| Patent application number | Description | Published |
|---|
| 20080218611 | METHOD AND APPARATUS FOR OPERATING A DUAL LENS CAMERA TO AUGMENT AN IMAGE - An electronic camera for producing an output image of a scene from a captured image signal includes a first imaging stage comprising a first image sensor for generating a first sensor output and a first lens for forming a first image of the scene on the first image sensor, and a second imaging stage comprising a second image sensor for generating a second sensor output and a second lens for forming a second image of the scene on the second image sensor. The sensor output from the first imaging stage is used as a primary output image for forming the captured image signal and the sensor output from the second imaging stage is used as a secondary output image for modifying the primary output image, thereby generating an enhanced, captured image signal. | 09-11-2008 |
| 20080218612 | CAMERA USING MULTIPLE LENSES AND IMAGE SENSORS IN A RANGEFINDER CONFIGURATION TO PROVIDE A RANGE MAP - An electronic camera for producing an output image of a scene from a captured image signal includes a first imaging stage comprising a first image sensor for generating a first sensor output and a first lens for forming a first image of the scene on the first image sensor, and a second imaging stage comprising a second image sensor for generating a second sensor output and a second lens for forming a second image of the scene on the second image sensor, where the lenses have different focal lengths. A processing stage uses the sensor output from one of the imaging stages as the captured image signal and uses the images from both imaging stages to generate a range map identifying distances to the different portions of the scene. | 09-11-2008 |
| 20080219654 | CAMERA USING MULTIPLE LENSES AND IMAGE SENSORS TO PROVIDE IMPROVED FOCUSING CAPABILITY - An electronic camera for producing an output image of a scene from a captured image signal includes: (a) a first imaging stage comprising a first image sensor for generating a first sensor output; a first lens for forming a first image of the scene on the first image sensor; and a first lens focus adjuster for adjusting focus of the first lens responsive to a first focus detection signal; and (b) a second imaging stage comprising a second image sensor for generating a second sensor output; a second lens for forming a second image of the scene on the second image sensor; and a second lens focus adjuster for adjusting focus of the second lens responsive to a second focus detection signal. A processing stage either (a) selects the sensor output from the first imaging stage as the captured image signal and uses the sensor output from the second imaging stage to generate the first focus detection signal for the selected imaging stage, or (b) selects the sensor output from the second imaging stage as the captured image signal and uses the sensor output from the first imaging stage to generate the second focus detection signal for the selected imaging stage. | 09-11-2008 |
| 20080239061 | FIRST PORTABLE COMMUNICATION DEVICE - In accordance with this invention, there is provided a first portable communication device for communicating with a second portable communication device, the first portable communication device including a communication module for transmitting and receiving video and audio information; an electronic display; a first image capture device for capturing an image of a first scene; a second image capture device for capturing an image of a second scene different from the first scene and way that is responsive to a user command for transmitting images of either the first or second scene or a combination thereof to the second portable communication device. | 10-02-2008 |
| 20080292151 | CAPTURING DATA FOR INDIVIDUAL PHYSIOLOGICAL MONITORING - A method for capturing images of an individual to determine wellness for such individual, including establishing baseline physiological data for the individual, and baseline capture condition data for the individual; detecting and identifying the presence of the individual in the image capture environment; providing semantic data associated with the individual; capturing one or more images of the individual during a capture event and determining the capture conditions present during the capture event; using the event capture conditions, the baseline physiological data for the individual and the baseline capture condition data to determine the acceptability of event captured images; and using the acceptable images and the semantic data in determining the wellness of the individual. | 11-27-2008 |
| 20080294012 | MONITORING PHYSIOLOGICAL CONDITIONS - A method for monitoring physiological conditions of an individual including capturing images according to predefined capture criteria of one or more body regions of the individual on an ongoing basis; transforming the captured images in response to capture conditions present during image capture to provide a normalized image; calculating wellness parameters based on the normalized image; storing system data, including the normalized image, capture parameters, normalization transforms, or wellness parameters, or combinations thereof, monitoring and analyzing the wellness parameters in view of both current and prior semantic data to identify potential changes in physiological conditions; and providing alerts indicative of changes in said physiological conditions of at least one image. | 11-27-2008 |
