37th week of 2015 patent applcation highlights part 67 |
Patent application number | Title | Published |
20150256697 | IMAGE-READING APPARATUS, IMAGE-PROCESSING METHOD, AND COMPUTER PROGRAM PRODUCT - An image-reading apparatus according to the present invention reads one or more documents to acquire a read image, detects edge coordinates of a document image closest to an outer edge of the read image in a plurality of certain directions, and regionally divides the read image in the certain directions based on any one or both of a region of the read image in which no edge coordinates are detected and the edge coordinates of an edge end of the detected document image. | 2015-09-10 |
20150256698 | IMAGE FORMING APPARATUS, AND METHOD OF CONTROLLING IMAGE FORMING APPARATUS - An image forming apparatus is provided with a power supply switch, a control unit configured to transition the image forming apparatus into a suspend state when the power supply switch is turned off by an operation of a user, a device to which a power supply is stopped forcibly when the power supply switch is turned off by the operation of the user, and a notification unit configured to notify the control unit of an error that occurred on the device, and the control unit, in a case where the error is notified of by the notification unit, controls the image forming apparatus to revert from the suspend state and resets the image forming apparatus. | 2015-09-10 |
20150256699 | POWER-SUPPLY CONTROL DEVICE, IMAGE PROCESSING APPARATUS, POWER-SUPPLY CONTROL METHOD, AND COMPUTER READABLE MEDIUM - A power-supply control device includes a power-supply control section, a first detection section that detects whether or not a body capable of movement is moving, a second detection section that detects whether or not the body capable of movement exists, and an instruction section. The power-supply control section receives supply of power from a mains power source section, and selectively sets a power supply mode, in which power is supplied to a processing section, and a power saving mode, in which supply of power to the processing section is stopped. The first and second detection sections and the instruction section are caused to operate at least in the power saving mode. The instruction section provides, for the power-supply control section, an instruction for switching between the power supply mode and the power saving mode. | 2015-09-10 |
20150256700 | INFORMATION PROCESSING APPARATUS, METHOD FOR CONTROLLING INFORMATION PROCESSING APPARATUS, AND RECORDING MEDIUM - An information processing apparatus on which a plurality of applications is installed and which includes a device includes a display unit configured to display a screen for selecting an application to execute from among the plurality of applications, an acquisition unit configured to obtain attribute information about the application selected on the screen displayed on the display unit, a determination unit configured to determine whether the selected application is a specific application based on application information obtained by the acquisition unit, and a control unit configured to, if the determination unit determines that the selected application is the specific application, control power supply to the device based on device information obtained by the acquisition unit, and if the determination unit determines that the selected application is not the specific application, perform control so that the power is supplied to the device. | 2015-09-10 |
20150256701 | DOCUMENT READING DEVICE AND IMAGE FORMING APPARATUS INCLUDING SAME - A document reading device including an image reader. The image reader includes a first reader to read a first image from a first face of a document fed by a document feeder and a second reader to read a second face of the document. An operation mode is switchable between a normal operation mode in which the image reader is in an operation enabled state and an energy-saving mode in which the image reader is in an operation stop state. In a return from the energy saving mode to the normal operation mode, the image reader performs a start-up operation including a first initial operation for returning the first reader to the normal operation mode and then performs a second initial operation for returning the second reader to the normal operation mode. | 2015-09-10 |
20150256702 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An interpolation process using a convolution operation is carried out on a non-planar document, a captured image having distortion caused by an optical system, or the like having changed a breadth of a reference region used in a convolution operation or frequency characteristics of a sampling function that is used, in accordance with distortion characteristics in an input image. | 2015-09-10 |
20150256703 | ILLUMINATION APPARATUS AND PAPER SHEET DISTINGUISHING APPARATUS - Provided is a light source unit that emits linear light to an original, the light source unit including: light sources that emit light; a light guide that is formed in a rod shape and that guides the light from the light sources to the original; a frame that houses the light sources and the light guide; and a circuit board including a conduction portion electrically connected to the light sources, wherein the circuit board is provided with a slit in a longitudinal direction of the light guide, the slit is disposed closer to the original than the light guide, and the light from the light guide is emitted to the original through the slit. | 2015-09-10 |
20150256704 | MULTI-PURPOSE SCANNER - A multi-purpose scanner comprises a first body, a second body and a scanning module. The second body is disposed on the first body. A first passageway and a second passageway, which are for accommodating a first portion and a second portion of an angled document, and are disposed on a first plane and a second plane, respectively, are formed between the first body and the second body. An included angle is formed between the first plane and the second plane. The scanning module, disposed in the first body and/or the second body, performs an image scan operation on the first portion of the angled document in the first passageway to obtain an image signal. | 2015-09-10 |
20150256705 | NON-TRANSITORY COMPUTER READABLE RECORDING MEDIUM, INFORMATION PROCESSING DEVICE AND SETTING CHANGE NOTIFICATION METHOD - A non-transitory computer readable recording medium on which a device driver is recorded, the device driver is booted on an information processing device connected to an output device and outputs an output job by generating the output job. The device driver causes the information processing device to serve as: a specific character string information registering part configured to register in advance information of a specific character string included in an email relating to a setting change of the output device; a detecting part configured to detect the email which includes the specific character string from among the emails which have been received in the past as the device driver is booting; and a notifying part configured to notify a user of information relating to the setting change of the output device based on the email which includes the specific character string when the email is detected by the detecting part. | 2015-09-10 |
20150256706 | PHOTO MEDIA PRINTING METHOD AND PHOTO MEDIA PRINTING SYSTEM - A photo media printing method includes the following steps. Firstly, a photo media file is selected by a digital media controller of an area network. Then, a marked is added to the selected photo media file by the digital media controller, so that a new photo media file containing the mark is produced. Afterwards, the new photo media file is transmitted to a network printing device of the area network, and the new photo media file is printed out by the network printing device. In other words, the mark is added to the photo media file by simply selecting the photo media file. | 2015-09-10 |
20150256707 | PHOTO MEDIA PRINTING METHOD AND PHOTO MEDIA PRINTING SYSTEM - A photo media printing method includes the following steps. Firstly, a photo media file is selected by a digital media player of an area network. Then, a marked is added to the selected photo media file by the digital media player, so that a new photo media file containing the mark is produced. Afterwards, the new photo media file is transmitted to a network printing device of the area network, and the new photo media file is printed out by the network printing device. In other words, the mark is added to the photo media file by simply selecting the photo media file. | 2015-09-10 |
20150256708 | PHOTO MEDIA DISPLAYING METHOD, PHOTO MEDIA PRINTING METHOD, AND PHOTO MEDIA DISPLAYING AND PRINTING SYSTEM - A photo media displaying method and a photo media printing method are provided. Firstly, a photo media file is selected by an active control device of an area network. Then, a marked is added to the selected photo media file by a digital media server, so that a new photo media file containing the mark is produced. Then, the new photo media file is transmitted from the digital media server to a digital media renderer of the area network, so that the new photo media file is displayed on the digital media renderer. Moreover, the new photo media file may be transmitted to a network printing device of the area network, so that the new photo media file is printed out by the network printing device. In other words, the mark is added to the photo media file by simply selecting the photo media file. | 2015-09-10 |
