Abstract: An image display device that displays image information includes an image retrieving unit that retrieves image information; a device status identifying unit that identifies a status of the present device; an image condition specifying unit that specifies an image condition that indicates a condition which the image information needs to satisfy to be displayed, based on the status identified by the device status identifying unit; and a display unit that displays the image information retrieved by the image retrieving unit if the image information satisfies the image condition specified by the image condition specifying unit.

Abstract: The present invention relates to technical field of analog integrated circuit design. TDI function is better realized by CMOS image sensor and it improves scanning frequency of the CMOS-TDI image sensor and extends application range of TDI technique. To this end, the present invention proposes a technical solution of a current accumulative pixel structure for CMOS-TDI image sensor which comprises a photodiode, four MOS transistors M1, M2, M3, M4, four switches S1, S2, S3, S4, and two capacitors C1, C2; the connection relationship thereof is denoted below: the anode of the photodiode D1 is connected to a ground wire, while the cathode thereof is connected to an input end; the drain and gate of the transistor M1 are both connected with the input end, while the source thereof is connected with a power source VDD. The current invention mainly finds its application in analog integration circuit design.

Abstract: An image generating device has a camerawork information extracting unit (315) that extracts imaging information of a captured image, a composition information calculating unit (316) that decides a cut-out frame for cutting out a new image from the imaging information and the captured image based on a constraint condition, and a composition information shaping unit (317) that cuts out the new image from the captured image by using the cut-out frame and converts a size of the new image to a predetermined size. With this configuration, the new image generated from the captured image becomes a favorable image that is easy to see for a viewer, without requiring skilled imaging techniques during capturing.

Abstract: An imaging device includes at least one pixel having a phototransistor which converts light energy into signal charge and varies an amplification factor relative to the intensity of the received light energy, wherein the signal charge of the phototransistor is read out while receiving the light energy with the phototransistor for each pixel.

Abstract: An image processing apparatus includes a determination unit (105) configured to determine a zooming direction, and a calculation unit (109) configured to calculate a correction coefficient for correcting aberration at a zoom position predicted from the zooming direction.

Abstract: An image sensor may be provided. The image sensor may be a high-capacitance image sensor or a dual-mode image sensor having a high-capacitance operational mode. A high-capacitance image sensor may include image detectors and associated unit cells. During operation, the image sensor may integrate image signals from each detector row using unit cells in multiple unit cell rows. The image sensor may integrate and readout image signals in an interleaved process that allows each detector row to capture image data using multiple unit cells. A dual-mode image sensor may operate in a similar manner to a high-capacitance image sensor when operated in the high-capacitance mode. The dual-mode image sensor may have switches interposed between unit cells to selectively couple and decouple the unit cells for switching between the high-capacitance mode and a normal operational mode.

Abstract: Systems and methods for implementing array cameras configured to perform super-resolution processing to generate higher resolution super-resolved images using a plurality of captured images and lens stack arrays that can be utilized in array cameras are disclosed. An imaging device in accordance with one embodiment of the invention includes at least one imager array, and each imager in the array comprises a plurality of light sensing elements and a lens stack including at least one lens surface, where the lens stack is configured to form an image on the light sensing elements, control circuitry configured to capture images formed on the light sensing elements of each of the imagers, and a super-resolution processing module configured to generate at least one higher resolution super-resolved image using a plurality of the captured images.

Abstract: Keying may be used to indicate various features of cables, cable connectors, and/or equipment. The keying mechanisms of the connectors systems disclosed herein identifies whether each plug is a pinned plug or a pinless plug. The keying mechanisms disclosed herein identify the number of optical fibers terminated at each plug. For example, one type of keying mechanism may indicate a cable plug manufactured under a 40 Gb/sec standard and another type of keying mechanism may indicate a cable plug manufactured under a 100 Gb/sec standard. The keying mechanisms may indicate a cabling/wiring pattern to be used (e.g., indicates a polarity of the cable). The cables and/or plugs may be color coded based on the keying mechanism. Accordingly, the keying may alert a user to the features of the cable that are not readily apparent upon a cursory inspection.

Abstract: A control apparatus includes a first processing unit configured to calculate correlation information between image signals, which are respectively output from one of the pixel portions positioned in one of a plurality of first regions, a focus detection unit configured to perform focus detection on the basis of a calculation result by the first processing unit, a second processing unit configured to calculate correlation information between image signals, which are respectively output from the one of the pixel portions positioned in one of a plurality of second regions, a distribution information calculation unit configured to calculate distribution information corresponding to an object distance on the basis of a calculation result by the second processing unit, and a control unit configured to control the second processing unit and the distribution information calculation unit on the basis of the correlation information calculated by the first processing unit.

Abstract: Automatically configuring a portable electronic device for accessing a site on a public network is disclosed. The method and system include establishing a connection to at least one server for establishing and maintaining website accounts, and sending information uniquely identifying the electronic device to the at least one server. The at least one server sends user account information to the device, including an account ID and password, created based on the electronic device information. The user account information is stored on the device for use the next time the device accesses the website, whereby the user does not have to enter account information in order to establish the ISP connection or the website account before accessing the public network or, if the user account is not completely set up, to establish the user account a next time the device connects to the at least one server.

