| 19th week of 2015 patent applcation highlights part 26 |
| Patent application number | Title | Published |
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| 20150124101 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, AND PROGRAM - There is provided an information processing apparatus including an action recognition unit configured to recognize an action state of a user based on a measurement result obtained by a sensor carried by the user, and a photographing control unit configured to control timing at which a photographing unit carried by the user is allowed to perform photographing based on the recognized action state of the user. | 2015-05-07 |
| 20150124102 | ENHANCED VISUAL REPRESENTATION OF INFRARED DATA VALUES - Various techniques are provided to generate enhanced visual representations of captured infrared (IR) data values. For example, various methods, systems, devices, and machine-readable mediums are provided that may be used to map color and/or grayscale values to temperature values. Such mapping permits a user to intuitively interpret the temperatures associated with the IR data values. The temperatures may be presented as a visual representation of the captured IR data values having an enhanced contrast. | 2015-05-07 |
| 20150124103 | Navigation System with Monocentric Lens and Curved Focal Plane Sensor - A navigation system includes a monocentric lens and one or more curved image sensor arrays disposed parallel and spaced apart from the lens to capture respective portions, not all, of the field of view of the lens. | 2015-05-07 |
| 20150124104 | TESTING APPARATUS AND METHOD - A test apparatus for testing a video processing apparatus comprises means for receiving from the video processing apparatus a video output representative of a test sequence, the test sequence comprising a plurality of frames, each frame comprising an image of a respective different one of a plurality of frame identifiers; means for obtaining a sequence of sets of frame data from the video output, each set of frame data representative of a frame; and means for processing each set of frame data to determine the frame identifier for that frame. | 2015-05-07 |
| 20150124105 | PHOTO DECORATION DEVICE - A shooting processing section shoots a user as an object, and an editing processing section allows the user to edit a shot image obtained by shooting. An input receiving section receives, a plurality of times, selection of manipulation processing to be applied to the entire shot image, and a manipulation processing section generates, when the selection of manipulation processing has been received this time, an image after manipulation processing that is the entire shot image to which the manipulation processing received this time is applied over the manipulation processing, selection of which has been received previous time. The present invention can be applied to a photo sticker creating device, for example. | 2015-05-07 |
| 20150124106 | TERMINAL APPARATUS, ADDITIONAL INFORMATION MANAGING APPARATUS, ADDITIONAL INFORMATION MANAGING METHOD, AND PROGRAM - There is provided a terminal apparatus including: a photographing portion configured to photograph a subject which is present in a reality space; an additional information acquiring portion configured to acquire additional information which is made to correspond to an object an image of which is recognized within a photographed image; and an additional information storing portion configured to store therein the acquired additional information in relation to either user identification information or photographing apparatus identification information. | 2015-05-07 |
| 20150124107 | ASSOCIATING CAMERAS WITH USERS AND OBJECTS IN A SOCIAL NETWORKING SYSTEM - Images uploaded by users of a social networking system are analyzed to determine signatures of cameras used to capture the images. A camera signature comprises features extracted from images that characterize the camera used for capturing the image, for example, faulty pixel positions in the camera and metadata available in files storing the images. Associations between users and cameras are inferred based on actions relating users with the cameras, for example, users uploading images, users being tagged in images captured with a camera, and the like. Associations between users of the social networking system related via cameras are inferred. These associations are used beneficially for the social networking system, for example, for recommending potential connections to a user, recommending events and groups to users, identifying multiple user accounts created by the same user, detecting fraudulent accounts, and determining affinity between users. | 2015-05-07 |
| 20150124108 | OPTICAL UNIT WITH SHAKE CORRECTING FUNCTION - Provided is an optical unit with a blur correction function, wherein even when a photoreflector and a drive mechanism for blur correction are provided in a movable module provided with an optical element, sizes in an optical axis direction and a direction crossing the optical axis direction can be prevented from increasing. In an optical unit ( | 2015-05-07 |