20150256709 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING SYSTEM, AND DEVICE LINKAGE METHOD - An information processing apparatus includes a user interface unit configured to receive a function execution request for processes, the function execution request containing designations of an input function and an output function; a search and linkage unit configured to acquire pieces of specifications information indicating functions of an input device and an output device from the respective devices, and generate, based on the pieces of specifications information, a linkage flow indicating an execution sequence and a combination of an input device and an output device which respectively have an input function and an output function designated in the function execution request, the devices executing the functions, respectively, in linkage with each other; and a flow executing unit configured to send process requests to the input device and the output device designated in the linkage flow, respectively. | 2015-09-10 |
20150256710 | IMAGE COMMUNICATING APPARATUS, CONTROL METHOD THEREFOR, AND STORAGE MEDIUM STORING PROGRAM - There is provided an image communicating apparatus which is capable of performing a deemed voice communication, and includes a telephone control unit configured to control communication by connecting a telephone, and a modem configured to control FAX communication by the deemed voice communication. In the image communicating apparatus, communication is controlled so that a detection unit configured to perform detection processing of detecting facsimile reception by software performs the detection processing during a period in which the modem cannot detect the facsimile reception. | 2015-09-10 |
20150256711 | COMMUNICATING APPARATUS, CONTROL METHOD THEREFOR, AND STORAGE MEDIUM STORING PROGRAM - There are provided a communicating apparatus capable of connecting a message recording device and performing facsimile communication, and a control method for the communicating apparatus. In a mode in which the message recording device responds to an incoming call, if it is detected that an incoming call has disappeared, counting by a repeat incoming call timer starts. If a next incoming call is detected before a time-out of the repeat incoming call timer occurs, counting by a message recording monitoring timer for counting a message recording response time starts. If the message recording device does not capture a line before a time-out of the message recording monitoring timer occurs, and the incoming call has not disappeared, facsimile signal reception processing starts. | 2015-09-10 |
20150256712 | METHODS AND DEVICES FOR FORM-INDEPENDENT REGISTRATION OF FILLED-OUT CONTENT - A device for registration of content in a filled-out application form is disclosed. The device is configured for scanning at least one portion of the filled-out application form. The device is configured for extracting filled-out content from the scanned form. The geometrical features of the master form are retrieved. The master form includes one or more anchor fields. Each anchor field has one or more anchor zones and at least one anchor segment. At least one anchor segment has global adjustment parameters and geometrical features. The extracted filled-out content is related to the retrieved geometrical features of a master form to create a new geometrical representation of the extracted filled-out content of the scanned application form. The new representation of the filled-out content based on the global adjustment parameters for the at least one anchor segment is globally adjusted. The globally adjusted filled-out content based on the geometrical features for the anchor segments is locally adjusted. | 2015-09-10 |
20150256713 | IMAGE BINARIZATION FOR OPTICAL CHARACTER RECOGNITION - Systems and methods convert to binary an input image having pixels defining text and background. Thresholds are determined by which pixels in the input image and a corresponding blurred image will be defined as either binary black or binary white. Thresholds derive from grouped together neighboring pixels having pixels separated out that correspond to the background. For pixels of the input image defined as binary black and having corresponding pixels in the blurred image defined as binary black relative to their thresholds, those are set to black in the binary image, else they are set white. Techniques for devising thresholds, blurring images, grouping together pixels, statistical analysis, etc., typify the embodiments. | 2015-09-10 |
20150256714 | PRINTING APPARATUS, PRINTING DATA GENERATION APPARATUS AND METHOD THEREFOR, AND PRINTING DATA GENERATION PROGRAM - A printing apparatus includes an input unit; a halftone processing unit; and a print unit. The halftone processing unit includes a comparison unit comparing one of a plurality of threshold values and a data gradation value, and an error diffusion unit generating dot data by comparing the data gradation value with an error diffusion threshold value. In a case where the data gradation value is less than the threshold value, the error diffusion threshold value is set to a high threshold value greater than a low threshold value. The high threshold value is set to a maximum value of the data gradation value or higher where the data gradation value is a predetermined value or higher, and to a value lower than the maximum value in a predetermined gradation range not less than the predetermined value. | 2015-09-10 |
20150256715 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - For preferably reducing show-through in an image obtained by reading an original, an image processing apparatus, stores an index value for each of a plurality of mutually differing degrees of variation; obtains a degree of variation of signal values included in a region of interest of a predetermined size including a pixel of interest included in image data; obtains a value indicating a brightness of the region of interest; determines an amount of correction of a value of the pixel of interest using the obtained value and an index value corresponding to the obtained degree of variation; and corrects the value of the pixel of interest using the determined amount of correction. | 2015-09-10 |
20150256716 | INFORMATION PROCESSING APPARATUS, CONTROL METHOD, AND STORAGE MEDIUM STORING PROGRAM - An information processing apparatus which can execute an application requiring user authentication displays a Web page without performing authentication in a case where a local browser requests for a Web page upon logging in to the information processing apparatus. On the other hand, in a case where a remote browser requests for a Web page, the apparatus causes the remote browser to display an authentication screen and displays a Web page based on authentication performed via the authentication screen. | 2015-09-10 |
20150256717 | IMAGE PROCESSING APPARATUS, METHOD FOR CONTROLLING THE SAME, AND IMAGE PROCESSING SYSTEM - For enabling unified color processing to be performed even in the case of performing different color processing on a specific color, an image processing apparatus having a color conversion unit configured to perform color conversion using a LUT for defining conversion from an input color to an output color, comprises: an input unit configured to input an image that is to be a target of color conversion; an accepting unit configured to accept designation of a specific color; and a generation unit configured to register an output value corresponding to the specific color at an unused grid point in the LUT, and generate a specific color-associated LUT, wherein, if the specific color is used in an image input by the input unit, the color conversion unit performs color conversion using the generated specific color-associated LUT. | 2015-09-10 |
20150256718 | IMAGE SENSING APPARATUS AND METHOD OF CONTROLLING OPERATION OF SAME - A subject is imaged repeatedly and color images of the subject are obtained. A color histogram is generated from the color subject image obtained and a representative color is decided from the color histogram generated. A specific color range that can be considered a color identical with the representative color is decided from the color histogram and representative color. Color outside the specific color range in the color subject image is changed to gray, an image of the subject in which the non-specific colors have been changed to gray is obtained and the image is displayed. Processing such as deciding the specific color range is repeated. When an instruction to fix the specific color is issued, the specific color range is fixed. | 2015-09-10 |
20150256719 | Image Sensor Gamut Mapping - Gamut mapping is applied to a pixel to thereby convert input component values (e.g. RGB values) of the pixel to corresponding output component values of the pixel. The input component values have a first valid range which includes some negative values and the output component values have a second valid range which does not include negative values. The gamut mapping unit determines whether a first input component value of the pixel is negative, and if so: (i) applies an adjustment to that component value such that it is not negative; and (ii) adjusts one or more other input component value(s) of the pixel based on the adjustment applied to the first input component value to thereby compensate for the adjustment applied to the first input component value. The output component values of the pixel are based on the adjusted input component values of the pixel. | 2015-09-10 |
20150256720 | MULTIPLE CAMERA SYNCHRONIZATION SYSTEM - A system for at least substantially plesiochronously operating a receiver in communication with a plurality of cameras (e.g., at least two plesiochronously operational cameras) is described. In one or more implementations, the system includes a plurality of cameras. Each camera is configured to generate a signal for transmission via a communications link, and the signal comprises data packets encoded in a forward channel. The system also includes a receiver communicatively coupled to the plurality of cameras via the single-ended communications link. The receiver is configured to generate a synchronization data based upon at least one of the data packets. The receiver is also configured to modulate the signal to encode the synchronization data in a reverse channel so that the signal comprises the forward channel data and the reverse channel data simultaneously. | 2015-09-10 |