| 20080297586 | PERSONAL CONTROLS FOR PERSONAL VIDEO COMMUNICATIONS - Video communication systems and methods for operating the same are provided with the method determining privacy settings for a video communication event; establishing a video communication link with a video communication system at a remote site; capturing video images of a field of view of at least one image capture device; determining a video context based at least in part upon a determined contextual classification for the communication event; analyzing the captured video images to identify privacy sensitive areas in the captured video images, using a scene analysis algorithm which examines a content of the video images and image context characteristics of the video images based upon the determined privacy settings; modifying the image characteristics in identified privacy sensitive image areas of captured video images, to control the image and image context characteristics to an extent consistent with the determined privacy settings; and transmitting the modified video images. | 12-04-2008 |
| 20080297587 | MULTI-CAMERA RESIDENTIAL COMMUNICATION SYSTEM - Video communication devices and methods are provided. The device has an image display device; a first image capture device that acquires video images depicting a wide field of view within the local environment; a second image capture device that acquires video images depicting a narrow field of view within the wide field of view; a communication system that is adapted to use a communication network to transmit outgoing video images; and a computer causing the capture of video images during a communication event, and further being adapted to identify a video context for the communication event; wherein said computer uses a scene analysis algorithm to examine concurrent video images from the image capture device based upon the identified video context to determine the extent to which video images from the first image capture device and the second image capture device are to be incorporated into the outgoing video images. | 12-04-2008 |
| 20080297588 | MANAGING SCENE TRANSITIONS FOR VIDEO COMMUNICATION - Video communication systems and methods for operating the same are provided. The system has a computer cooperating with at least one image capture device which acquires video images of a local environment having an individual therein, an audio system, an image processor and a communication controller to acquire video images based upon the acquired video images and to cause output video images to a remote individual during the communication event; said computer further providing a contextual interface including an intra-scene analysis algorithm for identifying potential intra-scene transitions during the communication event and a scene capture management algorithm for determining intra-scene adjustments in video capture settings when an intra-scene transition is detected; and the contextual interface further including a transition test with an inter-scene analysis algorithm, for identifying potential inter-scene transitions in the activities of the individuals, and a transition process structure for determining inter-scene adjustments in video capture settings. | 12-04-2008 |
| 20080297608 | METHOD FOR COOPERATIVE CAPTURE OF IMAGES - The present disclosure relates to a system for acquiring images from multiple image capture devices. The system includes a first device coupled to the cooperative network for broadcasting a request to one or more image capture devices participating in the cooperative network for capturing an image at a predetermined location. The system also includes a storage device coupled to the cooperative network for storing the captured image. | 12-04-2008 |
| 20080298571 | RESIDENTIAL VIDEO COMMUNICATION SYSTEM - A video communication system and method for operating a video communication system are provided. The video communication system has a video communication device, having an image display device and at least one image capture device, wherein the at least one image capture device acquires video images of a local environment and an individual therein, according to defined video capture settings, an audio system having an audio emission device and an audio capture device; and a computer operable to interact with a contextual interface, a privacy interface, an image processor, and a communication controller to enable a communication event including at least one video scene in which outgoing video images are sent to a remote site. Wherein the contextual interface includes scene analysis algorithms for identifying potential scene transitions and capture management algorithms for providing changes in video capture settings appropriate to any identified scene transitions; and wherein the privacy interface provides privacy settings to control the capture, transmission, display, or recording of video image content from the local environment. | 12-04-2008 |
| 20080298795 | CAMERA CONFIGURABLE FOR AUTONOMOUS SELF-LEARNING OPERATION - The present disclosure relates to an image capture device and a technique for capturing an image. The technique includes configuring an image capture device in a learning mode for sensing at least one variable in the device's surroundings and defining a normal state of the at least one variable. Further, the technique includes initiating image capture upon detecting a transition of the at least one variable from the normal state to a new condition, wherein the transition exceeds a predetermined threshold level, and redefining the normal state to the new condition. | 12-04-2008 |