| 20150124109 | APPARATUS AND METHOD FOR HOSTING A LIVE CAMERA AT A GIVEN GEOGRAPHICAL LOCATION - A camera network comprising a plurality of cameras located at one or more locations is disclosed. A server receives real-time video data stream from multiple cameras, wherein the server hosts a web service to display thumbnails associated with each camera, wherein the server continuously prerecords a first predefined duration of the video data received from the multiple cameras. A user uses the web service to select a camera. Then, the user initiates recording of the video data stream received from the selected camera and the web service records a second predefined duration of the video. Finally, the web service combines the prerecorded first predefined duration of the video received from the selected camera and the second predefined duration of the video to obtain a third video. | 2015-05-07 |
| 20150124110 | IMAGE CAPTURING SYSTEM, IMAGE CAPTURING DEVICE, AND IMAGE CAPTURING METHOD - To enable satisfactory simultaneous and widely varied pictures to be obtained, for example, by allowing a common user to obtain an overall picture while the common user performing desired image capturing, or the like. A first image capturing device image-captures a subject to record this image, and also transmits a trigger signal to a second image capturing device. The second image capturing device image-captures an image to record this image in accordance with the trigger signal. Thus, the first and second image capturing devices enable both of an overall image and a zoomed image to be obtained with simultaneous timing. | 2015-05-07 |
| 20150124111 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, AND PROGRAM - There is provided an information processing apparatus including an action recognition unit configured to recognize an action state of a user based on a measurement result obtained by a sensor carried by the user, an image processing unit configured to perform a process regarding an amount of information on an image photographed by a photographing unit based on an action state of the user recognized by the action recognition unit during photographing by the photographing unit carried by the user, and a transmission control unit configured to cause the image processed by the image processing unit to be transmitted to an image processing device used to perform image recognition. | 2015-05-07 |
| 20150124112 | IMAGING APPARATUS, CLIENT DEVICE, IMAGING SYSTEM, CONTROL METHOD OF IMAGING APPARATUS, CONTROL METHOD OF CLIENT DEVICE, AND CONTROL METHOD OF IMAGING SYSTEM - An imaging apparatus includes a control unit to perform insertion/retraction of an infrared cut filter into and from an optical path of an imaging optical system; a reception unit to receive a third command to cause the control unit to automatically control insertion/retraction of the infrared cut filter; and a determining unit configured to determine whether or not the third command includes additional information based on the output of the reception unit; wherein, in the event that the determining unit has determined that the third command includes additional information, the control unit controls insertion/retraction of the infrared cut filter based on the additional information, and in the event that the determining unit has determined that the third command does not include additional information, the control unit controls insertion/retraction of the infrared cut filter based on control information which the control unit has beforehand. | 2015-05-07 |
| 20150124113 | Array Cameras Incorporating Independently Aligned Lens Stacks - Array cameras, and array camera modules incorporating independently aligned lens stacks are disclosed. Processes for manufacturing array camera modules including independently aligned lens stacks can include: forming at least one hole in at least one carrier; mounting the at least one carrier relative to at least one sensor so that light passing through the at least one hole in the at least one carrier is incident on a plurality of focal planes formed by arrays of pixels on the at least one sensor; and independently mounting a plurality of lens barrels to the at least one carrier, so that a lens stack in each lens barrel directs light through the at least one hole in the at least one carrier and focuses the light onto one of the plurality of focal planes. | 2015-05-07 |
| 20150124114 | IMAGING APPARATUS AND METHOD OF CONTROLLING IMAGING APPARATUS - An imaging apparatus includes an imaging unit that has image sensors for each image of red, green, and blue which have a two-line addition function respectively. The imaging unit outputs image signals of red and blue and an image signal of green of which sample phases in a space are shifted by one pixel interval in a vertical direction using the two-line addition function. A resolution conversion unit obtains image signals of red, green, and blue of which the number of lines is doubled by performing interpolation processing on the image signals of red and blue and an image signal of green output from the imaging unit. | 2015-05-07 |
| 20150124115 | SHUTTER RELEASE USING SECONDARY CAMERA - Capturing a target image includes activating a first image sensor for capturing the target image. A sequence of images is captured with a second image sensor while the first image sensor remains activated. A determination is made as to whether the sequence of images captured by the second image sensor includes a shutter gesture while the first image sensor remains activated. If a shutter gesture is included in the sequence of images captured by the second image sensor, the first image sensor captures the target image in response. | 2015-05-07 |