20150256721 | RELAY LENS SYSTEM FOR BROADBAND IMAGING - An optical system includes a first relay rod of a first material, a second relay rod of a second material, different from the first material, and a lens between the first and second relay rods. | 2015-09-10 |
20150256722 | IMAGE CAPTURING APPARATUS AND CONTROL METHOD OF IMAGE CAPTURING APPARATUS - At least one image capturing apparatus communicating via a network with an external apparatus can insert and remove an infrared light cut filter to and from an optical path of an image-capturing optical system of the image capturing apparatus, and when a setting value of a communication protocol describing a brightness value of brightness of a subject and a delay time for determining the brightness and describing the brightness value and the delay time for the insertion and removal of the infrared light cut filter is received from the external apparatus via a network, then a determination is made as to whether the setting value matches a setting value suitable for another protocol, and when the setting value does not match the setting value suitable for another protocol, the setting value including the brightness value and the delay time is converted into a setting value suitable for another protocol. | 2015-09-10 |
20150256723 | SYSTEMS AND METHODS FOR OBTAINING ELECTRONIC IMAGES FROM WITHIN A STRONG MAGNETIC FIELD - A system for obtaining an electronic image from within a strong magnetic field includes (a) a camera having an electronic image sensor for generating a first electrical image signal representative of the electronic image, and an electrical-to-optical converter for converting the first electrical image signal to an optical signal, (b) an optical-to-electrical converter for converting the optical signal to a second electrical image signal representative of the electronic image, and (c) an optical fiber for communicating the optical signal from the camera to the optical-to-electrical converter. | 2015-09-10 |
20150256724 | IMAGING APPARATUS - There is provided an imaging apparatus including an apparatus body provided with an imaging lens on one end, a cap body capable of moving between an open position and a closed position with respect to the apparatus body, the cap body being provided with a display, and a support mechanism that movably supports the cap body with respect to the apparatus body. The imaging lens is closed while the cap body is positioned in the closed position, and the imaging lens is opened while the cap body is positioned in the open position. | 2015-09-10 |
20150256725 | PREVENTING ARTIFACTS DUE TO UNDERFILL IN FLIP CHIP IMAGER ASSEMBLY - A CMOS imager assembly may include an integrated circuit (IC) having an active-pixel image sensor that is mounted on a printed circuit board (PCB) substrate using flip chip packaging technology. The IC and the PCB may be physically and electrically connected to each other through multiple electrically conductive connectors. An underfill material (which may include an anti-reflective material) may, during assembly, be introduced around the connectors in the space between the IC and the PCB. A chemical or physical discontinuity on the integrated circuit may, during assembly, prevent the underfill material from entering an area framed by the discontinuity, which may include the pixel array of the image sensor. The discontinuity may include a dam-like structure built up on the IC, a trench-like structure created on the IC, or a low surface tension material that has been applied to the surface of the IC. | 2015-09-10 |
20150256726 | OPTICAL MEMBER CONVEYING DEVICE - An optical member conveying device ( | 2015-09-10 |
20150256727 | CAMERA LENS MODULE - A camera lens module according to an embodiment of the present invention is configured to include an optical image stabilizing carrier for accommodating a lens barrel; an autofocus carrier for mounting the optical image stabilizing carrier; a rolling unit for supporting a plane motion orthogonal to the optical axis of the optical image stabilizing carrier with respect to the autofocus carrier; a base for accommodating the autofocus carrier which mounts the optical image stabilizing carrier to advance and retreat the autofocus carrier in an optical axis direction; an optical image stabilizer driving unit; and an autofocus driving unit. | 2015-09-10 |
20150256728 | IMAGING APPARATUS - There is provided an imaging apparatus including a first housing mounted with an imaging lens, a second housing mounted with a display, and a connecting portion that connects the first housing and the second housing. The connecting portion includes a first rotation mechanism that makes the second housing openable/closable with respect to the first housing by rotating the second housing around the opening/closing axis, and a second rotation mechanism that, in a case where the second housing is closed by the first rotation mechanism, when a surface of the first housing directly facing the second housing and parallel to the opening/closing axis is denoted as a first accommodation surface, makes the second housing rotatable around a vertical axis perpendicular to the first accommodation surface. | 2015-09-10 |
20150256729 | OPTICAL DEVICE AND IMAGING DEVICE - In an optical device, a lens assembly includes a lens for receiving light and a holder for holding the lens. A circuit board performs at least one process based on the received light. A housing has an opening and is configured to house the lens assembly and the circuit board therein such that at least part of the circuit board faces the lens assembly, and the lens assembly is exposed via the opening. A mechanism for defining a passage located around the lens assembly to communicate with the opening. The passage guides air, entering an inside of the housing via the opening, so as not to be directed toward the circuit board. | 2015-09-10 |
20150256730 | IMAGE-CAPTURING DEVICE CONFIGURED FOR A HANDHELD ELECTRONIC DEVICE - An image-capturing device configured for a handheld electronic device includes a protective case and an image-capturing module having a first transmission unit. The protective case has a receiving space and an opening. The image-capturing module is disposed in the protective case, and includes a camera unit, a processing unit, and a second transmission unit. In response to user commands inputted through the handheld electronic device and communicated to the image-capturing device via the communication established between the first transmission unit and the second transmission unit, the processing unit is operable to control operation of the camera unit. | 2015-09-10 |
20150256731 | DRIVING CIRCUIT FOR VOICE COIL MOTOR, LENS MODULE AND ELECTRONIC DEVICE USING THE SAME, AND DRIVING METHOD FOR VOICE COIL MOTOR - A driving circuit for controlling a driving current is provided. A D/A converter has a precision of N bits and outputs a control signal for a driving current to a current driver. A logic unit receives input control data of M bits (M>N) and outputs intermediate control data of N bits to the D/A converter. A data extraction unit divides the input control data into a first data having N bits from the MSB and a second data having (M−N) bits from the LSB. A counter accumulatively adds the second data to generate a count. A carry detection unit asserts a carry signal when a carry at the MSB of the count is generated by the counter. An output control unit | 2015-09-10 |
20150256732 | Digital Image Capture Under Conditions Of Varying Light Intensity - An approach is provided to adjust a camera shutter lag. In the approach, data is collected that corresponds to an ambient light found in a physical environment with the ambient light being controlled using a pulse-width modulation (PWM). The pulse-width modulation corresponds to a PWM timing model. When an exposure request is received, the camera shutter lag is calculated using the PWM timing model. The calculated shutter lag is based on a future point in time at which the ambient light of the physical environment is predicted to be at a selected light output level, such as a power level selected by the user of a camera. When the calculated camera shutter lag has expired, a shutter of the camera is opened causing a camera lens to be exposed that results in a captured exposure. | 2015-09-10 |
20150256733 | POLARIZATION IMAGE PROCESSING APPARATUS - A polarization image processing apparatus includes an illumination unit, a splitter, first and second polarization imaging devices, and a processing unit. The illumination unit illuminates a first surface of a transparent or translucent object with first illumination light polarized in a first direction and second illumination light polarized in a second direction, which crosses the first direction, alternately. Illumination axes of the first illumination light and second illumination light substantially coincide with an imaging axis of the polarization image processing apparatus. The splitter divides returning light into at least two light components. The first and second polarization imaging devices receive the light components. The processing unit detects a condition of a second surface of the object on the basis of first and second polarization images obtained by the first polarization imaging device and third and fourth polarization images obtained by the second polarization imaging device. | 2015-09-10 |