| 20080298796 | CAMERA CONFIGURABLE FOR AUTONOMOUS OPERATION - The present disclosure relates to an image capture device and a technique for capturing an image. The technique includes selecting at least one subject displayed on an image capture device as an image trigger condition and entering a threshold level corresponding to the at least one image trigger condition. The technique further provides monitoring a signal from at least one sensor detecting the at least one image trigger condition and obtaining at least one digital image upon detecting the sensed image trigger condition meeting the threshold level. | 12-04-2008 |
| 20080300010 | PORTABLE VIDEO COMMUNICATION SYSTEM - A method and device for adapting a display image on a hand-held portable wireless display and digital capture device. The device includes a camera for capturing a digital video and/or still image of a user, means for adjusting the captured digital image in response to poor image capture angle of said image capture device so as to create a modified captured digital image; and means for transmitting said modified captured digital image over a wireless communication network to a second hand-held portable wireless display and digital capture device. | 12-04-2008 |
| 20090021588 | DETERMINING AND CORRECTING FOR IMAGING DEVICE MOTION DURING AN EXPOSURE - A system and method for determining and correcting for imaging device motion during an exposure is provided. According to various embodiments of the present invention, multiple sets of image pixels are defined on an image sensor, where each set of pixels is at least partially contained in the output image area of the image sensor. Signals from each set of image pixels are read out once or more during an exposure, motion estimates are computed using signal readouts from one or more sets of image pixels, and signal readouts from one or more sets of the image pixels are processed to form the final output image. | 01-22-2009 |
| 20090097095 | MICRO-ELECTROMECHANICAL MICROSHUTTER ARRAY - A microshutter array has a frame having a light transmissive portion. Linear microshutter elements extend across the light transmissive portion and in parallel to each other. Each microshutter element has a flat blade extended in a length direction and first and second torsion arms extending outwards from each side of the blade in the length direction, the blade extending across the light transmissive portion. There is at least one electrode associated with each linear microshutter element and extended in the length direction parallel to the microshutter element. | 04-16-2009 |
| 20090102763 | DISPLAY DEVICE WITH CAPTURE CAPABILITIES - An image capture and display device is described. The device includes a liquid crystal display panel, which can switch between two states, a display state and the capture state. Wherein at least a portion of the display and a switchable diffuser become transparent in the capture state. One or more image capture devices are located behind the display. Holes or windows are provided in the backlight for the image capture devices to capture images of the scene in front of the device when in the capture state. | 04-23-2009 |
| 20090135494 | DUAL FOCAL LENGTH LENS SYSTEM - A dual focal length optical system includes a first optical system and a second optical system. The first optical system is positioned along an optical path and includes an optical structure having an object side surface and an image side surface. The first optical system also includes a first surface of an intermediate reflective element located between the object side surface and the image side surface of the optical structure as viewed along the optical path. The first optical system has a first focal length. The second optical system shares a portion of the same optical path and includes a second surface of the same intermediate reflective element as that of the first optical system. The second optical system has a second focal length. The first focal length of the first optical system is longer than the second focal length of the second optical system. | 05-28-2009 |
| 20090135502 | DUAL FOCAL LENGTH LENS SYSTEM - A dual focal length optical system includes a first optical system and a second optical system. The first optical system is positioned along an optical axis and includes an optical structure having an object side surface and an image side surface. The object side surface and the image side surface include a refractive surface portion and a reflective surface portion. The first optical system has a focal length. The second optical system is positioned on the same optical axis and has a focal length. The focal length of the first optical system is longer than the focal length of the second optical system. | 05-28-2009 |
| 20090160970 | REMOTE DETERMINATION OF IMAGE-ACQUISITION SETTINGS AND OPPORTUNITIES - Pre-image-acquisition information is obtained by a digital camera and transmitted to a system external to the digital camera. The system is configured to provide image-acquisition settings to the digital camera. In this regard, the digital camera receives the image-acquisition settings from the external system and performs an image-acquisition sequence based at least upon the received image-acquisition settings. Accordingly, the determination of image-acquisition settings can be performed remotely from the digital camera, where data-processing resources can greatly exceed those within the digital camera. | 06-25-2009 |
| 20090161235 | COMPACT FOLDED THIN LENS - A thin lens consists of a first optical element which comprises a first refracting surface, wherein incoming light passes through the first refracting surface on a first optical axis. A reflecting surface changes a direction of the incoming light from the first optical axis to a second optical axis. Incoming light on the second optical axis passes through a second refracting surface. A second optical element comprises a first refracting surface, wherein incoming light passes through the first refracting surface on the second optical axis. A reflecting surface changes a direction of the incoming light from the second optical axis to a third optical axis. Incoming light on the third optical axis passes through a second refracting surface. The third optical axis is approximately parallel to, and in opposite direction from, the first optical axis. | 06-25-2009 |