| 20150124116 | Rotary Switch - A digital camera includes a rotary switch, a switching unit, and a switching unit. The switching unit switches between two states independently of a function other than functions assigned to the respective states of the rotary switch, the two states including a restricted state where rotation of the rotary switch is restricted with a clicking feel and a function of at least one of a shutter speed and an aperture as a function with discrete output values is related to the rotating operation of the rotary switch and a non-restricted state where rotation of the rotary switch is not restricted and a function of at least one of focusing, and a zoom magnification of a lens, and similar function as a function with continuous output values is related to the rotating operation of the rotary switch. | 2015-05-07 |
| 20150124117 | ENCODER-SUPERVISED IMAGING FOR VIDEO CAMERAS - A controller controls a camera that produces a sequence of images and that has output coupled to a video encoder. The camera has an operating condition including a field of view and lighting, and one or more imaging parameters. The video encoder encodes images from the camera into codewords. The controller receives one or more encoding properties from the video encoder, and causes adjusting one or more of the imaging parameters based on at least one of the received encoding properties, such that the camera produces additional images of the sequence of images for the video encoder using the adjusted one or more imaging parameters. | 2015-05-07 |
| 20150124118 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus includes a calculation unit configured to calculate a first gain for adjusting brightness of a first image and a second image based on the first image captured at a first exposure amount and the second image captured at a second exposure amount, a division unit configured to divide the first gain into a second gain which changes according to a position in an image and a third gain which does not change according to a position in an image, a first gain correction unit configured to perform gain correction on the second image with the second gain, and a second gain correction unit configured to perform gain correction on the second image with the third gain. | 2015-05-07 |
| 20150124119 | METHOD FOR CORRECTING IMAGES ACQUIRED VIA ASYNCHRONOUSLY TRIGGERED ACQUISITION - A method for correcting images acquired via an asynchronous triggered acquisition, wherein image acquisition is triggered by a trigger signal based on the motion and/or position of the sample to be imaged by an image sensor, the method including: measurement of the motion and/or position of the sample; determination of an exposure time based on the aforementioned measurement; and correction of an acquired image based on the determined exposure time and a desired exposure time. | 2015-05-07 |
| 20150124120 | MACHINE VISION SYSTEM WITH DEVICE-INDEPENDENT CAMERA INTERFACE - Embodiments of a process comprising receiving one or more images in a buffer of a computer communicatively coupled to one or more cameras, retrieving the one or more images from the buffer, and storing the one or more images as one or more memory-mapped image files in a memory-mapped file (MMF) area of a memory that is shared by the computer and the one or more cameras. | 2015-05-07 |
| 20150124121 | IMAGE CAPTURING APPARATUS AND IMAGE CAPTURING METHOD - There is provided an image capturing apparatus. A first image capturing unit captures an image of a subject to generate image data. A second image capturing unit captures an image of a user who captures the image of the subject, for a predetermined period before and after the image of the subject is captured. An obtainment unit obtains first classification information by analyzing, in the image captured by the second image capturing unit, each of a state of the user before the image of the subject is captured and a state of the user after the image of the subject is captured. A recording unit records the first classification information in association with the image data. | 2015-05-07 |
| 20150124122 | METHOD FOR DELETING DATA FILES IN AN ELECTRONIC DEVICE - The present disclosure relates to a an electronic device such as a digital camera | 2015-05-07 |
| 20150124123 | PHOTOGRAPHIC APPARATUS WITH SUPPLEMENTAL LIGHT ADJUSTING FUNCTION AND METHOD USED IN THE SAME - A photographic apparatus with supplemental light adjusting function and the supplemental light adjusting method used in the same are provided. The photographic apparatus comprises a light source and a photographic element. The method comprises steps of: photographing by the photographic element; illuminating by the light source once the operating condition of a default photographing mode is conformed, and reaching a first supplemental light intensity by the light source within a first length of time; completing photographing by the photographic element once the light source reaches a second supplemental light intensity which is greater than the first supplemental light intensity. | 2015-05-07 |