20150256734 | IMAGING APPARATUS - An imaging apparatus includes an imaging lens; an imaging element which performs a photoelectric conversion with respect to light which is condensed using the imaging lens; and lens arrays which are configured by arranging micro lenses of which exposure conditions are different on a two-dimensional plane, are arranged by being separated on a front face of an imaging face of the imaging element, and causes light which is output from each micro lens to be formed as an image on the imaging face of the imaging element. | 2015-09-10 |
20150256735 | METHOD AND SYSTEM FOR PROCESSING AN IMAGE FEATURING MULTIPLE SCALES - A method of processing an image is disclosed. The method comprises obtaining an image decomposed into a set of scaled images, each being characterized by a different image-scale; and calculating, for each of at least some scaled images, a relative luminance between the scaled image and another scaled image of the set, using intensities in the scaled image and intensities in the another scaled image. The method further comprises processing each scaled image using an adaptation procedure featuring an image-specific effective saturation function of the relative luminance, thereby providing a processed scaled image; combining at least some of the processed scaled images to provide a combined image; and outputting the combined image to a computer readable medium. | 2015-09-10 |
20150256736 | IMAGING DEVICE - An imaging device includes an imaging lens; an imaging element which contains object imaging pixels and focal point detection pixels; and a lens array configured by micro lenses being arranged on a two-dimensional plane, and arranged on a front surface of an imaging surface of the imaging element to be distanced therefrom. | 2015-09-10 |
20150256737 | IMAGE PICKUP APPARATUS CAPABLE OF PERFORMING AUTOFOCUS CONTROL IN RESPONSE TO OUTPUT OF IMAGE PICKUP DEVICE, CONTROL METHOD THEREFOR, AND STORAGE MEDIUM STORING CONTROL PROGRAM THEREFOR - An image pickup apparatus that is capable of performing a focusing control with sufficient accuracy without restricting a settable range of a focus detection area. An image pickup device has pixels each of which has sub-pixels that receive light beams passing through different pupil areas. A correlation operation area including a focus detection area and a shift area is set in an image indicated by an output from the image pickup device. A defocus amount is calculated in response to a correlation amount found by applying a shift process to image signals from the sub-pixels. If the focus detection area is set at a position where the correlation operation area is set with a default width, the shift area is set with a predetermined width. Otherwise the shift area is set with a narrower width and the correlation operation area is set with a width narrower than the default width. | 2015-09-10 |
20150256738 | IMAGING APPARATUS AND EXPOSURE DETERMINING METHOD - It is intended to provide an imaging apparatus that enables proper exposure of phase difference detection pixels and thereby makes it possible to perform phase difference autofocusing with high accuracy. A system control unit | 2015-09-10 |
20150256739 | Fast Auto-Focus in Imaging - The disclosure relates to methods and systems for automatically focusing multiple images of one or more objects on a substrate. The methods include obtaining, by a processor, a representative focal distance for a first location on the substrate based on a set of focal distances at known locations on the substrate. The methods also include acquiring, by an image acquisition device, a set of at least two images of the first location. The images are each acquired using a different focal distance at an offset from the representative focal distance. The methods further include estimating, by a processor, an ideal focal distance corresponding to the first location based on comparing a quality of focus for each of the images, and storing the estimated ideal focal distance and the first location in the set of focal distances at known locations. | 2015-09-10 |
20150256740 | METHOD FOR CAPTURING PHOTOGRAPHS AND VIDEOS ON A HANDHELD CLIENT DEVICE WITHOUT CONTINUALLY OBSERVING THE DEVICE'S SCREEN - A client device for image capture in an eyes-free manner or without ongoing observance of the device's display screen to ensure proper framing and focusing. The client device may take the form of a smartphone, tablet, or the like. The client device includes an image capture application run by a processor to select a target to be included in a digital image captured by the client device's camera. The image capture application causes the processor to operate feedback mechanisms to prompt an operator of the client device to move the device so as to move the camera or its lens, before or during the capturing of the digital image, from a first orientation to a second orientation relative to the target. The image capture application urges the operator of the client device to hold their client device so as to better frame or focus on the selected target. | 2015-09-10 |
20150256741 | BLINK AND AVERTED GAZE AVOIDANCE IN PHOTOGRAPHIC IMAGES - A method of blink and averted gaze avoidance with a camera includes detecting an averted gaze of a subject and/or one or more closed eyes of the subject in response to receiving an input to actuate a camera shutter. The method also includes scheduling actuation of the camera shutter to a future estimated time period to capture an image of the subject when a gaze direction of the subject is centered on the camera and/or both eyes of the subject are open. | 2015-09-10 |
20150256742 | APPARATUS FOR ADJUSTING IMAGE CAPTURE SETTINGS - A device and method are provided for adjusting image capture settings. In one implementation, a wearable apparatus may include at least one wearable image sensor configured to capture a plurality of images from an environment of a user. The wearable apparatus may also include at least one processing device configured to identify, in at least one representation of at least one of the plurality of images, an existence of at least one visual trigger in the environment of the user, determine, based on a type of the at least one visual trigger, a value for at least one capturing parameter, cause the image sensor to capture at least one subsequent image according to at least the value of the at least one capturing parameter, determine a data size for storing at least one representation of the at least one subsequent image, and store, in a memory, the at least one representation of the at least one subsequent image. | 2015-09-10 |
20150256743 | Imager Device for Fusing an Image from Multiple Sources - Provided herein is an imager device for fusing an image from multiple sources. The device includes a focal plane array detector for obtaining an image of a scene at a first wavelength; a display projector for projecting a projected image of the scene obtained by the focal plane array detector at a second wavelength; and a splitter/combiner element positioned to direct a line of sight of the focal plane array detector in a first direction and to direct the projected image in a second direction. The device is configured such that a normal line of sight having a third wavelength passes through the splitter/combiner element without being deflected by the splitter/combiner element. An assembly including an optical scope and an imager device for fusing an image from multiple sources is also provided. The scope may be a direct view optical scope or an indirect view optical scope. | 2015-09-10 |
20150256744 | Enhancing Spatial Resolution of Images from Light Field Imaging Systems Using Sub-Pixel Disparity - A light field imaging system captures different images provide views that are shifted by sub-pixel amounts relative to one another. These views can be combined to produce a higher resolution digital image of the object. | 2015-09-10 |
20150256745 | COMPOUND EYE IMAGE PICKUP APPARATUS - A compound eye image pickup apparatus includes a plurality of optical systems ( | 2015-09-10 |
20150256746 | AUTOMATIC GENERATION OF VIDEO FROM SPHERICAL CONTENT USING AUDIO/VISUAL ANALYSIS - A spherical content capture system captures spherical video content. A spherical video sharing platform enables users to share the captured spherical content and enables users to access spherical content shared by other users. In one embodiment, captured metadata or video/audio processing is used to identify content relevant to a particular user based on time and location information. The platform can then generate an output video from one or more shared spherical content files relevant to the user. The output video may include anon-spherical reduced field of view such as those commonly associated with conventional camera systems. Particularly, relevant sub-frames having a reduced field of view may be extracted from each frame of spherical video o generate an output video that tracks a particular individual or object of interest. | 2015-09-10 |
20150256747 | SYSTEM AND METHOD FOR SUPPLYING POWER TO SURVEILLANCE VIDEO CAMERAS AND PROTECTION CASES FOR SUCH VIDEO CAMERAS - The present invention relates to a power supply system for video cameras ( | 2015-09-10 |
20150256748 | System Apparatus and Device for Facilitating Network Edge Device Backup and Methods of Operation Thereof - Disclosed is a system apparatus and device for facilitating the backup of network edge devices, such as video cameras, and methods of operation thereof. A monitoring circuit(s) may detect inoperable electrical power condition(s) (IEPC) on the power-line of a network edge device. Upon detection of an IEPC a backup power source may provide electrical power to the edge device. Upon detection of a connectivity fault between the edge device and its packet sink, a packet sink emulator may emulate a packet sink of the edge device. The disclosed system apparatus and device may be implemented as a SoC (System on Chip). | 2015-09-10 |
