24th week of 2012 patent applcation highlights part 27 |
Patent application number | Title | Published |
20120147145 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing device includes a distance data analysis unit that analyzes subject distance information with the partial region units of captured images having different viewpoints, and a data generation unit that determines whether a recorded image or an output image is set to a two-dimensional image or set to a three-dimensional image depending on the analysis result, and generates the recorded or output image based on the determination result, wherein the data generation unit determines a recall level of stereoscopic vision in three-dimensional display based on the analysis result, and if it is determined that the recall level of stereoscopic vision is low, generates a two-dimensional image as the recorded or output image, and if it is determined that the recall level of stereoscopic vision is high, generates a three-dimensional image as the recorded or output image. | 2012-06-14 |
20120147146 | THREE DIMENSIONAL CAMERA DEVICE AND METHOD OF CONTROLLING THE SAME - A three dimensional camera device and a method of controlling the same are provided. The three dimensional camera device and the method enable a user to photograph a three dimensional image suitable for a photographing angle. Since a swing hinge rotates a left camera element and a right camera element about a mid-point between the left camera element and the right camera element, a user may photograph a three dimensional image suitable for a photographing angle. | 2012-06-14 |
20120147147 | ILLUMINATION OPTICAL SYSTEM AND 3D IMAGE ACQUISITION APPARATUS INCLUDING THE SAME - An illumination optical system of a 3-dimensional (3D) image acquisition apparatus and a 3D image acquisition apparatus including the illumination optical system. The illumination optical system of a 3D image acquisition apparatus includes a beam shaping element which outputs light having a predetermined cross-sectional shape which is proportional to a field of view of the 3D image acquisition apparatus. The beam shaping element may adjust a shape of illumination light according to its cross-sectional shape. The beam shaping element may uniformly homogenize the illumination light without causing light scattering or absorption. | 2012-06-14 |
20120147148 | IMAGING DEVICE - An imaging device is provided that includes a lens mount, an imaging element, a system controller, a sensor and a rotation corrector. The rotation corrector is configured to reduce change in the positional relationship between the optical image and the imaging element caused by movement of the imaging device around an axis parallel to an optical axis of the lens unit. The lens unit has a first optical system that forms a first optical image from a first perspective on the imaging element and a second optical system that forms a second optical image from a second perspective on the imaging element. The system controller is configured to halt operation of the rotation corrector when the lens unit is supported by the lens mount. | 2012-06-14 |
20120147149 | SYSTEM AND METHOD FOR TRAINING A MODEL IN A PLURALITY OF NON-PERSPECTIVE CAMERAS AND DETERMINING 3D POSE OF AN OBJECT AT RUNTIME WITH THE SAME - This invention provides a system and method for training and performing runtime 3D pose determination of an object using a plurality of camera assemblies in a 3D vision system. The cameras are arranged at different orientations with respect to a scene, so as to acquire contemporaneous images of an object, both at training and runtime. Each of the camera assemblies includes a non-perspective lens that acquires a respective non-perspective image for use in the process. The searched object features in one of the acquired non-perspective image can be used to define the expected location of object features in the second (or subsequent) non-perspective images based upon an affine transform, which is computed based upon at least a subset of the intrinsics and extrinsics of each camera. The locations of features in the second, and subsequent, non-perspective images can be refined by searching within the expected location of those images. This approach can be used in training, to generate the training model, and in runtime operating on acquired images of runtime objects. The non-perspective cameras can employ telecentric lenses. | 2012-06-14 |
20120147150 | ELECTRONIC EQUIPMENT - Electronic equipment is equipped with a distance information generating portion that generates distance information of a subject group. The distance information generating portion includes a first distance detecting portion that detects a distance of the subject group based on a plurality of input images obtained by simultaneously photographing the subject group from different visual points, a second distance detecting portion that detects a distance of the subject group by a detection method different from the detection method of the first distance detecting portion, and a combining portion that generates the distance information based on a detection result of the first distance detecting portion and a detection-result of the second distance detecting portion. | 2012-06-14 |
20120147151 | IMAGE PICKUP APPARATUS - An apparatus has a synchronizing signal generator to which a trigger signal is input and that outputs a first synchronizing signal and a second synchronizing signal based on the trigger signal, an image pickup unit that has an image pickup surface, 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 an image pickup element tilting unit that changes the angle of the image pickup surface relative to the optical axis during a period after the first image picking-up and before the second image picking-up. | 2012-06-14 |
20120147152 | 3D IMAGE GENERATION - A system generating a 3D depth profile of an object, including: a moveable video camera to continually capture 2D image data of the object as the camera moves, to capture plural 2D image frames each including plural pixels; a processor configured to: receive the 2D image data; determine position of the camera when each frame is captured; calculate depth of part of an object shown in a pixel in a first frame with respect to a reference, by identifying the part in at least one further frame and calculating the depth using camera positions of the first image and at least one further image; and determine depth profile of the object, for plural parts of the object shown in the pixels. A display displays the depth profile and indicates in real time, as data is gathered, the parts of the object for which the depth profile has been calculated. | 2012-06-14 |
20120147153 | DISPLAY APPARATUS AND METHOD FOR REAL-TIME RADIATION PATTERN VISUALIZATION - A display apparatus for real-time radiation pattern visualization comprises a positioning module, a radiation pattern measuring module and an image processing module. The positioning module is used to measure a distance of an object from the positioning module and locate the orientation of the object. The radiation pattern measuring module is used to receive radiation of the object. The image processing module is coupled with the positioning module and the radiation pattern measuring module, and processes the radiation to generate a stereoscopic radiation pattern signal. According to the distance and orientation of the object, the stereoscopic radiation pattern signal is displayed in the display interface for engineers in the workplace to estimate the calibration of the real-time radiation pattern. | 2012-06-14 |
20120147154 | Stereoscopic Video Display Apparatus and Method Therefor - According to one embodiment, a stereoscopic video display apparatus of a glasses-less type displays video that is perceived as original stereoscopic video when observed from the predetermined range of the viewing position and as defective stereoscopic video when observed from a position different from the predetermined range of the viewing position. A 3D related controller may insert an information signal that displays a figure, character, mark, or symbol indicating that the viewing position is different from the predetermined range of the viewing position into a signal of the defective stereoscopic video. | 2012-06-14 |
20120147155 | APPARATUS FOR DISPLAYING STEREOSCOPIC IMAGE - According to one embodiment, an apparatus for displaying a stereoscopic image includes an illuminator, a display unit, and an image control element. The illuminator includes a plurality of illumination units. Each illumination unit is configured to emit a plurality of luminous fluxes. Each luminous flux is emitted along one direction differently. The display unit is oppositely located to the illuminator, on which a plurality of sub pixels is arranged. Each sub pixel is configured to display a parallax image corresponding to the luminous flux in one direction. The image control element is oppositely located to the illuminator via the display unit, on which a plurality of apertures is arranged. Each aperture is configured to control a direction of the parallax image. | 2012-06-14 |