| 20090193055 | METHOD FOR PRESERVING PRIVACY WITH IMAGE CAPTURE - The present invention discloses a method and system that automatically analyzes digital images containing people or objects to generate derived data from the images including non-imaging numerical data and text data. The image content of the digital image can then be destroyed and the derived data can be stored along with any associated capture metadata for use and/or analysis. By converting images containing people to derived data and associated capture metadata, which does not include images of people or likenesses of people, the privacy of the individual is maintained. The method is useful for security monitoring and advertising. | 07-30-2009 |
| 20090219432 | SENSOR WITH MULTI-PERSPECTIVE IMAGE CAPTURE - The invention discloses an image acquisition system with a modified image sensor that enables simultaneous capture of at least two images with different perspectives The pixels are split into two or more subsets of pixels under a series of cylindrical microlenses or linear light guides. The cylindrical microlenses or linear light guides limit the radiation to impinge upon first and second subsets of pixels under each microlens or light guide to come from only one half or the other half of the imaging lens so that stereo image sets are produced. | 09-03-2009 |
| 20090244301 | CONTROLLING MULTIPLE-IMAGE CAPTURE - According to some embodiments of the present invention, pre-capture information is acquired, and based at least upon an analysis of the pre capture information, it may be determined that a multiple-image capture is to be performed, where the multiple-image capture is configured to acquire multiple images for synthesis into a single image. Subsequently, execution of the multiple-image capture is performed. | 10-01-2009 |
| 20090273681 | AUTOMATIC FOCUS SYSTEM CALIBRATION FOR IMAGE CAPTURE SYSTEMS - Imaging systems and methods for calibrating imaging systems are provided. The imaging system has a body, a scene image capture system that captures images using a taking lens system that can be set to a plurality of different focus distances, and a rangefinder that is capable of determining a distance between the imaging system and at least one portion of a field of view of the taking lens system. The method comprises: automatically capturing a first calibration image of a first field of view through the taking lens system with the taking lens system set to a first focus distance setting; identifying a portion of the first calibration image having a predetermined degree of focus; using the rangefinder to determine a first calibration distance from the imaging device to the identified portion. A focus correlation is determined based upon the first calibration distance and the first focus distance setting. | 11-05-2009 |
| 20090306484 | MONITORING PHYSIOLOGICAL CONDITIONS - A method for unobtrusive screening the well-being of a person using a plurality of sensing devices, including detecting the presence of a person; identifying and tracking the person; using sensing devices, which includes at least one camera, to unobtrusively sense one or more body parameters of the person; calculating and storing wellness parameters, which are derived from the sensed body parameter data; and automatically evaluating the well-being of the person based on current and prior semantic data including comparing the wellness parameters to previously determined wellness parameters for that person. | 12-10-2009 |
| 20100013906 | ZOOM BY MULTIPLE IMAGE CAPTURE - An image sensor assembly includes a fixed focal length optical lens; a mirror that reflects light from the scene to an optical lens and moves into a plurality of positions; and an image sensor that receives the light after it passes through the optical lens and captures a plurality of images that represents each image captured from each position of the mirror; wherein at least portions of the plurality of images are stitched together to form a composite image with a desired zoom factor. | 01-21-2010 |
| 20100026839 | METHOD FOR FORMING AN IMPROVED IMAGE USING IMAGES WITH DIFFERENT RESOLUTIONS - Multiple images of a scene are acquired over a contemporaneous period of time. Most of the multiple images are lower resolution images acquired with a lower resolution than the other of the multiple images. A corrected set of images is formed at least by correcting for motion present between at least some of the lower resolution images. In addition, a synthesized image is formed at least by merging (a) at least a portion of at least one of the images in the corrected set of images, and (b) at least a portion of at least one of the other of the multiple images. The synthesized image is stored in a processor-accessible memory system. The synthesized image exhibits improved image quality including reduced motion blur, a higher signal-to-noise ratio, and higher resolution over conventional techniques. | 02-04-2010 |