20150256749 | FRAME RATE DESIGNATION REGION - A method comprising receiving video information from a camera module such that the video information has a first frame rate, determining that at least a part of an object of interest is represented in the video information within a frame rate designation region of the video information, causing configuration of the camera module to capture the video information at a second frame rate, receiving the video information from the camera module such that the video information has the second frame rate, determining that at least a part of the object of interest is unrepresented in the video information within the frame rate designation region of the video information, causing configuration of the camera module to capture the video information at the first frame rate, and receiving the video information from the camera module such that the video information has the first frame rate is disclosed. | 2015-09-10 |
20150256750 | METHOD AND APPARATUS FOR CAPTURING VIDEO IMAGES INCLUDING A START FRAME - A method, apparatus and computer program product are provided so as to capture video images such that an image of a moment of significance is captured within the video. In the context of a method, an indication is received that a video capture user input will be subsequently provided directing that video images be captured. The method then determines whether a pre-roll is to be captured in advance of the video capture user input. The method causes the video images to be captured in response to the video capture user input. The video images include a start frame captured temporarily proximate receipt of the video capture user input. The method receives a video capture completion user input indicating that the capturing of the video images should be ceased. In response to receipt of the video capture completion user input, the method causes a post-roll to be captured. | 2015-09-10 |
20150256751 | IMAGING APPARATUS - The imaging apparatus has a single shooting mode and a continuous shooting mode, and includes: an imaging element configured to generate image data; a mechanical shutter configured to control exposure of the imaging element; a charge block including a driving mechanism configured to drive the mechanical shutter and a motor configured to provide a driving force for the driving mechanism, and a control section configured to control the charge block. The control section performs a charging operation for charging the driving mechanism by causing the motor to rotate in a capturing operation, performs the charging operation in a first time period in a case where the imaging apparatus is in the continuous shooting mode, and performs the charging operation in a second time period which is longer than the first time period in a case where the imaging apparatus is in the single shooting mode. | 2015-09-10 |
20150256752 | Multi-Field CCD Capture for HDR Imaging - Techniques are described to combine image data from multiple images with different exposures into a relatively high dynamic range image. A first image of a scene may be generated with a first operational mode of an image processing system. A second image of the scene may be generated with a second different operational mode of the image processing system. The first image may be of a first spatial resolution, while the second image may be of a second spatial resolution. For example, the first spatial resolution may be higher than the second spatial resolution. The first image and the second image may be combined into an output image of the scene. The output image may be of a higher dynamic range than either of the first image and the second image and may be of a spatial resolution higher than the second spatial resolution. | 2015-09-10 |
20150256753 | IMAGE STABILIZATION APPARATUS, METHOD OF CONTROLLING THE SAME, IMAGE CAPTURING APPARATUS, LENS APPARATUS, AND STORAGE MEDIUM - An image stabilization apparatus comprises a signal separation unit configured to separate a shake signal into a low frequency band and a high frequency band, a panning determination unit configured to determine, based on an output from the shake detection unit, whether a panning operation is performed, and a control unit configured to control a first image stabilization unit based on the high frequency band and control a second image stabilization unit based on the low frequency band, wherein the apparatus has a first mode in which if the panning determination unit determines that a panning operation is performed, control is performed to make the second image stabilization unit approach a center of correction, and no control is performed to make the first image stabilization unit approach a center. | 2015-09-10 |
20150256754 | AUTO LEVELING IMAGE CAPTURE OF A HAND-HELD DEVICE - In some implementations, a mobile device such as a smartphone or a tablet computer, will capture a substantially horizontal image when the user indicates initiation of an auto-leveling-image-capture mode and when an orientation detection component, such as a gyroscope, indicates that the mobile device is horizontal. | 2015-09-10 |
20150256755 | ONE-PASS VIDEO STABILIZATION - A device is disclosed comprising a memory configured for holding video and a processor coupled to the memory. The memory contains computer-executable instructions that, when executed by the processor, cause the device to perform operations to stabilize the video, the operations comprising buffering consecutive original video frames, determining transformation matrices from subsets of the original video frames, wherein the transformation matrices represent estimates of stable camera motion, using the transformation matrices to warp the original video frames and generate video that is stabilized relative to the original video frames, and adjusting a size of a subset of original video frames in response to detecting a condition. | 2015-09-10 |
20150256756 | IMAGING APPARATUS - Provided is an imaging apparatus which corrects uneven exposure caused when a sensor-shift image stabilization and an electronic front curtain reset are used concurrently. The imaging apparatus includes: a camera shake detector configured to detect a camera shake; an imaging device configured to capture a subject image; an image stabilizer configured to move the imaging device in a plane perpendicular to an optical axis; an electronic front curtain configured to reset electric charges accumulated in the imaging device; a mechanical shutter configured to switch between blocking and passing of a subject image to be collected onto the imaging device; and an image stabilization controller configured to produce an image stabilization signal from the camera shake detected by the camera shake detector and configured to control the image stabilizer. The image stabilization controller controls the imaging device to move to a specified position and then controls the electronic front curtain to operate in response to the shooting instruction. | 2015-09-10 |
20150256757 | PROVIDING A FRAME OF REFERENCE FOR IMAGES - A method may include receiving a selection of an area of a body. The method may also include generating one or more gridlines in a viewfinder associated with a field of view of a camera based on the selected area. The one or more gridlines may be configured based on the area. | 2015-09-10 |
20150256758 | Image Acquisition Method, Electronic Apparatus, Electronic Device, and Storage Medium - The present disclosure provides an image acquisition method, an electronic apparatus, an electronic device, and a storage medium. The method includes: receiving an image function enabling instruction and controlling, according to the image function enabling instruction, a touch display apparatus to enter an image acquisition interface; receiving a touch action on a screen of the image acquisition interface; determining whether image acquisition duration of the touch action on one same area of the screen of the image acquisition interface is greater than or equal to a preset image acquisition preparation time; and controlling an image sensing apparatus to acquire a corresponding image if the image acquisition duration of the touch action on the screen of the image acquisition interface is greater than or equal to the image acquisition preparation time. | 2015-09-10 |
20150256759 | IMAGING APPARATUS AND METHOD FOR CONTROLLING IMAGING APPARATUS - An imaging apparatus includes an imaging unit having an optical zoom mechanism that optically changes magnification and capturing an image, an image processing unit that performs image processing including an electronic zoom process that enlarges part of the image captured with the imaging unit by cutting the image, an input unit that accepts an input that specifies an output range of the image, and a control unit that controls the imaging unit and the image processing unit, and when the output range is specified, the control unit causes the imaging unit to perform imaging at a magnification determined in accordance with the amount of deviation of the output range from the center of a viewing angle of the imaging unit and causes the image processing unit to carry out the electronic zoom process that enlarges the image by cutting the output range from an image captured at the magnification. | 2015-09-10 |