20120147156 | DISPLAY CONTROL APPARATUS, DISPLAY CONTROL METHOD, AND PROGRAM - An image processing apparatus according to the present invention that displays a stereoscopic image to a viewer, includes an input unit that inputs image data related to the stereoscopic image, a detection unit that detects a change of a projection amount of the stereoscopic image from the image data input by the input unit, a generation unit that generates the image obtained by suppressing high-frequency components from the stereoscopic image when the change of the projection amount is detected by the detection unit, and a display control unit that displays a video image generated by the generation unit in a display apparatus. | 2012-06-14 |
20120147157 | METHOD AND APPARATUS FOR MANAGING 3D VIDEO CONTENT - In a method of managing 3D video stream, 3D video stream is output to a connected display. The connected display displays the 3D video stream after a delay associated with the connected display. A timing offset is determined based on the delay. The timing offset is operable to be used to synchronize shutter operations of at least one shutter glasses with the presentation of the 3D video stream. A shutter control signal based on a frame start indication from the 3D video stream is transmitted. The frame start indication is operable to be used to determine a frame rate of the 3D video stream, and the shutter control signal is operable to be used to maintain synchronization of the shutter operations of the at least one shutter glasses with the presentation of the 3D video stream at the connected display. | 2012-06-14 |
20120147158 | VIDEO DISPLAY APPARATUS WHICH COLLABORATES WITH THREE-DIMENSIONAL GLASSES FOR PRESENTING STEREOSCOPIC IMAGES AND CONTROL METHOD APPLIED TO THE VIDEO DISPLAY APPARATUS - A control method applied to a video display apparatus collaborating with three-dimensional glasses for presenting stereoscopic images includes sequentially transmitting a first video driving signal and a second video driving signal corresponding to a first video frame to a display screen for respectively driving a first display region and a second display region of the display screen; after transmitting the first video driving signal to the display screen is accomplished, activating a first backlight source of a scanning backlight module during a first period to provide backlight to the first display region driven by the first video driving signal for image display; and after transmitting the second video driving signal to the display screen is accomplished, activating a second backlight source of the scanning backlight module during a second period in order to provide backlight to the second display region driven by the second video driving signal for image display. | 2012-06-14 |
20120147159 | Three-Dimensional Video System, Shutter Glasses and Wireless Transmission Method - A three-dimensional video system includes a panel driving module, a signal transmitter and a shutter glasses. The panel driving module includes a timing controller, and a control unit, for generating a control signal. The signal transmitter is utilized for transmitting a radio frequency control signal according to the control signal. The shutter glasses includes a receiver, a calibrating and selecting unit, for alternating the receiver between a first operating status and a second operating status, and generating a calibration signal according to the received radio frequency control signal, and an LCD glass, for operating according to the calibration signal. | 2012-06-14 |
20120147160 | ADAPTIVE 3-D SHUTTERING DEVICES - Controlling a shuttering device. A method includes detecting from a use environment a set of encoded signals for use in controlling a shuttering device. The set of encoded signals are analyzed to determine an encoding scheme for the set of encoded signals. The encoded signals are prospectively decoded in the environment according to the determined encoding scheme to control the shuttering device. | 2012-06-14 |
20120147161 | STEREOSCOPIC IMAGE DISPLAY AND DRIVING METHOD THEREOF - A stereoscopic image display apparatus and a driving method of the display apparatus are provided. The display apparatus includes a resolution enhancer that calculates an average brightness of first left-eye image data included in an nth (n is a natural number) line of the 3D image data and second left-eye image data included in an n+2th line of the 3D image data to obtain left-eye average data, calculates an average brightness of first right-eye image data included in an n+1th line of the 3D image data and second right-eye image data included in an n+4th line of the 3D image data to obtain right-eye average data, and converts the brightness of the left-eye average data and the right-eye average data into grayscale values. | 2012-06-14 |
20120147162 | METHOD OF DISPLAYING STEREOSCOPIC IMAGE AND DISPLAY APPARATUS FOR PERFORMING THE SAME - A method of displaying a stereoscopic image provides first light having a first wavelength and second light having a second wavelength different from the first wavelength to the a display panel according to left-eye and right-eye images displayed on the display panel. Color correcting data are generated by correcting at least one of left-eye color data corresponding to the left-eye image and right-eye color data corresponding to the right-eye image such that a first color coordinate according to the first light and a second color coordinate according to the second light coincide with each other with respect to the same color. The left-eye and right-eye images are displayed using light having wavelengths different from each other, so that a display quality of the stereoscopic image may be enhanced. | 2012-06-14 |
20120147163 | METHODS AND SYSTEMS FOR CREATING AUGMENTED REALITY FOR COLOR BLINDNESS - In an embodiment, an image is provided to an augmented reality application program. The program detects colors and modifies the image. In particular, the program may analyze an image of a scene provided by a camera of a portable electronic device that may be problematic for color challenged users. It then modifies one or more colors such that a color challenged user viewing the altered image may perceive the scene colors as the colors would be perceived by a non-color challenged user viewing the scene. | 2012-06-14 |
20120147164 | ENDOSCOPE OBJECTIVE LENS UNIT AND ENDOSCOPE - An endoscope objective lens unit includes a front lens group and a rear lens group with a diaphragm interposed therebetween. The front lens group includes a first lens and a second lens, and the rear lens group includes a third lens, a fourth lens and a fifth lens. The endoscope objective lens unit satisfies following expressions (1A) to (4): (1A) −32012-06-14 | |
20120147165 | CONTROL DEVICE, ENDOSCOPE APPARATUS, AND FOCUS CONTROL METHOD - A control device includes an image acquisition section and a focus control section. The image acquisition section acquires an image captured by an imaging section. The focus control section performs a focus control process that focuses the imaging section on an object based on the acquired image. The focus control section performs the focus control process based on an image for which occurrence of a bright spot is suppressed. | 2012-06-14 |
20120147166 | ENDOSCOPE APPARATUS - An endoscope apparatus is provided for which a user does not need to adjust irradiation light quantity intentionally while confirming a captured image. A captured image which is bright and has stable tint can be obtained without being limited by an imaging distance with respect to the observation of the structure or components of living bodies. The endoscope apparatus includes a first light source section, a second light source section, a light source control unit which controls the irradiation and irradiation light quantity, an imaging unit which obtains a captured image, luminance value calculating unit which calculates the luminance value, a light source light quantity changing unit which changes the irradiation light quantity according to the luminance value, a white balance adjustment value calculating unit which calculates a white balance adjustment value, and a gain adjusting unit which adjusts the gain of the imaging unit. | 2012-06-14 |
20120147167 | FACIAL RECOGNITION USING A SPHERICITY METRIC - A facial recognition system and a method for performing facial recognition are provided. The facial recognition system includes a memory configured to store a target data set identifying a plurality of predefined points on a face of a target and a processor. The processor may be configured to receive an arbitrary number of photographs including a face of a subject, each of the photographs being at an arbitrary angle and at an arbitrary distance from the subject, create a subject data set identifying the plurality of predefined points on the subject's face based upon the received photographs, and perform facial recognition on the subject data set by comparing the subject data set to the target data set. | 2012-06-14 |