Abstract: A planar wave guide (PWG) having a first end for coupling to a light pump and a second end opposite to the first end and including a first cladding layer; a second cladding layer; and a uniformly doped core layer between the first cladding layer and the second cladding layer, wherein the core layer is tapered having a smaller thickness at the first end and a larger thickness at the second end, and wherein a ratio of the core thickness to thickness of the cladding layers is smaller at the first end and larger at the second end.

Abstract: A photonic waveguide for conducting light having first and second wavelengths, the waveguide comprising superposed first and second strips of light conducting semiconductor materials having first and second refractive indexes, wherein the second wavelength is shorter than the first wavelength and the second refractive index is higher than the first refractive index, wherein the width and height of the first strip of light conducting semiconductor material are such that the first strip of light conducting semiconductor material is adapted to confine an optical mode of the first wavelength and the width and height of the second strip of light conducting semiconductor material are such that the second strip of light conducting semiconductor material is adapted to confine an optical mode of the second wavelength but is too narrow to confine an optical mode of the first wavelength.

Abstract: A method and apparatus provide automatic stage scene detection. A first image of a scene can be captured using a frame luma for automatic exposure control. A brightness contrast can be calculated between a center region of the first image and areas surrounding the center region of the first image. A brightness value can be ascertained for the entire first image. The first image can be determined to be a stage scene image based on the brightness contrast being greater than a stage scene contrast threshold and the brightness value for the entire first image being less than a stage scene brightness value threshold. The frame luma for the automatic exposure control can be adjusted for correct exposure of the center region of the first image in response to determining the first image is a stage scene.

Abstract: An arrayed waveguide grating device and a method for manufacturing the arrayed waveguide grating device. The arrayed waveguide grating device includes input channel waveguides formed on a substrate; output channel waveguides formed on the substrate that correspond to the input channel waveguides; and arrayed waveguides with different lengths interposed between the input channel waveguides and the output channel waveguides on the substrate while free propagation regions being formed at both ends of the arrayed waveguides, wherein the arrayed waveguides are designed so that a free spectral range (FSR) of a higher-order mode is twice or greater than a bandwidth of a region of interest (ROI).

Abstract: A strain relief device for armored fiber optic cable is described. The strain relief device can made up of a boot collet and a collet nut. The boot collet can have a collet, flexible boot, boot collet threads, and a camming surface. The collet nut can have collet nut threads and a collet nut slope. The strain relief device operates by having the camming surface engage the collet nut slope, causing the collet to compress onto the armor sheath when the boot collet threads engage the collet nut threads as the collet nut is tightened onto the boot collet.

Abstract: A camera array, an imaging device and/or a method for capturing image that employ a plurality of imagers fabricated on a substrate is provided. Each imager includes a plurality of pixels. The plurality of imagers include a first imager having a first imaging characteristics and a second imager having a second imaging characteristics. The images generated by the plurality of imagers are processed to obtain an enhanced image compared to images captured by the imagers. Each imager may be associated with an optical element fabricated using a wafer level optics (WLO) technology.

Abstract: In an embodiment, a pluggable connector configured to removably couple an end of an optical cable to an optoelectronic module includes a first portion and a second portion. The first portion is configured to engage a latch slot of the optoelectronic module to retain within the optoelectronic module a ferrule optically coupled to optical fibers of the optical cable. The second portion is configured to engage the ferrule to prevent removal of the ferrule from within the optoelectronic module when the first portion engages the latch slot.

Abstract: An image sensor may include: a photoelectric conversion element; a transfer gate formed over the photoelectric conversion element; a plurality of active pillars electrically coupled to the photoelectric conversion element by penetrating the transfer gate; a reset transistor coupled to the plurality of active pillars; and a source follower transistor having a gate electrically coupled to one or more active pillars among the plurality of active pillars.

Abstract: A portable terminal having a wireless local area network (WLAN) communication module configured to perform wireless communication in a WLAN and a near field communication (NFC) module configured to read written data written to an integrated circuit (IC) tag includes: a memory configured to record format identification data for identifying a data format of the written data; and a control unit configured to detect whether the written data read using the NFC module has a predetermined format based on the format identification data, detect whether the written data is WLAN setup data for use in an imaging-apparatus-side WLAN module, and write command data for instructing to activate an access point (AP) function of the imaging-apparatus-side WLAN module to the IC tag using the NFC module when it is detected that the written data detected as having the predetermined format is the WLAN setup data.

Abstract: An image sensor may include an array of image sensor pixels. Each pixel may have a photodiode, a charge storage region, and a charge overflow circuit. The charge storage region may be used to operate the image sensor array in global shutter mode. During high light level illumination, the charge overflow circuit may divert charge away from the photodiode such that only a predetermined portion of the accumulated charge remains in the photodiode. During low light level illumination all of the accumulated charge may be stored in the pixel photodiode. The charge overflow circuit may include a transistor and a resistor or capacitor. By implementing a charge overflow circuit, the size of the charge storage region may be reduced while still preserving the high dynamic range and low noise of the image sensor during all light illumination conditions.