20150256760 | METHOD OF CORRECTING SATURATED PIXEL DATA AND METHOD OF PROCESSING IMAGE DATA USING THE SAME - Methods of correcting saturated pixel data in an image sensor are provided. A method of correcting saturated pixel data in an image sensor includes determining a weight function. The weight function indicates a correlation between color values of saturated pixels and color values of neighboring pixels. The saturated pixels are among a plurality of pixels which have a color value greater than a saturation threshold value. The neighboring pixels are among the plurality of pixels that are proximate to each of the saturated pixels. The method includes determining weight values of a neighboring pixels that are proximate to a first saturated pixel using the weight function. The method includes determining a weighted average value of the color values of each of the neighboring pixels using the weight values. The method includes correcting the color value of the first saturated pixel to the weighted average value. | 2015-09-10 |
20150256761 | OBJECT INFORMATION ACQUIRING APPARATUS AND SIGNAL PROCESSING METHOD - An object information acquiring apparatus comprising: a receiver configured to receive an acoustic wave propagating from an object; a distribution acquiring unit configured to acquire a distribution of object information by acquiring pieces of object information relative to respective positions in an object from a received acoustic wave; a resolution information acquiring unit configured to acquire a distribution of resolution information that is based on pieces of resolution information of object information relative to each of the positions; and an intensity correction processor configured to correct an intensity of each piece of object information included in a distribution of object information on the basis of a distribution of resolution information. | 2015-09-10 |
20150256762 | EVENT SPECIFIC DATA CAPTURE FOR MULTI-POINT IMAGE CAPTURE SYSTEMS - The present invention provides methods and apparatus for collecting ambient data streams during live performances where the audio and video aspects of the performance are also recorded at multiple points in a specific venue. In some examples, recorded ambient data streams may be mixed with the audio and video streams and broadcast to users. | 2015-09-10 |
20150256763 | METHOD AND APPARATUS FOR CREATING MOTION EFFECT FOR IMAGE - A method includes maintaining images and associated video streams; detecting a swipe gesture of a user on a touch sensitive display, wherein the swipe gesture comprises direction and speed information; and selecting an image based on the direction information of the swipe gesture. The method includes adjusting a playback of an associated video stream based on the direction and the speed information of the swipe gesture; providing the associated video stream on the display during the swipe gesture, for creating a motion effect relating to the image; and providing the image on the display after the swipe gesture. | 2015-09-10 |
20150256764 | ACTIVE-TRACKING BASED SYSTEMS AND METHODS FOR GENERATING MIRROR IMAGE - An active-tracking based system for generating a mirror image includes a position sensing module for determining the position of an observer relative to a surface, and a camera module for generating the mirror image based upon the position determined by the position sensing module, as the mirror image would have been experienced by the observer if the surface had been a mirror. An active-tracking based method for generating a mirror image includes (a) determining the position of an observer relative to a surface, (b) capturing at least one image, and (c) generating, from the at least one image, the mirror image as the mirror image would have been experienced by the observer if the surface had been a mirror. | 2015-09-10 |
20150256765 | CHARGE INJECTION COMPENSATION FOR DIGITAL RADIOGRAPHIC DETECTORS - Embodiments of DR detector methods and/or apparatus for charge compensation can provide charge injection and/or at least one charge injection circuit that can temporally cancel charge injection to readout circuits resulting from positive (and/or negative) transitions of gate lines for pixel signal readout. In certain exemplary embodiments, DR detector imaging array methods and/or apparatus can provide variable charge injection levels (e.g., voltage or capacitance), variable Tau (e.g., resistance or capacitance), and/or multi-charge injection with staggered timing (e.g., using voltage and/or capacitance steps). In certain exemplary embodiments, DR detector imaging array methods and/or apparatus can provide charge injection compensation on ROIC on mask block basis. In exemplary embodiments, DR detector imaging array methods and/or apparatus can provide voltage reset off-set in readout circuits (e.g., ROICs). | 2015-09-10 |
20150256766 | IMAGE CAPTURING APPARATUS, CONTROL METHOD OF IMAGE CAPTURING APPARATUS, AND PROGRAM - An image-capturing apparatus includes an insertion and removal unit configured to insert and remove the infrared light cut filter to and from an optical path of the image-capturing optical system. An adjustment command capable of describing a brightness value of a brightness of the subject and a delay time for determining the brightness and capable of separately describing the brightness value in each of the cases where the infrared light cut filter is inserted into or removed from the optical path is received from the external apparatus via a network. A determination is made as to whether a content of an adjustment command matches a content stored in advance, and the brightness value and the delay time included in the adjustment command are converted into values that can be set in a case where the determination unit determines that the content of the adjustment command matches the content stored. | 2015-09-10 |
20150256767 | DIGITAL CAMERA - A digital camera has a 2D image sensor designed as a CCD or CMOS sensor that can be used to measure distances based on a runtime measurement in synchronization with a pulsed infrared source. The measured distances are used to carry out a 3D reconstruction of a detected object. The digital camera does not have to have an infrared cut-off filter; however, it can have an infrared cut-off filter that can be dynamically activated in full or in part or deactivated in relation to pixels of the image sensor. In the latter event, individual areas of the image sensor, for which the infrared cut-off filter is deactivated, are used for the 3D reconstruction or for images in the infrared range. The remaining areas of the sensor are used for images of high color quality in the visible light spectrum. In the event that no infrared cut-off filter is present, individual areas of the image sensor are used for the 3D reconstruction or for images in the infrared range. The remaining areas of the sensor are used for images in the visible light spectrum. | 2015-09-10 |
20150256768 | MULTI-SPECTRAL OPTICAL TRACKING SYSTEM AND METHODS - Methods and apparatus for producing multi-spectral images having variable (non-uniform) magnification over the lateral extent of the image. In one example, a multi-spectral imaging system includes a first sensor sub-system configured to receive electromagnetic radiation in a first spectral band from a scene and to provide a first image signal, a second sensor sub-system configured to receive electromagnetic radiation in a second spectral band from the scene and to provide a second image signal, a processor coupled to the first and second sensor sub-systems and configured to produce a first image of the scene from the first image signal, and a second image of the scene from the second image signal, the second image having a variable lateral magnification, and a display coupled to the processor and configured to display the second image overlaid with the first image. | 2015-09-10 |
20150256769 | IMAGE SENSOR AND METHOD OF MANUFACTURING THE SAME - Provided are an image sensor and a method of manufacturing the same. The method may include forming a photo-electric conversion region and a charge storage region in a semiconductor layer; forming a transistor on a front surface of the semiconductor layer; forming a recess by etching a portion of the semiconductor layer between the charge storage region and a rear surface of the semiconductor layer; and forming on a bottom surface of the recess a shield film that blocks light incident on the charge storage region. | 2015-09-10 |
20150256770 | SOLID-STATE IMAGE SENSOR DEVICE - A solid-state image sensor device according to an embodiment includes an image pickup section, a first read signal line, a second read signal line, and an exposure time control section. The image pickup section includes a plurality of pixels arranged two-dimensionally in a matrix form. The first read signal line controls reading of charge accumulated in the plurality of pixels and be connected to a first pixel arranged in a center of a first row on which the plurality of pixels are arranged. The second read signal line controls reading of charge accumulated in the plurality of pixels and be connected to a second pixel arranged in a periphery outside the center of the first row. The exposure time control section performs control so that an exposure time of the second pixel becomes longer than an exposure time of the first pixel. | 2015-09-10 |
20150256771 | SOLID-STATE IMAGING DEVICE - According to one embodiment, a solid-state imaging device includes an ADC circuit configured to AD-convert signal components read from first pixels, based on a comparison result with a reference voltage superposed with a clamp voltage, and an AD clamp circuit configured to perform calculation, based on a relationship between an AD conversion value of a black level, which is read from light-shield pixels when a predetermined clamp voltage is given, and the clamp voltage, and further based on a change amount of the black level relative to the clamp voltage, wherein the calculation is to calculate a clamp voltage corresponding to a target value of a black level read from the light-shield pixel. | 2015-09-10 |