| 20150124124 | IMAGE PROCESSING CIRCUIT, IMAGE PROCESSING METHOD, AND DISPLAY DEVICE - There is provided an image processing circuit including a sub frame signal generation unit configured to receive n pieces of image information of n images which are obtained by photographing the same scene under n (n is a natural number equal to or greater than 2) exposure conditions and the n exposure conditions at the time of the photographing as input. When a display video of one scene is constituted by a maximum of n sub frames, the sub frame signal generation unit generates video signals of the maximum of n sub frames by controlling a light emission time of light emission elements for each sub frame according to the n exposure conditions. | 2015-05-07 |
| 20150124125 | MOBILE TERMINAL AND CONTROL METHOD THEREOF - The present disclosure provides a mobile terminal, including a first camera and a second camera that are configured to operate simultaneously, a display unit that is configured to output a first image captured by the first camera and at least part of a second image captured by the second camera in an overlaying manner, and a controller that is configured to set an output position of the at least part of the second image in a manner of preventing the at least part of the second image from being overlaid on a specific object included in the first image. | 2015-05-07 |
| 20150124126 | ZOOM LENS AND IMAGING APPARATUS - A zoom lens includes, in order from an object side to an image side: a first lens group that has a positive refractive power; a second lens group that has a negative refractive power; a third lens group that has a positive refractive power; and a fourth lens group that has a positive refractive power. During zooming from a wide-angle end to a telephoto end, the first lens group is stationary relative to an imaging surface, and the second lens group is moved to the image side in an optical axis direction so as to decrease a space between the second lens group and the third lens group. The third lens group includes a positive lens, a negative lens, and a cemented lens. The zoom lens satisfies −0.95| 2015-05-07 | |
| 20150124127 | ZOOM LENS SYSTEM, IMAGING DEVICE AND CAMERA - A zoom lens system comprising a plurality of lens units each being composed of at least one lens element, and comprising, in order from an object side to an image side, a first lens unit having positive optical power, a second lens unit having negative optical power, a third lens unit having positive optical power, a fourth lens unit having positive optical power, and a fifth lens unit having negative optical power, wherein the first lens unit is composed of two or less lens elements, the third lens unit is composed of five or more lens elements, and the condition: 5.0| 2015-05-07 | |
| 20150124128 | LENS SHADING CORRECTION SYSTEM - A lens shading correction (LSC) system includes an illuminant estimator configured to calculate at least one spectral association-measurement of a current frame according to pixel data of an LSC circuit, and then to correlate the at least one calculated spectral association-measurement with spectral association-measurements of a plurality of pre-defined illuminants to determine at least one correlated illuminant. An LSC parameter generator retrieves at least one set of pre-calibrated LSC parameters from a pre-calibrated LSC parameter memory. The LSC parameter generator generates a set of LSC parameters based on the at least one retrieved set of pre-calibrated LSC parameters according to the at least one correlated illuminant. | 2015-05-07 |
| 20150124129 | IMAGING DEVICE, AND IMAGE PROCESSING METHOD - According to the present invention, since a color image for a moving image including that for live view display includes image data on pixel lines including first and second phase difference pixels, phase difference AF can be accurately performed during the moving image taking. A color image for the moving image includes not only the image data on the pixel lines including the first and second phase difference pixels, but also image data on pixel lines that do not include the first and second phase difference pixels and only include normal pixels. Accordingly, the image quality of the color image for the moving image is improved, an image interpolation process can be accurately performed, and reduction in image quality of a taken image (still image and moving image) through the phase difference pixels can be prevented or alleviated. | 2015-05-07 |
| 20150124130 | IMAGE SENSOR - An image sensor includes a passive pixel sensor array and a readout circuit. The passive pixel sensor array has a plurality of pixel columns each having at least one column line. The readout circuit includes a ramp signal generating circuit, a ramp signal line and a comparing circuit. The ramp signal generating circuit is arranged for generating a ramp signal. The ramp signal line is arranged for receiving the ramp signal, wherein the ramp signal line intersects the column line without electrical connection so as to form a parasitic capacitor. The comparing circuit corresponds to the column lines, wherein during the operating cycle of the readout circuit, a pixel sensor of the passive pixel sensor array outputs a charge signal to the column line, and the comparing circuit is arranged for generating an output signal of the pixel sensor according to the ramp signal and the charge signal. | 2015-05-07 |