| 20100033613 | APPARATUS AND METHOD FOR CAPTURING AND VIEWING IMAGES - A dual sided viewing panel and a method of capturing and displaying images, is disclosed. The dual sided viewing panel includes a first viewing panel and a second viewing panel. The first and second viewing panels are controllable by a control device to capture an image and display an image. The first and second viewing panels are positioned in an aligned back to back relationship to each other. In a method, a first image is captured by the first viewing panel and a second image is captured by the second viewing panel. The first captured image is displayed on the second viewing panel and the second captured image is displayed on the first viewing panel. The viewing direction of the first viewing panel is opposed to the viewing direction of the second viewing panel. | 02-11-2010 |
| 20100073623 | Dual range focus element - An autofocus system is provided for image capture that includes a liquid crystal focus lens which includes a dual range liquid crystal lens with a thinner liquid crystal lens ( | 03-25-2010 |
| 20100073789 | LOW COST MOVEABLE MIRROR - It is an object of the present invention to provide a low cost moveable mirror with 2 axes of movement that is suitable for use in an optical application where a relatively large tip of tilt of a mirror is needed in a known series of positions repeatably and rapidly. This object is achieved by providing a planar structure with 4 bending actuators that can be produced through MEMs based manufacturing. The moveable mirror is flexibly connected to the bending actuators so it can be moved on 2 axes. The bending actuators are designed to have substantial length to increase the angular movement of the mirror. Hard stops are provided to provide repeatable and accurate positioning of the mirror for selected positions. | 03-25-2010 |
| 20100091169 | DITHERED FOCUS EVALUATION - The invention utilizes an autofocus system ( | 04-15-2010 |
| 20100103276 | SPLIT APERTURE CAPTURE OF RANGEMAP FOR 3D IMAGING - An image capture system that can capture images as well as rangemaps, includes a split aperture device having a first and a second states and used to capture one or more image pairs that includes a first image captured during the first state and a second image captured during the second state. The image capture system also includes a rangemap generator coupled to the split aperture device, the rangemap generator generates a rangemap by comparing local image shifts between the first image and the second image. A method is also described for capturing of rangemap information for 3D imaging. | 04-29-2010 |
| 20100110209 | FAST MOTION MEASUREMENT DEVICE FOR GAMING - The invention provides a motion measurement system that is capable of rapid motion measurement of motion that can measure all types of motion including rotational motion, linear motion and motion occurs in the directions of x, y and z. In the motion measurement system of the invention, motion is measured with a high speed image capture and analysis system that captures images of the scene and identifies motion in the scene with a reduced bit rate approach to enable fast data processing. | 05-06-2010 |
| 20100118176 | MICRO-ELECTROMECHANICAL MICROSHUTTER ARRAY - A microshutter array has a frame having a light transmissive portion. Linear microshutter elements extend across the light transmissive portion and in parallel to each other. Each microshutter element has a flat blade extended in a length direction and first and second torsion arms extending outwards from each side of the blade in the length direction, the blade extending across the light transmissive portion. There is at least one electrode associated with each linear microshutter element and extended in the length direction parallel to the microshutter element. | 05-13-2010 |
| 20100231738 | CAPTURE OF VIDEO WITH MOTION - A method of capturing a video of a scene depending on the speed of motion in the scene, includes capturing a video of the scene; determining the relative speed of motion within a first region of the video of the scene with respect to the speed of motion within a second region of the video of the scene; and causing a capture rate of the first region of the video of the scene to be greater than a capture rate of the second region of the video of the scene, or causing an exposure time of the first region to be less than exposure time of the second region. | 09-16-2010 |
| 20100231800 | DISPLAY OF VIDEO WITH MOTION - A method of displaying a video of a scene on a display with reduced motion blur includes: providing the video of a scene having first subframes that have a first input rate and second subframes that have a second input rate, wherein the first subframes correspond to a first region of the display and the second subframes correspond to a second region of the display; and selectively providing the first and second subframes to corresponding regions in the display, and providing the first region of the display with a first update rate and the second region of the display with a second update rate, wherein the first update rate is greater than the second update rate, so that the displayed image has reduced motion blur. | 09-16-2010 |
| 20100238328 | ANTI-ALIASING SPATIAL FILTER SYSTEM - A sensor module for an image capture device including an image sensor and a filter system, the image capture device having a high resolution mode of operation and one or more lower resolution modes of operation; the filter system includes an adjustable spatial filter associated with the optical path of the image capture device having an adjustable optical structure which in response to a first signal causes the adjustable spatial filter to be effective in a high resolution mode of operation and in response to a second signal causes the adjustable spatial filter to be effective in a lower resolution mode of operation. | 09-23-2010 |