20120147168 | OPTICAL STRUCTURE FOR ACQUIRING FINGERPRINT IMAGE - An optical structure for acquiring a fingerprint image with high resolution and minimum distortion is provided. The optical structure includes a prism configured to comprise an input surface to which light is irradiated, a contact surface formed horizontally to be in contact with a finger, and an output surface through which the light that has been irradiated to the input surface and reflected from the finger in contact with the contact surface passes; a lighting unit configured to emit a beam to the input surface of the prism; a reflector unit configured to reflect a fingerprint image passing through the output surface of the prism; a lens unit configured to comprise two or more lenses, each being configured to receive the fingerprint image reflected from the reflector unit; and an image sensor on which the fingerprint image passing through the lens unit is formed. | 2012-06-14 |
20120147169 | APPARATUS AND METHOD TO MONITOR CUSTOMER DEMOGRAPHICS IN A VENUE OR SIMILAR FACILITY - A venue monitoring and reporting system includes a network, a central server in data communication with the network, a customer device in data communication with the network, a local server in data communication with the network, the local server located at a venue remote from the central server, at least one camera in data communication with the local server, the at least one camera positioned to view a customer as the customer enters the venue, and wherein the central server, the customer device and the local server cooperate with the network to use images captured by the at least one camera to produce at least one of a total number of customers at the venue or a demographic characteristic of the customers at the venue, wherein the total number of the customers or the demographic characteristic of the customers at the venue is made viewable on the customer device. | 2012-06-14 |
20120147170 | IMAGING METHOD AND IMAGING DEVICE - Disclosed herein is an imaging method including: by an imaging device, detecting a user that can be present in a predetermined area; calculating three-dimensional coordinates of an eye and a hand of the detected the user; determining an imaging range on a basis of the calculated the three-dimensional coordinates of the eye and the hand of the user; and imaging the determined the imaging range. | 2012-06-14 |
20120147171 | METHOD FOR MEASURING VIA BOTTOM PROFILE - A method for measuring a via bottom profile is disclosed for obtaining a profile of a bottom of a via in a front side of a substrate. In this method, an infrared (IR) light source is transmitted from the back of the substrate to the bottom of the via through an objective by using an IR-microscope, and lights scattered from the bottom of the via are acquired by an image capturing device to generate an image, where the image displays a diameter ( | 2012-06-14 |
20120147172 | IMAGE PROCESSOR, IMAGE PROCESSING METHOD, PROGRAM AND MICROSCOPE - An image processor, a program and a microscope enable a TIRF image and a confocal image to be superposed simply and accurately. A reference point detection unit | 2012-06-14 |
20120147173 | HAND-CARRYABLE PUSHROD-BASED CAMERA SYSTEM - A hand-carryable pushrod-based camera system includes a storage cage rotatably supported on a manually-graspable handle, a semi-rigid pushrod having a distal end, at least a portion of the pushrod being coiled within the storage cage, an image monitor supported on the handle, a camera comprising an illumination system, the camera being supported on the distal end of the pushrod and being capable of capturing at least one of video and still images; and a cable extending along and supported by the pushrod, the cable comprising a first conductor carrying a power signal to the camera and a second conductor carrying an image signal from the camera to the image monitor. The cable may include no more than four conductors in a low-voltage system. The camera system may include a port permitting physical detachment of the image monitor, and a controller board wirelessly communicating image signals to the image monitor. | 2012-06-14 |
20120147174 | ANALYSIS DEVICE AND METHOD FOR ANALYZING A THERMOFORMING PROCESS IN A THERMOFORMING LAMINATING DEVICE - The present invention relates to an analysis device ( | 2012-06-14 |
20120147175 | METHOD FOR PRODUCING COMPOSITE MATERIAL COMPONENTS, DEVICE FOR PRODUCING COMPOSITE MATERIAL COMPONENTS, AND INSPECTION DEVICE - A method for producing composite material components is provided with a process of laminating fiber-reinforced plastic tape. The method includes, at a plurality of sites from an attachment starting site to an attachment ending site of a first fiber-reinforced plastic tape, determining an attachment state of the first fiber-reinforced plastic tape during lamination of the fiber-reinforced plastic tape. The lamination is stopped when it is determined that the first fiber-reinforced plastic tape overlaps with a second fiber-reinforced plastic tape at a first site of the plurality of sites and that a gap exists between the first fiber-reinforced plastic tape and the second fiber-reinforced plastic tape at a second site of the plurality of sites. And, the lamination is continued when it is determined that the first fiber-reinforced plastic tape overlaps with the second fiber-reinforced plastic tape at all of the plurality of sites. | 2012-06-14 |
20120147176 | ADAPTATION FOR CLEAR PATH DETECTION WITH ADDITIONAL CLASSIFIERS - A method and system for vehicular clear path detection using adaptive machine learning techniques including additional classifiers. Digital camera images are segmented into patches, from which characteristic features are extracted representing attributes such as color and texture. The patch features are analyzed by a Support Vector Machine (SVM) or other machine learning classifier, which has been previously trained to recognize clear path image regions. For image regions or patches which result in a low confidence value, an additional classifier can be used, where the additional classifier is adaptively trained using real world test samples which were previously classified with high confidence as clear path roadway. Output from the original, offline trained classifier and the additional, adaptively-updated classifier are then used to make a joint decision about clear path existence in subsequent image patches. | 2012-06-14 |
20120147177 | WEB MONITORING SYSTEM - A method for identifying defects in a web of material is provided. The method may include monitoring one or more characteristics of a web translating along a travel path. The one or more characteristics may include one of position, speed of travel, and direction of travel. The method may include identifying a candidate for a defect by detecting one or more deviations in the web at a first time frame. The method may include monitoring one or more characteristics of the candidate for a defect at one or more subsequent time frames. The method may include determining whether the candidate is a defect by comparing the one or more characteristics of the candidate at one or more subsequent time frames to the one or more characteristics of the web. A related system is also provided. | 2012-06-14 |
20120147178 | HEATABLE GLAZING INSPECTION - A method of inspecting a heatable glazing is disclosed. A heatable glazing comprises a heater array having at least one heater wire. The method comprises the steps of (i) illuminating the heatable glazing with a light source to produce a shadowgraph image of the heatable glazing; (ii) passing a sufficiently high electrical current through the heater array such that the heater wire is observable in the shadowgraph image of the heatable glazing, such a shadowgraph image of the heatable glazing being referred to as an active shadowgraph image of the heatable glazing; and (iii) capturing the active shadowgraph image of the heatable glazing with an imaging sensor. Apparatus for carrying out the method is also disclosed. | 2012-06-14 |
20120147179 | METHOD AND SYSTEM FOR PROVIDING INTELLIGENT ACCESS MONITORING, INTELLIGENT ACCESS MONITORING APPARATUS - A system for intelligent access monitoring includes: an access control apparatus for detecting and managing an access of a visitor, the access control apparatus generating a access event information when detecting the access; a video security apparatus for managing an video information and a location information of the visitor; and an access monitoring apparatus for receiving the access event information, the video information and the location information via a network, generating a access monitoring profile information based on the access event information, and generating a mapping information where the access monitoring profile information is mapped with the video information and the location information. | 2012-06-14 |
20120147180 | METHOD AND SYSTEM FOR PROVIDING INTERFACE COMPATIBILITY BETWEEN DEVICES IN SYSTEM - A video surveillance system provides interface compatibility. The system includes a plurality of security devices connected to a network and configured to collect video data, a security server configured to make a connection request to a target security device to monitor the video data collected by the target security device, and an interface conversion server configured to convert the connection request in conformity to an interface of the target security device. The interface conversion server is further configured to convert the video data collected by the target security device having a non-standard interface in conformity to a standard interface in order for the security server to monitor the collected video data. | 2012-06-14 |