| 20150124131 | CAMERA AND METHOD OF CONTROLLING OPERATION OF SAME - The image in an electronic viewfinder is made larger than the image in an optical viewfinder. Specifically, a finder unit is provided with a region that displays a portion of the display screen of an electronic viewfinder alongside a region that displays the optical image of a subject. When the camera has been set to an optical/electronic hybrid viewfinder, the optically formed optical image of a subject is displayed in the region and a portion of the image of the subject captured by a solid-state electronic image sensing device is displayed in the region. When the camera has been set to the electronic viewfinder, a landscape-oriented image of the subject captured by the solid-state electronic image sensing device is displayed across both of the regions. | 2015-05-07 |
| 20150124132 | IMAGING ELEMENT, DRIVING METHOD, AND ELECTRONIC APPARATUS - The present technology relates to an imaging element, a driving method, and an electronic apparatus that can decrease a voltage and increase a saturation signal amount. | 2015-05-07 |
| 20150124133 | DRIVE APPARATUS, DRIVE METHOD, AND ELECTRONIC DEVICE - Provided is a drive apparatus including an address decoder circuit provided in each pixel row of a pixel array inside a solid state image sensor, the address decoder circuit being configured to generate at least a control signal to cause, based on a V address signal to identify the pixel row in the pixel array, pixels of the pixel row corresponding to the V address signal to perform a read operation that reads accumulated charges from the relevant pixels or an electronic shutter operation that sweeps away the accumulated charges from the relevant pixels. The V address signals of at least two mutually different systems are supplied to the address decoder circuit, and at least the two mutually different address decoder circuits generate the control signal for at least the two mutually different pixel rows within one horizontal scanning period. | 2015-05-07 |
| 20150124134 | IMAGE PICKUP APPARATUS HAVING PHOTOELECTRIC CONVERSION FUNCTION - An image pickup apparatus that makes it possible to achieve both high picture quality and a wide dynamic range is provided. Each pixel unit included in the image pickup apparatus includes: four photodiodes; four transfer transistors; a charge storage portion (four floating diffusions) for storing electric charges generated at the photodiodes; an amplification transistor; a select transistor; and a reset transistor. The image pickup apparatus further includes multiple coupling transistors. Each coupling transistor couples together the charge storage portions of two pixel units of the pixel units. A scanning circuit switches on or off the coupling transistors according to read mode. | 2015-05-07 |
| 20150124135 | SHARP PIXEL WITH FIXED CONVERSION GAIN - An active pixel sensor comprising: a plurality of pixels, wherein each pixel includes a light sensitive element and a transfer gate, and the plurality of pixels have at least one floating diffusion region; and a plurality of processing circuits associated with the plurality of pixels; wherein each processing circuit comprises a charge amplifier. | 2015-05-07 |
| 20150124136 | IMAGING APPARATUS AND IMAGING SYSTEM - Because a conventionally known imaging apparatus includes a buffer element for each signal processing circuit, the number of buffer elements increases in proportion to the number of signal processing circuits. The delayed supply of a drive signal within a group of a plurality of signal processing circuits may require the operation timing margin to be set longer. In other words, the operational speed is hard to increase. First buffer circuits connected in series and second buffer circuits connected in parallel with the first buffer circuits are provided, and one second buffer circuit supplies a drive signal to a plurality of signal processing units. | 2015-05-07 |
| 20150124137 | A/D CONVERSION DEVICE, SOLID-STATE IMAGE-CAPTURING DEVICE, AND ELECTRONIC DEVICE - The present invention is to provide an A/D conversion device, a solid-state image-capturing device, and an electronic device capable of removing fixed pattern noise, capable of preventing an image from being corrupted, capable of generating an appropriate carry signal during bit shift, and capable of avoiding bit inconsistency even when the frequency of the carry signal increases due to the bit shift. A reading unit includes a comparator configured to compare the analog signal potential with a reference signal of which slope is variable, a counter latch unit capable of AD conversion based on processing according to the output of the comparator, and a bit shift function unit capable of bit-shifting the digital data obtained by the counter latch unit, and when digital Correlated Double Sampling (CDS) is performed with a first signal and a second signal having different bit precisions obtained from the comparison with reference signals of different slopes, the bit shift function unit bit-shifts the first signal or the second signal. | 2015-05-07 |
| 20150124138 | SOLID-STATE IMAGE SENSING DEVICE - Provided is a solid-state image sensing device that performs an A/D conversion operation at high speed. A sample-and-hold section | 2015-05-07 |
