems of light field capture devices can result in captured light field image data (both still and video) that is cheaper and/or easier to process. Optical systems can be optimized to yield improved quality or resolution when using cheaper processing approaches whose computational costs fit within various processing and/or resource constraints. As such, the optical systems of light field cameras can be optimized to reduce size and/or cost and/or increase the quality of such optical systems. | 2014-05-29 |
20140146202 | METHOD AND APPARATUS FOR TAGGING MEDIA WITH IDENTITY OF CREATOR OR SCENE - An electronic device for contemporaneously obtaining, with a processor connected to a memory, a forward image from a forward facing camera of the electronic device and a rear image from a rear facing camera of the electronic device, and embedding the rear image in the forward image or the forward image in the rear image, thereby creating a composite image. Optionally, the rear image is embedded as a watermark in the forward image thereby creating the composite image. Alternatively, the rear image is steganographically embedded in the forward image thereby creating the composite image. | 2014-05-29 |
20140146203 | IMAGING DEVICE AND IMAGING DEVICE CONTROL METHOD - An imaging device of the present invention comprises a photographing lens for forming a subject image, an imaging section for converting the subject image to image signals and outputting the image signals, a storage section for storing image data obtained based on the image signals output from the storage section, an attitude detection section for detecting an attitude of the imaging device, an image detection section for detecting a face image contained in the image signals, and a storage control section for determining storage start and storage end for the image data, based on detection results of the attitude detection section and detection results of the image detection section. | 2014-05-29 |
20140146204 | METHOD AND APPARATUS FOR TAGGING MEDIA WITH IDENTITY OF CREATOR OR SCENE - An electronic device and method for contemporaneously obtaining, with a processor connected to a memory, a forward image from a forward facing camera of the electronic device and a rear image from a rear facing camera of the electronic device, and embedding the rear image in the forward image or the forward image in the rear image, thereby creating a composite image. Optionally, the rear image is embedded as a watermark in the forward image thereby creating the composite image. Alternatively, the rear image is steganographically embedded in the forward image thereby creating the composite image. | 2014-05-29 |
20140146205 | SYSTEM AND METHOD FOR ADJUSTING ORIENTATION OF CAPTURED VIDEO - Described herein is a system and method for adjusting the orientation of captured video utilizing the data received from a built-in inertial measurement unit such as an accelerometer. During video capture, the device may be held in a position that is not fully vertical or horizontal, and thus not match the true orientation of a scene. This can cause the captured video to appear rotated during playback at the same angle of rotation as the video capture device. The described system can adjust the playback orientation of the rotated video by utilizing sensor data captured during the same time as the video was captured. | 2014-05-29 |
20140146206 | IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - The present technique relates to an imaging device that can reduce color mixing that occurs between an on-chip lens and a photodiode, and a method of manufacturing the imaging device. | 2014-05-29 |
20140146207 | SOLID-STATE IMAGE SENSOR, AND IMAGING SYSTEM - The present technology relates to solid-state image sensor and an imaging system which are capable of providing a solid-state image sensor and an imaging system which are capable of realizing a spectroscopic/imaging device for visible/near-infrared light having a high sensitivity and high wavelength resolution, and of achieving two-dimensional spectrum mapping with high spatial resolution. There are provided a two-dimensional pixel array, and a plurality of types of filters that are arranged facing a pixel region of the two-dimensional pixel array, the filters each including a spectrum function and a periodic fine pattern shorter than a wavelength to be detected, wherein each of the filters forms a unit which is larger than the photoelectric conversion device of each pixel on the two-dimensional pixel array, where one type of filter is arranged for a plurality of adjacent photoelectric conversion device groups, wherein the plurality of types of filters are arranged for adjacent unit groups to form a filter bank, and wherein the filter banks are arranged in a unit of N×M, where N and M are integers of one or more, facing the pixel region of the two-dimensional pixel array. | 2014-05-29 |
20140146208 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC CAMERA - In a solid-state imaging device and an electronic camera, a first substrate of the solid-state imaging device includes first and second photoelectric converting units, a transfer unit that transfers signal charges of the first and second photoelectric converting units to a connector, and a microlens that causes light to be incident on the first and second photoelectric converting unit. A second substrate of the solid-state imaging device includes first and second memory units that hold signal charges transferred from one or the other of the first and second photoelectric converting unit to the connector and an averaging unit that averages the signal charges held in the first memory unit and the signal charge held in the second memory unit. | 2014-05-29 |