20150256772 | Systems and Methods for Reducing Noise in Video Streams - Disclosed are apparatus and methods for denoising a video stream of a camera. A current frame of the video stream and a temporally adjacent frame of the video stream that has been previously spatially and temporally denoised are obtained. The current frame is first spatially denoised, while preserving edges in such current frame to generate a plurality of spatially denoised pixels for the current frame. A particular pixel of the current frame is then both spatially and temporally denoised based on a weighted averaging of the particular pixel's associated spatially denoised pixel from the current frame and a plurality of pixels from the temporally adjacent frame that have already been spatially and temporally denoised. | 2015-09-10 |
20150256773 | SOLID-STATE IMAGE SENSOR DEVICE AND METHOD OF ESTIMATING CORRECT EXPOSURE - In an embodiment, a sensor unit has a pixel region portion including a plurality of pixels two-dimensionally disposed in rows and columns, a timing generator configured to control exposure times for the plurality of rows so that the exposure times for the pixels are varied with respect to the rows, a comparator configured to make a comparison between a reference value and an integrated value of pixel data on each row on which the exposure times are controlled, and a register configured to hold exposure time information on the row at a match point at which a match occurs between the integrated value and the reference value as a result of the comparison. | 2015-09-10 |
20150256774 | IMAGING DEVICE AND CAMERA SYSTEM INCLUDING SENSE CIRCUITS TO MAKE BINARY DECISION - An imaging device includes: a pixel array section having an array of pixels, each of which has a photoelectric converting device and outputs an electric signal according to an input photon; a sense circuit section having a plurality of sensor circuits each of which makes binary decision on whether there is a photon input to a pixel in a predetermined period upon reception of the electric signal therefrom; and a decision result IC section which integrates decision results from the sense circuits, pixel by pixel or for each group of pixels, multiple times to generate imaged data with a gradation, the decision result IC section including a count circuit which performs a count process to integrate the decision results from the sense circuits, and a memory for storing a counting result for each pixel from the count circuit, the sense circuits sharing the count circuit for integrating the decision results. | 2015-09-10 |
20150256775 | Method and Apparatus for Correcting Lens Distortion - The present invention discloses a method and an apparatus for correcting lens distortion. In some feasible implementation manners of the present invention, image data acquired from a lens is corrected in a horizontal direction; the image data corrected in the horizontal direction is written into a dynamic memory; image data in the dynamic memory is corrected in a vertical direction; and lens distortion correction is performed in two steps: in the horizontal direction and in the vertical direction, so that lens distortion correction is implemented at a low cost. The present invention further discloses a corresponding apparatus for correcting lens distortion. | 2015-09-10 |
20150256776 | IMAGING APPARATUS AND DARK CHARGE MEASURING METHOD - An imaging apparatus including: a solid-state imaging device including pixels arranged in rows and columns, the device including: an OB pixel unit including rows of light-shielding pixels among the pixels; and a valid pixel unit including pixels allowing light from the subject to enter among the pixels; an exposure control unit which exposes the second pixel unit; a read line selecting unit which sequentially selects one or more pixel rows of the OB pixel unit, at different timings during exposure of the valid pixel unit, and causes each of pixels of the one or more pixel rows to output a pixel signal; and a dark charge measuring unit which measures the quantity of dark charge due to dark current of the device using current ones of pixel signals, each time pixel signals are output from the OB pixel unit through the selection by the read line selecting unit. | 2015-09-10 |
20150256777 | SOLID-STATE IMAGING APPARATUS AND METHOD OF DRIVING THE SAME - A solid-state imaging apparatus has: a signal readout circuit including a charge storage region connected to a photoelectric conversion region, and a reset transistor connected at one of source and drain to the charge storage region; and a negative feedback circuit that feeds back an output of the signal readout circuit in a negative feedback manner to the other of the source and drain of the reset transistor. A reset operation for discharging a charge stored in the charge storage region includes a first period in which the negative feedback circuit is OFF and a second period which occurs after the first period and in which the negative feedback circuit is ON. In the first period, the reset transistor changes from OFF to ON and then to OFF. In the second period, such a reset transistor control voltage is applied that makes the reset transistor to gradually change to ON. | 2015-09-10 |
20150256778 | IMAGE SENSOR AND IMAGE-CAPTURING DEVICE - An image sensor includes: first pixels, each of which receives a pair of light fluxes and outputs a pair of first analog signals; an A/D conversion unit that converts each of pairs of first analog signals to a pair of first digital signals; a digital adder unit that generates digital sum signals each by adding together the pair of first digital signals among pairs of first digital signals; a first output unit that outputs pairs of first digital signals to an external recipient; and a second output unit that outputs the digital sum signals to an external recipient. | 2015-09-10 |
20150256779 | SOLID-STATE IMAGE SENSOR, METHOD OF CONTROLLING THE SAME, AND STORAGE MEDIUM - A solid-state image sensor comprises unit pixels, each unit pixel including photodiodes, transfer switches, a floating diffusion portion, and reset means, and an AD converter, wherein the AD converter includes a reference signal generator and a comparator that compares the reference signal and analog signal and vary an output depending on a magnitude relationship, the floating diffusion portion accumulates a first signal obtained by transferring a signal of at least one of the photodiodes, and adds, to the first signal, a second signal obtained by transferring a signal of at least one of the photodiodes, and the AD converter operates in a first AD conversion mode when AD-converting the first signal, and operates in a second AD conversion mode when AD-converting the second signal. | 2015-09-10 |
20150256780 | SHARED ACTIVE PIXEL SENSOR - A shared active pixel sensor includes a first shared photodiode, a first shared sense node, a first transfer gate, a first shared reset gate and a first shared source follower gate. The first shared photodiode consists of a first signal node and a second signal node. The first shared sense node is electrically connected to the first shared photodiode. The first transfer gate is disposed between the first signal node and the first shared sense node so that the first signal node and the first shared sense node together serve as a source and a drain controlled by the first transfer gate. The first shared reset gate is electrically connected to the first shared sense node. The first shared source follower gate is capable of reading a photocurrent from the first shared photodiode. | 2015-09-10 |
20150256781 | SOLID-STATE IMAGE PICKUP DEVICE, IMAGE PICKUP DEVICE, AND SIGNAL READING METHOD - A solid-state image pickup device according to one embodiment of the present invention includes: electrically coupled substrates on which circuit elements constituting a pixel are arranged; a photoelectric conversion element included in the pixel; a reading circuit that reads from the pixel, a signal based on a signal generated by the photoelectric conversion element; and first to n-th circuit sets each including a circuit element that reads a signal by a corresponding one of first to n-th reading modes. n is an integer such that n≧2. The circuit elements arranged on one of the substrates is used to complete operations from generation of the signal by the photoelectric conversion element to reading of the signal by at least one of the first to n-th reading modes. The photoelectric conversion element, the reading circuit, and at least one of the first to n-th circuit sets which corresponds to the at least one of the first to n-th reading modes, are arranged on the one of the substrates. | 2015-09-10 |
20150256782 | REFERENCE VOLTAGE CIRCUIT AND IMAGE-CAPTURE CIRCUIT - A reference voltage circuit for generating a reference voltage to be referred when a pixel signal is digitally converted, includes ramp voltage generating means for generating a ramp voltage which drops from a predetermined initial voltage at a certain gradient, a transistor for forming, together with the ramp voltage generating means, a current mirror circuit, and gain change means for changing a current value of a current flowing from a predetermined power supply via the transistor to change the gradient of the ramp voltage generated by the ramp voltage generating means. | 2015-09-10 |
20150256783 | SOLID-STATE IMAGE PICKUP DEVICE AND METHOD OF DRIVING THE SAME - A solid-state image pickup device which includes, on a semiconductor substrate, an image pickup area which includes plural columns of pixels, and plural column amplifier circuits each provided at each column of pixels or at every plural columns of pixels, wherein: each of the column amplifier circuits includes at least two amplifier circuit stages; a preceding amplifier circuit is a variable-gain amplifier circuit and the switchable gains include plural one or more gains; and a subsequent amplifier circuit is capable of amplifying, at one or more gains, the signal amplified at one or more gains in the preceding amplifier circuit. | 2015-09-10 |