| 20100309340 | IMAGE SENSOR HAVING GLOBAL AND ROLLING SHUTTER PROCESSES FOR RESPECTIVE SETS OF PIXELS OF A PIXEL ARRAY - A CMOS image sensor or other type of image sensor includes a pixel array comprising at least first and second sets of pixels. Image sensor circuitry is coupled to the pixel array and comprises a signal generator for controlling capture of image data from the first set of pixels of the pixel array using a global shutter process and for controlling capture of image data from the second set of pixels of the pixel array using a rolling shutter process, with the pixels of the second set being different than the pixels of the first set The image sensor may be implemented in a digital camera or other type of digital imaging device. | 12-09-2010 |
| 20100329457 | METHOD FOR DISPLAYING A VIDEO OF A SCENE - Method of displaying a video of a scene onto a display with enhanced image quality, the video of the scene having first subframes and second subframes wherein the first subframes correspond to a first region of an image-presentation element of the display and the second subframes correspond to a second region of the image-presentation element; and selecting an access key corresponding to the first subframes. The method further includes encoding the access key into one or more of the second subframes; providing the second subframes to the display using a first data transport; the display, decoding the access key and receiving the corresponding first subframes using a second data transport different from the first data transport; and selectively providing the first and second subframes from the first and second data transports to corresponding regions in the image-presentation element of the display, whereby the displayed image has enhanced image quality. | 12-30-2010 |
| 20110018993 | Ranging apparatus using split complementary color filters - A system for estimating distance to regions in a scene during image capture comprising a lens; a split color filter with complementary colors located at a stop associated with the lens and configured to split an image of a scene received from the lens into two complementary images having complementary colors; a color image sensor configured to simultaneously receive the two complementary images; and a data processing system configured to at least estimate distances to regions in the scene based at least upon an analysis of the received complementary images. | 01-27-2011 |
| 20110074980 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110074981 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110074997 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110074998 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110074999 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075000 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075001 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075006 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075007 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075008 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075009 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110075010 | METHODS FOR CAPTURING AND READING OUT IMAGES FROM AN IMAGE SENSOR - Multiple images are captured where the exposure times for some of the images overlap and the images are spatially overlapped. Charge packets are transferred from one or more portions of pixels after particular integration periods, thereby enabling the portion or portions of pixels to begin another integration period while one or more other portions of pixels continue to integrate charge. Charge packets may be binned during readout of the images from the image sensor. Comparison of two or more images having different lengths of overlapping or non-overlapping exposure periods provides motion information. The multiple images can then be aligned to compensate for motion between the images and assembled into a combined image with an improved signal to noise ratio and reduced motion blur. | 03-31-2011 |
| 20110096179 | METHOD FOR IMPROVED DIGITAL VIDEO IMAGE QUALITY - A method of producing a digital video with reduced motion blur or increased brightness, including capturing a digital video using an exposure time that reduces image blur; selecting a first series of sequential images from the digital video capture; combining pixel values of said images to produce a first intermediate image that is brighter than each of the selected sequential images; choosing and processing a reference image to create a second intermediate image that is less blurry than the first intermediate image; identifying moving regions among the selected sequential images; replacing pixel values of moving regions in the first intermediate image with corresponding pixel values from the second intermediate image to produce a first digital video image having reduced motion blur or increased brightness; and repeating these steps for a second series of sequential images that includes at least one image from the first series of sequential images. | 04-28-2011 |
| 20110157345 | APPARATUS AND METHOD FOR CAPTURING AND VIEWING IMAGES - A dual sided viewing panel and a method of capturing and displaying images, is disclosed. The dual sided viewing panel includes a first viewing panel and a second viewing panel. The first and second viewing panels are controllable by a control device to capture an image and display an image. The first and second viewing panels are positioned in an aligned back to back relationship to each other. In a method, a first image is captured by the first viewing panel and a second image is captured by the second viewing panel. The first captured image is displayed on the second viewing panel and the second captured image is displayed on the first viewing panel. The viewing direction of the first viewing panel is opposed to the viewing direction of the second viewing panel. | 06-30-2011 |