| 20150124139 | SOLID-STATE IMAGING DEVICE, METHOD OF DRIVING THE SAME, AND ELECTRONIC APPARATUS - A solid-state imaging device includes a pixel array unit in which a plurality of imaging pixels configured to generate an image, and a plurality of phase difference detection pixels configured to perform phase difference detection are arranged, each of the plurality of phase difference detection pixels including a plurality of photoelectric conversion units, a plurality of floating diffusions configured to convert charges stored in the plurality of photoelectric conversion units into voltage, and a plurality of amplification transistors configured to amplify the converted voltage in the plurality of floating diffusions. | 2015-05-07 |
| 20150124140 | SOLID-STATE IMAGE SENSOR, METHOD FOR PRODUCING SOLID-STATE IMAGE SENSOR, AND ELECTRONIC APPARATUS - A solid-state image sensor includes a semiconductor substrate having a photoelectric conversion element converting incident light into a charge and a charge retaining section temporarily retaining the charge photoelectrically converted by the photoelectric conversion element and a light shielding section having an embedded section extending in at least a region between the photoelectric conversion element and the charge retaining section of the semiconductor substrate. | 2015-05-07 |
| 20150124141 | SOLID-STATE IMAGING DEVICE, METHOD FOR DRIVING THE SAME, AND IMAGING DEVICE - a CMOS image sensor including a pixel array unit having pixels arranged in even-numbered pixel rows and odd-numbered pixel rows. A reading operation performed such that a first signal of a first pixel group is read in a first accumulation time, and a second signal of a second pixel group is read in a second accumulation time shorter than said first accumulation time. | 2015-05-07 |
| 20150124142 | IMAGING APPARATUS AND METHOD OF DRIVING THE SAME - An imaging apparatus and a method of driving the same that can generate a digital data of a high resolution pixel signal are provided. The imaging apparatus includes: a pixel ( | 2015-05-07 |
| 20150124143 | CAMERA APPARATUS AND METHOD FOR GENERATING IMAGE SIGNAL FOR VIEWFINDER - There is provided a camera apparatus including: a display signal generation unit that generates an index display signal for displaying an index indicative of a current focal position based on focal position information; and a combination unit that acquires an image signal for a viewfinder by combining a captured image signal with the index display signal. | 2015-05-07 |
| 20150124144 | DISPLAY CONTROL APPARATUS AND METHOD FOR CONTROLLING THE DISPLAY CONTROL APPARATUS - A display control apparatus includes a display control unit configured to control a display unit to display a main region where an image is displayed and a sub region where a list of object regions in the image is displayed, the sub region being smaller than the main region, and a selection unit configured to receive a selection instruction to select one of the object regions from the list of object regions displayed in the sub region. The display control unit is configured to control the display unit to display an image focused on an object region selected according to the selection instruction received by the selection unit. | 2015-05-07 |
| 20150124145 | DISPLAY CONTROL DEVICE, DISPLAY CONTROL METHOD, AND PROGRAM - An information processing system that acquires a first captured image; acquires a plurality of second images; and generates display data including the first captured image and at least a subset of the plurality of second images based on an evaluation parameter corresponding to each of the plurality of second images. | 2015-05-07 |
| 20150124146 | IMAGE-CAPTURING APPARATUS - An image-capturing apparatus includes an image-capturing device having an image-capturing surface, a shutter unit having an aperture configured to allow light from an object to pass through the aperture, and a controller that controls the shutter unit. The shutter unit includes a curtain unit that selectively executes an opening operation of opening the aperture and a closing operation of closing the aperture, and an actuator that drives the curtain unit. The controller is operable to control the shutter unit to execute: an image-capturing operation in which the shutter unit executes the closing operation after resetting an electric charge stored in the image-capturing device; and a pre-driving operation in which the actuator drives the curtain with a small motion before executing the image-capturing operation. | 2015-05-07 |
| 20150124147 | METHOD OF DISPLAYING HIGH DYNAMIC RANGE (HDR) IMAGE, COMPUTER-READABLE STORAGE MEDIUM FOR RECORDING THE METHOD, AND DIGITAL IMAGING APPARATUS - A method of displaying a high dynamic range (HDR) image is described. An HDR mode is entered based on a user input. A preview image is received. An HDR image is obtained based on the received preview image. The obtained HDR image and the preview image are displayed together. | 2015-05-07 |
| 20150124148 | DEVICES HAVING AUTOMATICALLY ADJUSTABLE POLARIZERS AND RELATED OPERATING METHODS - Devices having adjustable polarizers and related operating methods are provided. An exemplary electronic device includes one or more sensing arrangements, a polarization arrangement including a polarizer, and a control module coupled to the one or more sensing arrangements and the polarization arrangement. The control module determines an angle for the polarizer based at least in part on output from the one or more sensing arrangements and operates the polarization arrangement to achieve the angle. In one or more exemplary embodiments, the angle corresponds to an orientation of the polarizer in a plane substantially orthogonal to a line-of-sight that is configured to result in the polarizer absorbing incident light rays emanating from the sun that are aligned with the line-of-sight. | 2015-05-07 |