20140146209 | PUMPED PINNED PHOTODIODE PIXEL ARRAY - The present invention relates to a pumped pixel that includes a first photo-diode accumulating charge in response to impinging photons, a second photo-diode, and a floating diffusion positioned on a substrate. The pixel also includes a charge barrier positioned on the substrate between the first photo-diode and the second photo-diode, where the charge harrier temporarily blocks charge transfer between the first photo-diode and the second photo-diode. A pump gate may also be formed on the substrate adjacent to the charge barrier. The pump gate pumps the accumulated charge from the first photo-diode to the second photo-diode through the charge barrier. Also included is a transfer gate positioned on the substrate between the second photo-diode and the floating diffusion. The transfer gate serves to transfer the pumped charge from, the second photo-diode to the floating diffusion. | 2014-05-29 |
20140146210 | SOLID STATE IMAGING DEVICES AND METHODS USING SINGLE SLOPE ADC WITH ADJUSTABLE SLOPE RAMP SIGNAL - A solid state imaging device includes a pixel array comprising a plurality of photoelectric conversion devices and an analog to digital conversion (ADC) circuit configured to convert an image signal received from the pixel array to a digital signal responsive to a ramp signal and a gain setting. The solid state imaging device further includes a ramp signal generator circuit configured to generate the ramp signal with a slope that varies responsive to a control signal and a dark level offset compensation circuit configured to generate the control signal responsive to the gain setting and a dark level measurement. | 2014-05-29 |
20140146211 | SOLID-STATE IMAGING DEVICE AND DRIVING METHOD OF SOLID-STATE IMAGING DEVICE - A solid-state imaging device includes: an epilayer; pixel electrodes; a photoelectric converting film formed above the pixel electrodes and converting incident light into electric signals; a transparent electrode formed on the photoelectric converting film; | 2014-05-29 |
20140146212 | PHOTOGRAPHING DEVICE FOR DISPLAYING IMAGE AND METHODS THEREOF - A photographing method of a photographing device is disclosed. The method includes displaying a photographing screen which is divided into a live view area and at least one photographed image area; displaying a photographed image on the at least one photographed image area in response to photographing being performed; and scrolling the at least one photographed image area in a direction corresponding to a scroll gesture of a user in response to the scroll gesture on the photographing screen. | 2014-05-29 |
20140146213 | Image pickup apparatus - Provided is an image pickup apparatus including: an image pickup unit configured to pick up an object image imaged by a lens unit; and a display unit configured to display an image output from the image pickup unit, the display unit detecting a first close condition and a second close condition of a photographer. The display unit displays a first display object indicating a focal point adjustment area on a display image of the object image in response to detection of the first close condition, and displays a second display object indicating a focusing command area on the display image of the object image corresponding to a range of detection of the second close condition. | 2014-05-29 |
20140146214 | IMAGING DEVICE - An imaging device includes a welded part on a lens barrel side that is hardened after a contact portion of a lens barrel or a contact part on the lens barrel side is softened, where the contact portion of the lens barrel and the contact part on the lens barrel side are fixed, and a welded part on a light-receiving circuit side that is hardened after a contact portion of the light-receiving circuit or a contact part on a light-receiving circuit side is softened, where the contact portion of the light-receiving circuit and the contact part on the light-receiving circuit side are fixed. | 2014-05-29 |
20140146215 | IMAGING LENS SYSTEM - An imaging lens system comprises, in order from an object side to an image side: a first lens element with positive refractive power having a convex object-side surface; a second lens element with refractive power; a third lens element with refractive power having object-side and image-side surfaces being aspheric, at least one surface thereof having at least one inflection point; a fourth lens element with refractive power having a concave object-side surface and a convex image-side surface; a fifth lens element with refractive power having an aspheric object-side surface and an aspheric concave image-side surface, the image-side surface thereof having at least one inflection point. | 2014-05-29 |
20140146216 | ZOOM LENS AND IMAGE PICKUP APPARATUS - The zoom lens includes, in order from an object side to an image side, a first lens unit having a positive refractive power, a second lens unit having a negative refractive power, a third lens unit having a positive refractive power, a fourth lens unit having a positive refractive power, and a fifth lens unit having a negative refractive power. During zooming, the second lens unit is not moved and the first, third and fifth lens units are moved. A distance between the first and second lens units at a telephoto end is larger than that at a wide-angle end, a distance between the second and third lens units at the telephoto end is smaller than that at the wide-angle end. A condition of 0.72014-05-29 | |
20140146217 | Zoom Lens and Image Pickup Apparatus Equipped with Same - A zoom lens includes, in order from the object side to the image side along its optical path, a first lens unit having a positive refractive power, a second lens unit having a negative refractive power and including a prism reflecting member, a third lens unit having a positive refractive power, a fourth lens unit having a negative refractive power, and a fifth lens unit having a positive refractive power, wherein the distances between the lens units vary during zooming from the wide angle end to the telephoto end, the first lens unit and the third lens unit are located closer to the ray incidence side at the telephoto end than at the wide angle end, the position of the second lens unit is fixed during zooming from the wide angle end to the telephoto end. | 2014-05-29 |