20120147181 | MEANS AND METHOD FOR ASSISTING INSTALLATION OF MONITORING CAMERA - A monitoring camera includes at least one emitter of perceivable signals, a tilt sensor arranged to generate a signal representing a tilt value indicating a tilting angle of the monitoring camera, and an emitter driver arranged to drive the at least one emitter of perceivable signals in response to an adjustment indicating signal which is based on the tilt value signal. The monitoring camera may be arranged to perform a method including entering the camera into an installation mode, generating a tilt value signal at a tilt sensor within the monitoring camera, and indicating by means of at least one emitter of perceivable signals whether the monitoring camera is positioned in a desirable tilt or not based on the generated tilt value signal. The method may further include exiting the installation mode and entering into monitoring mode when satisfactory tilt is achieved. | 2012-06-14 |
20120147182 | METHOD TO MONITOR AN AREA - A method to monitor an area ( | 2012-06-14 |
20120147183 | OMNIDIRECTIONAL IMAGING SYSTEM - To enable an image with no blind spot area to be obtained while ensuring a wide field of view, an omnidirectional imaging system includes: a primary mirror ( | 2012-06-14 |
20120147184 | Wireless Network Camera Systems - Apparatus, systems and techniques associated with battery powered wireless camera systems. One aspect of the subject matter described in this specification can be embodied in a system that includes a battery powered wireless camera including an internal battery to provide energy and a burst transmission unit to transmit information during burst periods. The system includes a base station, separated from the battery powered wireless camera, in wireless communication with the battery powered wireless camera to receive information from the battery powered wireless camera. The base station is configured to process the received information and includes a web server to transmit the processed information to a client. Other embodiments of this aspect include corresponding systems, apparatus, and computer program products. | 2012-06-14 |
20120147185 | MECHANICAL DEVICE FOR SWITCHING AN OPTICAL LENS FILTER FOR A CAMERA - A camera having a mechanical device for selectively inserting an optical lens filter housed therein. The lens filter may be a day optical filter and a night optical filter selectively inserted into an optical path of the camera in accordance with light intensity and/or a signal from a user or timer. The device for switching an optical lens filter may include a series of gears and a filter bracket slidably disposed within a housing, which moves between a first position and a second position in order to selectively insert at least one optical lens filter into the optical path of the camera. | 2012-06-14 |
20120147186 | SYSTEM AND METHOD FOR RECORDING TRACK OF VEHICLES AND ACQUIRING ROAD CONDITIONS USING THE RECORDED TRACKS - An image recording device mounted to a vehicle includes an imaging unit for capturing a sequence of images including an image of a road that the vehicle is running and circumstances around the road by taking photographs; an image management unit for storing the captured images in a recording medium and for extracting a target image corresponding to a request for image transmission from the recording medium; and a communication unit for receiving the request for image transmission and for transmitting the extracted images to the external entity. | 2012-06-14 |
20120147187 | VEHICLE DETECTION DEVICE AND VEHICLE DETECTION METHOD - A vehicle detection device having an imaging device to capture two respective polarized images from two polarized light beams having different polarization directions contained in light received from an imaging area including a road surface on which one's own vehicle is traveling and a vehicle traveling on the road surface and a polarization difference calculation device to calculate a polarization difference indicating the ratio of a luminance difference between the two respective polarized images to the luminance total thereof for respective identification processing areas formed by dividing the two respective polarized images taken by the imaging device, and a vehicle area detection device to conduct a vehicle area detection process of detecting a vehicle area displaying the vehicle in the imaging area based on the polarization difference of the respective identification processing areas calculated by the polarization difference calculation device. | 2012-06-14 |
20120147188 | VEHICLE VICINITY MONITORING APPARATUS - A vehicle vicinity monitoring apparatus detects a bicycle rider from infrared images. The vehicle vicinity monitoring apparatus converts the infrared images into binarized images, and calculates correlated errors of areas from a reference template. The vehicle vicinity monitoring apparatus judges an object of interest as the bicycle rider when the amplitude of the correlated errors changes periodically. | 2012-06-14 |
20120147189 | ADAPTATION FOR CLEAR PATH DETECTION USING RELIABLE LOCAL MODEL UPDATING - A method and system for vehicular clear path detection using adaptive machine learning techniques including reliable local model updating. Digital camera images are segmented into patches, from which characteristic features are extracted representing attributes such as color and texture. The patch features are analyzed by a Support Vector Machine (SVM) or other machine learning classifier, which has been previously trained to recognize clear path image regions. The SVM classifier is adaptively updated using reliable local test samples, such as positive clear path samples which just passed by the vehicle. The resultant classifier, being continuously and adaptively updated with recent, reliable training samples, exhibits improved performance and accuracy in analyzing subsequent image regions or patches for the existence of a clear driving path. | 2012-06-14 |
20120147190 | VEHICLE IDENTIFICATION, TRACKING AND ENFORCEMENT SYSTEM - A method for capturing and displaying vehicle undercarriage images comprising detecting a vehicle's presence, acquiring an image of the vehicle using a first camera, acquiring scene images associated with the vehicle using one or more second cameras, wherein the first camera and the one or more second cameras are controlled by a processor, and wherein the processor is connected to a network, transmitting the vehicle image and the scene images to one or more systems through the network, storing the vehicle image and the scene images in a relational database connected to the network and displaying the vehicle image and the scene images to an operator. | 2012-06-14 |
20120147191 | SYSTEM AND METHOD FOR LOCATING A TARGET WITH A NETWORK OF CAMERAS - The present invention relates to a system, a method and an intelligent camera for following at least one target (X) with at least one intelligent camera (S) comprising means (S | 2012-06-14 |
20120147192 | VIDEO CAMERA SYSTEM - A video camera and computer system for detecting events comprising: a processor in communication with a plurality of sensors and a camera over a communications network. The processor receives multiple data streams from the sensors, analyses the received data streams to detect an event and sends a trigger to the camera to capture video footage when an event is detected. Upon an event or alert, the processor: generates an event description associated with the detected event based on the data streams or the alert from the camera, links the generated description with an identifier of the captured video footage associated with the event, and stores the linked description and identifier to facilitate searching and retrieval of the captured video footage associated with the detected event. | 2012-06-14 |
20120147193 | Back Panel for a Portable Electronic Device with Different Camera Lens Options - A portable electronic device includes a digital imaging subsystem with a lens having an optical axis. A case encloses and supports the digital imaging subsystem in a first defined positional relationship to the case. A removable panel is coupled to the case and held in a second defined positional relationship to the case that covers the digital imaging subsystem without the removable panel being directly connected to the digital imaging subsystem. An optical component is supported by the removable panel such that the optical component is aligned with the optical axis and alters optical characteristics of the digital imaging subsystem. The device may include a power supply and an electronic control system coupled to the digital imaging subsystem and the power supply enclosed in and supported by the case. Electrical connectors may couple the power supply and the electronic control system to an electrical component on the removable panel. | 2012-06-14 |