| 20150124149 | IMAGE LENS ASSEMBLY, IMAGE CAPTURING DEVICE AND MOBILE TERMINAL - An image lens assembly includes, in order from an object side to an image side, a first lens element, a second lens element, a third lens element and a fourth lens element. The first lens element with positive refractive power has a convex object-side surface in a paraxial region thereof. The second lens element with negative refractive power has a concave object-side surface in a paraxial region thereof and a concave image-side surface in a paraxial region thereof. The third lens element with positive refractive power has a concave object-side surface in a paraxial region thereof and a convex image-side surface in a paraxial region thereof. The fourth lens element with negative refractive power has a concave image-side surface in a paraxial region thereof. The image lens assembly has a total of four lens elements with refractive power. | 2015-05-07 |
| 20150124150 | IMAGING MECHANISM AND FORWARD-MONITORING CAMERA USING SAME IMAGING MECHANISM - An imaging mechanism provided in a forward surveillance camera can adjust, without using a mechanical constitution, light intensity brought into an image sensor by adjusting the light intensity passing through a liquid crystal shutter disposed in an adjusting part. For example, when the light intensity is great during the day, or the like, the resolution of images taken during the day can be improved by the light passing through the adjusting part being shielded and the light intensity brought into the image sensor being reduced. When there is little light intensity at night, or the like, the brightness of images taken at night can be improved by light passing through the adjusting part and the light intensity brought into the image sensor being increased. | 2015-05-07 |
| 20150124151 | Array Camera Modules Incorporating Independently Aligned Lens Stacks - Array cameras, and array camera modules incorporating independently aligned lens stacks are disclosed. Processes for manufacturing array camera modules including independently aligned lens stacks can include: forming at least one hole in at least one carrier; mounting the at least one carrier relative to at least one sensor so that light passing through the at least one hole in the at least one carrier is incident on a plurality of focal planes formed by arrays of pixels on the at least one sensor; and independently mounting a plurality of lens barrels to the at least one carrier, so that a lens stack in each lens barrel directs light through the at least one hole in the at least one carrier and focuses the light onto one of the plurality of focal planes. | 2015-05-07 |
| 20150124152 | NEAR-INFRARED ABSORPTIVE COMPOSITION, NEAR-INFRARED CUT FILTER USING NEAR-INFRARED ABSORPTIVE COMPOSITION, METHOD FOR MANUFACTURING NEAR-INFRARED CUT FILTER, AND CAMERA MODULE AND METHOD FOR MANUFACTURING CAMERA MODULE - Provided is a near-infrared absorptive compositions which having excellent near-infrared shielding property even if they are formed into thin films, being able to apply, and inhibited transmittance of visible light loss and transmittance loss after postbaking even if they contain a higher proportion of solids such as copper complexes. The near-infrared absorptive composition comprising a copper complex, a polyfunctional polymerizable compound and a solvent, wherein the near-infrared absorptive composition has a solids content of 35 to 90% by mass. | 2015-05-07 |
| 20150124153 | ELECTRONIC APPARATUS AND METHOD OF CONTROLLING THE SAME - A digital image processing apparatus and a method of controlling the same are provided. The method of controlling an image plane phase difference digital image processing apparatus, the method includes, in a continuous photographing mode for continuously capturing still images, performing a first focus detection by detecting phase difference of an image captured during a first image capture; performing a second focus detection by detecting phase difference of an image captured during a second image capture; determining moving speed of an object based on results of the first focus detection and the second focus detection; and correcting focus location by driving a focusing lens based on the determined moving speed of the object. | 2015-05-07 |
| 20150124154 | IMAGING APPARATUS AND CONTROLLING METHOD THEREFOR, AND LENS UNIT AND CONTROLLING METHOD THEREFOR, AND IMAGING SYSTEM - In a camera unit that is mountable to a lens unit having a focus lens, an AF signal processing unit generates an AF evaluation value from an imaging signal obtained by an imaging element, and a camera control unit generates drive information for moving the focus lens to an in-focus point using the AF evaluation value and transmits the drive information to the mounted lens unit. The camera control unit transmits drive information including a focus lens position served as a reference for micro vibration and an amount of movement of the focus lens indicated by shift amount of an image plane with reference to the focus lens position to a lens unit. | 2015-05-07 |