20140146218 | FOCUS DETECTION APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, FOCUS DETECTION METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - A focus detection apparatus performs focus detection by a phase difference method using an image pickup element including first and second pixels, the focus detection apparatus includes a correlation data calculator which calculates correlation data between pixel data obtained from the first pixels and the second pixels in ranges of image data, a detector which detects a saturated pixel having a level of at least a predetermined value in each of the ranges, an adding processor which performs an addition processing of the correlation data calculated in each of the ranges based on a detection result, and a defocus amount calculator which calculates a defocus amount based on a result of the addition processing, and the adding processor performs the addition processing using correlation data obtained from a first range in which the number of the saturated pixels is less than a predetermined number. | 2014-05-29 |
20140146219 | IMAGING APPARATUS, SEMICONDUCTOR INTEGRATED CIRCUIT, AND IMAGING METHOD - An imaging apparatus includes: an imaging device; a lens optical system including a focus lens for condensing light toward the imaging device; a driving section configured to driving one of the imaging device and the focus lens to change a position to which a focus is adjusted on an object side; a shutter provided at at least one of the imaging device and a position between the lens optical system and the imaging device; and a control unit configured to control the shutter and the driving section, wherein the control unit drives the imaging device or the focus lens such that a focus is adjusted to each of first to third focusing positions of different object distances and controls the shutter and the driving section such that image signals of first to third object images at the first to third focusing positions are obtained by the imaging device. | 2014-05-29 |
20140146220 | FOCUS DETECTION APPARATUS, IMAGE PICKUP APPARATUS, AND FOCUS DETECTION METHOD - A focus detection apparatus includes an image pickup element including first and second pixels that detect light beams passing through different exit pupils in an image pickup optical system, an estimating unit that estimates a moving charge amount between the first and second pixels using first and second luminance signals, a correcting unit that corrects the first and second luminance signals based on an estimation result, a defocus amount calculating unit that obtains a defocus amount by using correction values of the first and second luminance signals, and a focus detecting unit that performs focus detection of a phase difference method using the defocus amount, and the moving charge amount is a charge amount which moves from one to the other of the first and second pixels as a charge amount accumulated in the one of the pixels comes close to a saturated charge amount. | 2014-05-29 |
20140146221 | IMAGE PICKUP APPARATUS, CONTROL METHOD THEREOF, AND PROGRAM - An image pickup apparatus which can perform an AF of a high speed and a high focusing precision by simultaneously realizing a phase difference AF and a contrast AF, decides arrange where a contrast evaluation can be performed on the basis of a correspondence relation between each pixel of an image pickup element which is restricted by pupil division means provided for restricting light of an optical image of an object which enters each pixel of the image pickup element to light from a specific exit pupil area of a photographing lens and the specific exit pupil area of the photographing lens, and decides a focus evaluation value of the object in accordance with the decided range from a contrast focus position or a correlation focus position. | 2014-05-29 |
20140146222 | AUTO-FOCUS METHOD - An auto-focus method to determine an optimum position of a lens module includes defining search boundaries and an allowable difference, randomly sampling current values within the search boundaries d | 2014-05-29 |
20140146223 | OPTICAL ELEMENT CONTROL - Methods, apparatuses and a computer program are provided. An apparatus comprises: one or more optical elements, a first actuator and a second actuator. The first actuator may be configured to drive the one or more optical elements from a rest position across a first displacement, and configured to drive the one or more optical elements from the rest position across a second displacement. The second actuator may be configured to assist the first actuator in controlling movement of the one or more optical elements across a portion, and not all, of the first displacement, and configured to assist the first actuator in controlling movement of the one or more optical elements in the second direction across a portion, and not all, of the second displacement. The first and second actuators may be biased such that, when no electrical power is supplied to the first and second actuators, they bring the one or more optical elements to a rest position from which the one or more optical elements are driven. | 2014-05-29 |
20140146224 | Mobile Terminal Device Having Camera System - The present invention is a camera system which is usable with a mobile terminal. The camera system includes a lens module and at least one mechanism for changing optical properties by interacting with the lens module. The camera system may be built into the mobile terminal or attached thereto as an external module | 2014-05-29 |
20140146225 | STRUCTURE OF A RING FLASH MODULE - The disclosure relates to a flash lighting module for providing flash lighting for a camera of a mobile communication device such as a mobile phone, a smart phone or a tablet computer having a phone communication capability. The flash lighting module includes a relay, at least one driver, and a plurality of light sources; the relay is in serial communication with the driver; the driver is electrically connected to the light sources; the light sources include at least three LEDs which are equidistantly arranged around the camera. | 2014-05-29 |