20120147194 | DETERMINING A TOTAL NUMBER OF PEOPLE IN AN IR IMAGE OBTAINED VIA AN IR IMAGING SYSTEM - What is disclosed is a novel system and method for determining the number of persons in an IR image obtained using an IR imaging system. The present method separates a human from the surrounding background via a set of particularly formed intensity ratios. Quantities derived from these ratios and threshold values are used to selectively classify whether a pixel in the IR image is from a human or from a non-human. Based upon the classification of the various pixels in the IR image, the number of persons is determined. Various embodiments are disclosed. | 2012-06-14 |
20120147195 | DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - Disclosed is a display device which facilitates to prevent an abnormal display during a driving mode conversion, an abnormal signal input, and a no-signal input, and a method for driving the same, wherein the display device comprises a video controller for detecting an abnormal signal input and no-signal input by monitoring video data and control signals inputted from the external; and generating video data and control signals according to the abnormal signal input and no-signal input so as to enable a normal end of a frame; a timing controller for arranging and outputting the video data, supplied from the video controller, for every frame unit; and generating and outputting control signals for controlling a gate driver and a data driver by the use of timing synchronous signals; and a display panel for displaying image by the use of input video data. | 2012-06-14 |
20120147196 | CALIBRATION METHOD AND APPARATUS FOR OPTICAL IMAGING LENS SYSTEM WITH DOUBLE OPTICAL PATHS - This invention provides a calibration method and a corresponding apparatus for optical imaging lens system with double optical paths. The apparatus for optical imaging lens system with double optical paths comprises a first optical subsystem, a second optical subsystem and a calibration module. The calibration module receives a first image data from the first optical subsystem and a second image data from the second optical subsystem. The calibration module calibrates the first image data according to at least one selected optical parameter of the second optical subsystem, and calibrates the second image data according to at least one selected optical parameter of the first optical subsystem. The selected optical parameters of the first optical subsystem and the second optical subsystem are different. | 2012-06-14 |
20120147197 | METHOD AND DIGITAL VIDEO CAMERA FOR IMPROVING THE IMAGE QUALITY OF IMAGES IN A VIDEO IMAGE STREAM - A digital video camera performs a method to improve the image quality of captured images in a video image stream. The method includes capturing a first subset of images, outputting the images of the first subset of images as the video image stream, moving an image sensor and/or a lens of the digital video camera from a respective normal position to a respective test position before capturing an image of a second subset of images. The digital video camera captures a second subset of images interspersed with the first subset of images, compares image quality of the first subset of images with an image of the second subset of images, and determines if the image of the second subset of images exhibits improved image quality as compared with the image of the first subset of images. If so, an image quality improvement operation is initiated. | 2012-06-14 |
20120147198 | RADIOMETRIC CALIBRATION FROM NOISE DISTRIBUTIONS - Technologies that enable correcting for the non-linear relationship between scene irradiance and digital pixel intensity values of an image of the scene produced by a camera. Imaging noise is used as a signal from which a corrective function is derived. Noise distributions from the image are evaluated to determine the radiometric response function of the camera, from which an inverse response function is computed and used for calibration. | 2012-06-14 |
20120147199 | WIRELESS SERVICE WITH PHOTO PRINT FEATURE - A method includes receiving a digital photograph from a wireless device associated with a subscriber to a wireless service, printing at least one print of the digital photograph, transferring the at least one print of the digital photograph to the subscriber of the wireless service, and billing the subscriber of the wireless service for the at least one print of the digital photograph on a bill which also bills the subscriber of the wireless service for use of the wireless service. | 2012-06-14 |
20120147200 | IMAGE DISPLAYING APPARATUS, IMAGE DISPLAYING SYSTEM, IMAGE DISPLAYING METHOD AND IMAGE DISPLAYING PROGRAM - The present disclosure provides an image displaying apparatus connected to a first camera and a second camera, on both of which pan/tilt control can be carried out, the image displaying apparatus including: an information acquisition section for acquiring information used for moving a display area over a virtual area obtained by combining a first area with a second area by making the first and second areas adjacent to each other; a control section for monitoring the position of the display area in the virtual area, requesting the first camera to carry out pan/tilt operations when the display area is positioned in the first area before and after a movement of the display area, and requesting the second camera to carry out pan/tilt operations when the display area has been moved from the first area to the boundary with the second area; and an image displaying section for displaying an image. | 2012-06-14 |
20120147201 | IMAGING APPARATUS AND SHUTTER OPERATION CORRECTING METHOD - An imaging apparatus includes: an imaging device that includes a plurality of pixels; a first curtain that travels to block incidence of light on the imaging device; a reset unit that sequentially reset-scans lines of the imaging device earlier than the traveling of the first curtain; and a correction controller that corrects a line reset-scanning time of the reset unit on the basis of a movement amount of the imaging device having been made to move on the basis of a camera shake detection result. | 2012-06-14 |
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. | 2012-06-14 |
20120147203 | TECHNIQUES FOR PROVIDING IMPROVED PERPETRATOR IMAGING - Techniques for providing improved perpetrator imaging are disclosed. In one particular exemplary embodiment, the techniques may be realized as a method for providing improved perpetrator imaging comprising identifying a client device as at least one of lost and stolen, detecting, on the client device, a difference in first pixel data associated with a first frame of a visual image and second pixel data associated with a second frame of the visual image, and capturing, on the client device, a plurality of photographs in response to detecting the difference. | 2012-06-14 |
20120147204 | IMAGE PICKUP DEVICE AND METHOD OF PICKING UP IMAGE USING THE SAME - An image pickup device includes an image processing unit which processes an image input through the plurality of image pickup units, a plurality of microphones which are spaced apart from each other, an audio processing unit which senses a voice of a photographer using the plurality of microphones, and a control unit which, when the voice of a photographer is sensed through the audio processing unit, controls the image processing unit to combine an image of an image pickup unit corresponding to a location of the photographer with an image of an image pickup unit currently performing photographing. | 2012-06-14 |
20120147205 | SYSTEMS AND METHODS FOR SYNTHESIZING HIGH RESOLUTION IMAGES USING SUPER-RESOLUTION PROCESSES - Systems and methods in accordance with embodiments of the invention are disclosed that use super-resolution (SR) processes to use information from a plurality of low resolution (LR) images captured by an array camera to produce a synthesized higher resolution image. One embodiment includes obtaining input images using the plurality of imagers, using a microprocessor to determine an initial estimate of at least a portion of a high resolution image using a plurality of pixels from the input images, and using a microprocessor to determine a high resolution image that when mapped through the forward imaging transformation matches the input images to within at least one predetermined criterion using the initial estimate of at least a portion of the high resolution image. In addition, each forward imaging transformation corresponds to the manner in which each imager in the imaging array generate the input images, and the high resolution image synthesized by the microprocessor has a resolution that is greater than any of the input images. | 2012-06-14 |