20150256784 | METHOD FOR PERSONAL VOICE ASSISTANT, LOCATION SERVICES, MULTI-MEDIA CAPTURE, TRANSMISSION, SPEECH CONVERSION, METATAGS CREATION, STORAGE AND SEARCH RETRIEVAL - This invention relates to a network interface device. A first capture device interfaces with a first external information source to capture first external information. A processor processes the captured first external information and stores it in a first media. The processor initiates the storage of the first captured information at an initial time and completes storage of the first captured information at a completion time, thus providing a stored defined set of first captured information. A transmitter transmits the defined set of stored captured information to a remote location on a network. A remote processing system is disposed at the remote node on the network and includes a database and a receiver for receiving the transmitted defined set of first captured information. A data converter is operable to convert the received defined set of first captured information to a second format. The database stores the set of converted captured information. | 2015-09-10 |
20150256785 | DEVICE CONTROL INTERFACE CABLE AND ASSOCIATED CONTROL SYSTEMS - Methods and implementations of using a device interface cable assembly are described herein. In some examples, a modular cable and device interface cable assembly may connect a control system such as a home automation control system to a device control port on a device such as a television. A controller device may use the device interface cable assembly and modular cable to send or receive commands and status messages to or from a remote device. Customized commands may provide direct access to all of the functionality in the remote device, and may avoid the need to navigate a series of menus on the remote device. The modular cable and device interface cable assembly may provide two-way communication between the control system and the remote device. Two-way communication may include verification of command message or gestures, or may include retrieval of remote device status information. | 2015-09-10 |
20150256786 | SET TOP BOX, DISPLAY SYSTEM, DISPLAY DEVICE, TELEVISION RECEIVER, CONTROL METHOD, PROGRAM, AND RECORDING MEDIUM - The set top box ( | 2015-09-10 |
20150256787 | RECEIVER APPARATUS, TUNER, AND CIRCUIT - Provided is a receiver apparatus, including: a first receiver configured to receive a first signal having a first frequency band; and a second receiver configured to receive a second signal having a second frequency band, the second frequency band being different from the first frequency band, in which a signal path for the first signal and a signal path for the second signal share at least one component in a signal path for extracting an intermediate-frequency signal from a received signal, the component being configured to extract a signal of a particular channel from the received signal as the intermediate-frequency signal. | 2015-09-10 |
20150256788 | PROJECTOR AND CONTROL METHOD FOR PROJECTOR - A projector includes a light source, a light modulation device that modulates light emitted from the light source according to a video signal, a projection optical system that projects image light which is modulated by the light modulation device, a display unit that is provided in a main body of the projector, an acquisition unit that acquires information indicating a state regarding the video signal, and a control unit that displays the information indicating a state regarding the video signal, acquired by the acquisition unit, on the display unit. | 2015-09-10 |
20150256789 | METHOD, APPARATUS AND TERMINAL FOR PLAYING MULTIMEDIA CONTENT - The present disclosure discloses method, apparatus, and a terminal for playing multimedia content, and relates to the field of computer technologies. The method includes: identifying a video encoding format, an audio encoding format, and a file format of a multimedia file; detecting whether the video encoding format can be processed by a graphics processing unit; when the video encoding format cannot be processed by the GPU, playing the multimedia file by using an application program that can process the video encoding format through a central processing unit; when at least one of the audio encoding format and the file format cannot be processed by the GPU, transcoding the multimedia file from the at least one format into a corresponding format that can be processed by the GPU; and sending the transcoded multimedia file to the GPU, so that the GPU plays the multimedia file. | 2015-09-10 |
20150256790 | CONVERTER DEVICE AND SYSTEM INCLUDING CONVERTER DEVICE - Systems and apparatus may include converter device(s), a matrix switch, processor(s), and memory(s), where one or more of the converter devices provide video input signals to the matrix switch. A processor may determine if one of a plurality of video signals input to the matrix switch includes data representative of identification information overlain on a video image derived from one of the plurality of video signals. The determination may be based on a flag value stored in the converter device(s). The flag value may be retrieved by a server coupled to the matrix switch. If the information is included in the video signal, the video signal may be passed through a path in a matrix switch configured by the processor. If the information is not included in the video signal, the data representative of identification information may be retrieved from the converter device and then overlain on the video image. | 2015-09-10 |
20150256791 | ELECTRONIC DEVICE, DISPLAY SYSTEM AND IMAGE PROCESSING METHOD - An electronic device includes a display unit; a memory unit; and a processing unit electrically connected to the display unit and the memory unit, the processing unit capturing (N+M) frames displayed by the display unit, N and M being positive integers, the N frames having a first resolution, the M frames having a second resolution, the first resolution being larger than the second resolution, the processing unit converting a color space of the (N+M) frames and encoding the (N+M) frames, the processing unit magnifying a size of each of the M frames to be equal to a size of each of the N frames, the processing unit encapsulating and outputting the (N+M) frames. | 2015-09-10 |
20150256792 | IMAGING APPARATUS AND FOCUS CONTROL METHOD - It is intended to provide an imaging apparatus and a focus control method that can prevent AF speed reduction even at the occurrence of a flicker. A system control unit | 2015-09-10 |
20150256793 | Sharing Content - A user terminal comprising: a network interface; a display; a content sharing module configured to display content shared with a further user terminal on the display, and receive position data from the further user terminal via the network interface, said position data indicating a position within the shared content associated with a user at the further user terminal; and a communications module. The communications module configured to: receive video data from the further user terminal over a communications network during a communication event with at least said further user terminal via the network interface; and control the video data received from said further user terminal to be displayed on said display in dependence on the position within the shared content associated with the user at the further user terminal. | 2015-09-10 |
20150256794 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD AND INFORMATION PROCESSING PROGRAM - In a video communication performed by using an imaging unit and a video display device, a communication terminal acquires a video captured by the imaging unit, stores at least a part of the acquired video in a storing unit, and determines a video of a predetermined interval after a start of the video communication being currently in progress from the stored video, as a replacement video. Then, the communication terminal is triggered when a predetermined start condition is satisfied during the output of the video captured by the imaging unit, and outputs the replacement video instead of the video. | 2015-09-10 |
20150256795 | PARTICIPATING IN AN ONLINE MEETING WHILE DRIVING - A technique enables a user to participate in an online meeting. The technique involves receiving, by processing circuitry of a vehicle, a join instruction to join the online meeting. The technique further involves performing, by the processing circuitry of the vehicle, a communications exchange with a remote online meeting server in response to the join instruction, the communications exchange establishing an online meeting session with the remote online meeting server to join the processing circuitry of the vehicle to the online meeting. The technique further involves outputting, after the online meeting session is established and by the processing circuitry of the vehicle, video of the online meeting on a display screen which is integrated with the vehicle. Along these lines, the display screen can output a static image while the vehicle is moving and moving video while the vehicle is not moving (e.g., parked). | 2015-09-10 |
20150256796 | DEVICE AND METHOD FOR LIVE VIDEO CHAT - A server device bridges a live video chat between two terminals, and then terminates the live video chat after a short period of time has elapsed since the live video chat, in order to reduce the pressure and fear of the parties to the live video chat. | 2015-09-10 |