20120147206 | IMAGE PROCESSING DEVICE AND COMPUTER READABLE MEDIUM - An image processing device includes a dimension information acquisition unit that acquires dimension information specifying dimensions of a target image formed by extracting a region of a target of an image containing the target, picked up by image pickup unit. The image processing device further includes a pickup image quality information acquisition unit that acquires pickup image quality information indicating an image quality of the region of the target in the pickup image picked up by the image pickup unit; and a resolution acquisition unit that acquires a resolution of the region of the target when the region of the target is formed in the dimensions based on the dimension information and the pickup image quality information. | 2012-06-14 |
20120147207 | SOLID-STATE IMAGING DEVICE AND MANUFACTURING METHOD THEREOF, AND ELECTRONIC APPARATUS - A solid-state imaging device includes a supporting substrate that includes a concave portion, a solid-state imaging chip that is bonded on the supporting substrate so as to seal the concave portion in a view-angle region, a stress film that is formed on the surface of the solid-state imaging chip, and an imaging surface curved toward the concave portion at least in the view-angle region. | 2012-06-14 |
20120147208 | Solid-state imaging device, manufacturing method thereof, and electronic apparatus - A solid-state imaging device includes a light blocking layer formed in an active pixel region of a pixel region on a light incident side so as to surround a photoelectric conversion unit of each pixel and formed in an extending manner to an optical black region, a concave portion formed so as to be surrounded by the light blocking layer in a region corresponding to the photoelectric conversion unit, a first refractive index layer formed on surfaces of the light blocking layer and the concave portion and having a relatively low refractive index, a second refractive index layer formed on the first refractive index layer so as to be buried in the concave portion and having a relatively high refractive index, and an anti-flare layer formed on the first refractive index layer in the optical black region. | 2012-06-14 |
20120147209 | SOLID-STATE IMAGE CAPTURING DEVICE, AND IMAGE CAPTURING APPARATUS - A solid-state image capturing device includes: a pixel array including a plurality of two-dimensionally arrayed pixels; a row scanning circuit that performs row scanning to sequentially select a row; a column ADC circuit that simultaneously converts analog pixel signals output from the plurality of pixels belonging to a row selected by the row scanning circuit into pieces of digital pixel data; a column digital memory that stores pixel data of one row therein; and a one-line compression circuit that sequentially performs compression coding to pixel data output from the column digital memory. In the solid-state image capturing device, when performing the compression coding to the pixel data, the one-line compression circuit refers to pixel data belonging to a row identical to that of the pixel data in question while not referring to pixel data belonging to a row different from that of the pixel data in question. | 2012-06-14 |
20120147210 | IMAGE SIGNAL PROCESSING DEVICE AND SOLID-STATE IMAGING DEVICE - According to the embodiment, a feedback clamp circuit is included, which increases or decreases a clamp parameter so that a black level approaches a target value while controlling a change amount of the clamp parameter, which sets the black level, based on the black level read out from OB pixels. | 2012-06-14 |
20120147211 | AUTO WHITE BALANCE ADJUSTMENT SYSTEM, AUTO WHITE BALANCE ADJUSTMENT METHOD, AND CAMERA MODULE - According to one embodiment, an auto white balance adjustment system includes a first color judgment gate generation unit and a second color judgment gate generation unit. The second color judgment gate generation unit defines a color-temperature range subject to a white balance adjustment for each light source. The color judgment gate switch unit switches between the first color judgment gate and the second color judgment gate, as a reference for selecting pixel data used for calculating the white balance gain. | 2012-06-14 |
20120147212 | IMAGING APPARATUS AND METHOD OF CONTROLLING IMAGING APPARATUS - An imaging apparatus includes: an imaging optical system having an aperture; an imaging device that outputs an image signal; an electronic shading processing portion that adds an electronic shading to a photographic image corresponding to the image signal; and a control portion which determines whether or not an optical shading can be added to the photographic image based on the imaging condition, the control portion controlling the aperture and adding the optical shading when the optical shading can be added, and the control portion controlling the electronic shading processing portion and adding the electronic shading when it is difficult to add the optical shading. | 2012-06-14 |
20120147213 | White Balance Correction In A Captured Digital Image - A method for correcting white balance in a captured digital image includes storing raw sensor data representative of the captured digital image in a memory and normalizing the raw sensor data by applying an illuminant-independent shading and vignetting correction to the raw sensor data. The method continues with applying a plurality of illuminant-dependent shading and vignetting correction masks to the raw sensor data and comparing the illuminant-dependent shading and vignetting correction result with the illuminant-independent shading and vignetting correction result. | 2012-06-14 |
20120147214 | IMAGING APPARATUS, CONTROL METHOD OF THE APPARATUS, AND PROGRAM - An imaging apparatus for capturing images, and arranging a plurality of captured images in a plurality of pages of an electronic document receives instructions for starting and cancelling a predetermined grouping status in response to operations of a user, stores and associates the captured images acquired in the predetermined status with the image frames in the same page among the plurality of pages, and stores the data. | 2012-06-14 |
20120147215 | ERRONEOUS ERASURE DETERMINATION APPARATUS, METHOD AND COMPUTER PROGRAM PRODUCT, AND IMAGE GENERATION APPARATUS - An image file generation apparatus includes an identification unit for identifying two or more image data desired to be recorded in a multi-page format in which a plurality of image data is recorded in a single image file, and an image file generation unit for generating a single image file by recording auxiliary information at a known position of a header of an image file which indicates that the image file is recorded in the multi-page format, and for recording the two or more image data identified by the identification unit delimited by a specific identifier between each image data. | 2012-06-14 |
20120147216 | METHOD AND SYSTEM FOR STORING MULTIPLE GEO-TAGGED MEDIA FILES AND RENDERING THE SAME - A method and apparatus for organizing a geographically tagged media file, the method obtaining geographical information for the media file; identifying a subfolder for the media file; and placing the media file in the identified subfolder. Also, a method and apparatus for utilizing an album of geographically tagged media files within a media application, the method allowing a third party application access to the geographically tagged media files; and upon selection of the third party application within the media application, launching the third party application populated with the album of geographically tagged media files. | 2012-06-14 |
20120147217 | METHOD AND APPARATUS FOR AUTOMATICALLY CATEGORIZING IMAGES IN A DIGITAL CAMERA - A method and apparatus for automatically categorizing images in a digital camera is provided. In one aspect, image data is captured by a digital camera. Image data analysis is performed on the captured image data by the digital camera to automatically generate a category tag to which the captured image data may relate. The generated category tag is stored in association with the captured image data for categorizing the captured image data. | 2012-06-14 |
20120147218 | INFORMATION REGISTRATION SYSTEM, INFORMATION REGISTRATION METHOD, REGISTRATION APPARATUS, AND IMAGE PICKUP APPARATUS - A registration apparatus obtains, from an image pickup apparatus, identification information set in a lens apparatus that is attached to the image pickup apparatus. The registration apparatus pre-stores lens information including information that identifies the models of lens apparatuses and corresponding correction information, such that the lens information can be referenced by identification information. The registration apparatus displays a list of the stored lens apparatus models in a confirmation window such that the models of lens apparatuses corresponding to obtained identification information can be distinguished from the models of other lens apparatuses. | 2012-06-14 |
20120147219 | INTEGRATED DIGITAL DEVICE AND DISPLAYING METHOD USING THE SAME - An integrated digital device and a displaying method are provided. The integrated digital device includes a display unit displaying a plurality of setup information items. A plurality of input keys positioned in the vicinity of the plurality of setup information items, respectively, are displayed on the display unit. A mode input unit selecting one among a plurality of modes in which different digital device functions are performed and a modifier modifying at least one of the setup information items according to at least one among the mode selected by the mode input unit and an input from at least one of the input keys. | 2012-06-14 |
20120147220 | DIGITAL IMAGE PROCESSING APPARATUS FOR QUICKLY ENTERING INTO REPRODUCTION MODE AND METHOD OF CONTROLLING THE SAME - A method of controlling a digital image signal processing apparatus includes generating quick view image data corresponding to input image data, storing the quick view image data in a first area of a memory, entering into a reproduction mode, determining whether image signal processing performed on the input image data has been completed, and if it is determined that the image signal processing has not been completed in the reproduction mode, displaying a display image corresponding to the quick view image data stored in the first area of the memory. | 2012-06-14 |
20120147221 | IMAGE RECORDING APPARATUS AND CONTROL METHOD - In a case where a position information acquisition setting unit sets to acquire position information and in a case where a determination unit determines that the image data recorded in a recording medium is automatically transmitted to an external device, a transmission setting confirmation screen is displayed, so that the image data to which the position information is attached is prevented from being transmitted to the external device while the user does not intend to do so. | 2012-06-14 |
20120147222 | IMAGE PICKUP APPARATUS HAVING ZOOM FUNCTION - An image pickup apparatus that is capable of changing a zoom speed in a wide range in accordance with an amount of movement of a zoom lever without oversizing the zoom lever, and has excellent operability of the zoom lever. An amount of change of zoom speed relative to an amount of movement of the zoom lever during when the zoom lever is operated from a first neutral position in a first or second direction differs from that during when the zoom lever is operated from a second neutral position in the first or second direction. Thus, the zoom speed can be varied in a wide range according to the amount of movement of the zoom lever, while ensuring the operability of the zoom lever. | 2012-06-14 |
20120147223 | IMAGING APPARATUS HAVING FOCUS CONTROL FUNCTION - A digital camera includes a focus position table. The focus position table, in which focus positions for person-priority pan focus have been set, is used when a face has been detected, and the focus position table, in which focus positions for non-person priority pan focus have been set corresponding to the types of non-person priority pan focus, is used when a face has not been detected. When a face has been detected, the digital camera determines the pan focus as the person-priority pan focus, and after acquiring a focus position from the focus position table, executes the pan focus processing. On the other hand, when a face has not been detected, the digital camera acquires, from the focus position table, a focus position corresponding to a type of non-person priority pan focus determined based on the photography scene and executes the pan focus processing. | 2012-06-14 |
20120147224 | IMAGING APPARATUS - An imaging apparatus has image sensors, an imaging optical system of which relative position with the image sensors is fixed, and a merging unit which connects images obtained by imaging while changing the relative position between the image sensors and the imaging optical system. Aberration of the imaging optical system in an image obtained by each image sensor is predetermined based on the relative position between the imaging optical system and the image sensor. The merging unit smoothes seams of the two images by setting a correction area in an overlapped area where the two images to be connected overlap with each other, and performing correction processing on pixels in the correction area. A size of the correction area is determined according to the difference in aberrations of the two images, which is determined by a combination of image sensors which have imaged the two images. | 2012-06-14 |
20120147225 | IMAGE PROCESSING METHOD - An image processing method for executing edge enhancement for an original image includes: extracting edge components based upon the original image; correcting the extracted edge components by attenuating the individual edge components so that a frequency distribution related to intensity of the edge components approximates a Gaussian distribution assuming a specific width; and executing edge enhancement for the original image based upon the corrected edge components. | 2012-06-14 |
20120147226 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing device includes: a peripheral objective pixel random acquiring section acquiring pixels obtained by sampling peripheral pixels located in a periphery of a marked pixel which is marked at random with respect to the marked pixel of pixels corresponding to an objective image as an object of noise removal as peripheral objective pixels as pixels used for filtering for noise removal; and a noise removing section carrying out filtering for the noise removal by using the peripheral objective pixels. | 2012-06-14 |
20120147227 | IMAGE PICKUP APPARATUS AND CONTROL METHOD THEREOF - The image pickup apparatus includes an image sensor having first and second pixels photoelectrically convert light fluxes passing through mutually different pupil areas, a correction calculating part calculating a correction parameter corresponding to a vignetting state of the light fluxes and performing a correction process using the correction parameter on first and second image signals produced from outputs from the first and second pixels, and a focus detection calculating part calculating a focus state of the image taking optical system based on a phase difference between the first and second image signals on which the correction process have been performed. The correction calculating part performs the correction process using a first correction parameter in the first focus detection area, and performs it using the first correction parameter in a second focus detection area close to the first focus detection area. | 2012-06-14 |
20120147228 | IMAGING SYSTEMS WITH OPTICAL CROSSTALK SUPPRESSION STRUCTURES - An imaging system may include an image sensor and lenses on a substrate. The lenses may focus light onto the image sensor. The imaging system may include multiple optical channels, each of which directs light at a particular wavelength or range of wavelengths to a particular region of the image sensor. The imaging system may include optical crosstalk suppression structures that reduce or minimize optical crosstalk between the optical channels. The optical crosstalk suppression structures may include, for each optical channel, at least a pair of matching color filters. The color filters may keep any light that leaks between optical channels from reaching the image sensor. | 2012-06-14 |
20120147229 | TWO-BY-TWO PIXEL STRUCTURE IN AN IMAGING SYSTEM-ON-CHIP - The claimed subject matter provides systems and/or methods that facilitate mitigating an impact resulting from mismatch between signal chains in a CMOS imaging System-on-Chip (iSoC) sensor. Two-by-two pixel structures can be a basic building block upon which a pixel array is constructed. Further, each two-by-two pixel structure can be associated with a read bus that carries a sampled signal to a top end and a bottom end of a chip. Moreover, multiplexers at either end of the chip can select a subset of the read buses from which to receive a subset of the sampled signals. Accordingly, pixels in a first color plane can be read, processed, etc. on the same side of the chip (e.g., utilizing a common signal chain), while pixels in at least one second color plane can be read, processed, etc. on the other side of the chip (e.g., employing a differing signal chain). | 2012-06-14 |
20120147230 | METHOD FOR CHARACTERIZING PIXELS OF AN IMAGE SENSOR - A method for characterizing image sensor pixels arranged in an array, including the steps of: (a) illuminating a first portion of the array formed of pixels associated with a color filter of a first color; (b) measuring the detection performed by a central pixel of the first portion; (c) illuminating a second portion of the array formed of a central pixel associated with a color filter of a second color and of peripheral pixels associated with a color filter of the first color; (d) measuring the detection performed by the central pixel and the peripheral pixels of the second portion; (e) comparing the measurements of steps (b) and (d). | 2012-06-14 |
20120147231 | PHOTOELECTRIC CONVERSION DEVICE AND CAMERA SYSTEM - A photoelectric conversion device includes a common output line, a sensor cell unit which outputs a signal to the common output line, a transfer circuit unit which is connected to the common output line, holds a signal from the common output line in a transfer capacitor, and transfers the signal, first, second and third memory cell units each of which stores a signal from the common output line in a memory capacitor, inverts and amplifies the signal in the memory capacitor, and outputs the signal to the common output line. | 2012-06-14 |
20120147232 | IMAGING APPARATUS - An imaging apparatus has two-dimensional image sensors which are discretely disposed, an imaging optical system which enlarges an image of an object and forms an image thereof on an imaging plane of the two-dimensional image sensors, and a moving unit which moves the object in order to execute a plurality of times of imaging while changing the divided area to be imaged by each of the two-dimensional image sensors. At least a part of the plurality of divided areas is deformed or displaced on the imaging plane due to aberration of the imaging optical system. Each position of the two-dimensional image sensors is adjusted according to a shape and position of the corresponding divided area on the imaging plane. | 2012-06-14 |
20120147233 | IMAGING DEVICE AND IMAGING APPARATUS - An imaging device includes: a pixel array that has a plurality of pixels disposed according to an oblique pixel arrangement; a first conversion means for performing digital conversion for pixel signals output from pixels in an even column of the pixel array; a second conversion means for performing digital conversion for pixel signals output from pixels in an odd column of the pixel array; and an addition means for adding pixel data output from the first conversion means and the second conversion means, wherein each of the first conversion means and the second conversion means includes a counter having a flip-flop, a first latch circuit, and a second latch circuit. | 2012-06-14 |
20120147234 | IMAGING APPARATUS AND SHUTTER OPERATION SELECTING METHOD - An imaging apparatus includes: an imaging device that includes a plurality of pixels; a first curtain that travels to block incidence of light on the imaging device; a second curtain that permits the incidence of light on the imaging device earlier than the traveling of the first curtain; a reset unit that sequentially reset-scans lines of the pixels earlier than the traveling of the first curtain; and an operation selecting unit that selects one of a mechanical shutter operation performed by the traveling of the first curtain and the second curtain and an electronic shutter operation performed by the first curtain and the reset unit depending on a slit width formed by the first curtain and the second curtain or a slit width formed by the first curtain and the reset-scanning of the reset unit. | 2012-06-14 |
20120147235 | IMAGE SENSOR WITH CHARGE MULTIPLICATION - An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A bypass horizontal shift register or an amplifier can be connected to the other output of the charge directing switch. | 2012-06-14 |
20120147236 | IMAGE SENSOR WITH CHARGE MULTIPLICATION - An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A bypass horizontal shift register or an amplifier can be connected to the other output of the charge directing switch. | 2012-06-14 |
20120147237 | IMAGE SENSING PIXELS WITH FEEDBACK LOOPS FOR IMAGING SYSTEMS - An imaging system may include an image sensor array formed from imaging pixels with feedback loops. Each imaging pixel may include an amplifier transistor that is controlled by a voltage on a floating diffusion node and may include a feedback transistor connected between the floating diffusion node and column readout circuitry. The amplifier transistor, together with a current source in the image sensor array, may form a common-source amplifier that inversely amplifies the voltage on the floating diffusion node and provides control signals to the feedback transistor. The common-source amplifier and the feedback transistor may create a feedback loop during image readout operations and during image reset operations that clamps the voltage on the floating diffusion node. | 2012-06-14 |
20120147238 | IMAGING DEVICE AND IMAGING APPARATUS - An imaging device including: image generation pixels generating signals for image generation; and phase difference detection pixels generating signals for focus alignment determination by phase difference detection is disclosed. The first lines where the image generation pixels are arranged in a specific direction and second lines where the phase difference detection pixels are arranged in the specific direction are alternately arranged in a direction perpendicular to the specific direction. The image generation pixels and the phase difference detection pixels are alternately arranged so that the image generation pixels constituting the first line and the phase difference detection pixels constituting the second line adjacent to the first line overlap by portions thereof in the perpendicular direction. | 2012-06-14 |
20120147239 | METHODS FOR PROCESSING AN IMAGE CAPTURED BY AN IMAGE SENSOR HAVING MULTIPLE OUTPUT CHANNELS - Charge packets are transferred from a pixel array in an image sensor to a horizontal shift register. Each charge packet is shifted to a non-destructive sense node. Each charge packet is non-destructively sensed and a signal representative of a number of charge carriers in the charge packet is produced. Respective charge packets are directed to a charge multiplying output channel when the signal representative of the number of charge carriers in each charge packet indicates the charge packet will not saturate the charge multiplying horizontal shift register. Respective charge packets are directed to a charge bypass output channel or an amplifier when the signal representative of the number of charge carriers in each charge packet indicates the charge packet will saturate the charge multiplying horizontal shift register. | 2012-06-14 |
20120147240 | METHOD OF PRODUCING AN IMAGE WITH PIXEL SIGNALS PRODUCED BY AN IMAGE SENSOR THAT INCLUDES MULTIPLE OUTPUT CHANNELS - An image sensor includes multiple output channels, a non-destructive charge sensing output channel having an associated gain value of G | 2012-06-14 |
20120147241 | SOLID-STATE IMAGING DEVICE, METHOD FOR PRODUCING SAME, AND CAMERA - A solid-state imaging device includes a substrate with oppositely facing first surface and second surfaces, light being received through the second surface; a wiring layer on the first surface; a photodetector in the substrate; a charge accummulation region between the second surface and the photodetector; and an insulating layer over the second surface, the insulating layer have a region that is at least partially crystallized. | 2012-06-14 |
20120147242 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus includes an operation receiving unit; and a control unit configured to perform a normal mode display process of displaying icon images of kinds corresponding to an operation status of the apparatus in a display unit and an icon description display process of displaying an icon selection image for selecting an icon image that is being displayed in the display unit upon reception of an operation input to activate an icon description mode by the operation receiving unit during the normal mode display process in the display unit and displaying a description image for an icon image selected upon reception of an operation input by the operation receiving unit while the icon selection image is being displayed in the display unit. | 2012-06-14 |
20120147243 | SYSTEM AND METHOD OF CAPTURING LOW-LIGHT IMAGES ON A MOBILE DEVICE - A system and method of capturing low-light images on a mobile device include a camera module, an image sensor, an infrared filter, and a visible light filter. The image sensor can detect a color spectrum of ambient light passed through a lens of the camera module. The visible light filter can cover a first portion of the image sensor, and the infrared filter can cover a second portion of the image sensor. A processor can be coupled to the image sensor to receive visible light data and infrared data. Visible light data can be formed from ambient light passed through the visible light filter and image sensor. Infrared data can formed from ambient light passed through the infrared filter and the image sensor. The visible light data and the infrared data are combined to form a low-light image data having enhanced brightness while maintaining color accuracy. | 2012-06-14 |
20120147244 | IMAGE PICKUP APPARATUS - An image pickup apparatus capable of giving a shooter the same rotary operation feeling regardless of the rotating direction, and displaying an erect image to a shooter at all times. A two-axis hinge is provided with a first bearing that supports a display unit rotatably in right and left directions and a second bearing that supports the display unit in rotated states rotatably so as to direct the screen to front and rear sides. A first axial rotation detector detects the rotation of the display unit by the first bearing. A second axial rotation detector detects the rotation of the display unit in the rotated states by the second bearing to direct the screen to the front and rear sides. A control unit switches display orientation of an image displayed on the display unit based on detection results from the first and second axial rotation detectors. | 2012-06-14 |