| 20150124155 | Quick Automatic Focusing Method and Image Acquisition Apparatus - A method that includes: detecting, by the image acquisition apparatus, image data of a photographed subject in the case of current photographing parameters, where the photographing parameters include a photographing focal length and a focus, and the image data includes a position of the photographed subject in a formed image and an image size; adjusting the image acquisition apparatus based on the position of the photographed subject in the formed image, so that the position of the photographed subject in the formed image is a first position; determining a target value of the photographing focal length based on a photographing parameter-image data-photographing distance correspondence and according to a current photographing focal length, the image data, and a preset image size; and adjusting a photographing focal length of the image acquisition apparatus to the target value of the photographing focal length. | 2015-05-07 |
| 20150124156 | AUTO-FOCUS IMAGE SYSTEM - An auto focus image system that includes a pixel array coupled to a focus signal generator. The pixel array captures an image that has at least one edge with a width. The focus signal generator may generate a focus signal that is a function of the edge width and/or statistics of edge widths. A processor receives the focus signal and/or the statistics of edge widths and adjust a focus position of a focus lens. The edge width can be determined by various techniques including the use of gradients. A histogram of edge widths may be used to determine whether a particular image is focused or unfocused. A histogram with a large population of thin edge widths is indicative of a focused image. Edge corruption/partial corruption may be detected. Partially corrupted edge may have edge width calculated by relying more on the side that is not corrupted and less on the side that is corrupted. Edge or edge side corruption may be detected by detecting a presence of an adjacent edge of the opposite sign. | 2015-05-07 |
| 20150124157 | FOCUS ADJUSTMENT APPARATUS, METHOD FOR CONTROLLING FOCUS ADJUSTMENT APPARATUS, AND STORAGE MEDIUM - A focus adjustment apparatus includes an imaging unit, a first detection unit, a second detection unit, and a control unit. The imaging unit receives and photoelectrically converts a light flux passed through a photographing optical system including a focus lens. The first detection unit detects a phase difference between a pair of image signals output from the imaging unit. The second detection unit detects contrast information from a signal output from the imaging unit. The control unit controls driving of the focus lens based on a detection result of at least one of the first detection unit and the second detection unit. If the detection result of the first detection unit satisfies a first condition, the control unit controls driving of the focus lens by using the detection result of the first detection unit, and changes the first condition according to the contrast information detected by the second detection unit. | 2015-05-07 |
| 20150124158 | FOCUS CONTROL APPARATUS AND CONTROL METHOD THEREFOR - An acquisition unit is configured to acquire first defocus information based on a sensor output corresponding to a first region in an area of a captured image, and to acquire second defocus information based on a sensor output corresponding to a second region in the area. A control unit is configured to obtain defocus information corresponding to the area using the first defocus information and the second defocus information, and to perform focus control based on the obtained defocus information. The first region has a length longer in a phase-difference detection direction than the length of the second region. | 2015-05-07 |
| 20150124159 | APPARATUS AND METHOD FOR COMPENSATING FOR BACK LIGHT OF IMAGE - An apparatus and method for compensating for back light of an image are provided. The method includes receiving an image at a preset time interval, upon receiving the image, dividing pixels constituting the received image according to preset ranges, determining whether the received image is a back light image by confirming a distribution degree of pixels of each of the divided ranges, adjusting the brightness of the back light image when the received image is the back light image, and storing the received image and the back light compensated image. | 2015-05-07 |
| 20150124160 | CAMERA MODULE - A camera module includes a PCB (Printed Circuit Board) mounted with an image sensor, and a holder member arranged at an upper surface of the PCB and mounted with a plurality of magnets. The camera module also includes a bobbin movably mounted from an inner side of the holder member to a direction of an optical axis and installed at a periphery with a coil unit to enable an electromagnetic interaction with the magnets, and a lug protrusively formed from a floor surface of bobbin to a direction of external diameter of bobbin to overlap with the floor surface of the holder member for a predetermined section. | 2015-05-07 |
| 20150124161 | IMAGING DEVICE - An imaging device according to the present disclosure includes: an imaging unit that is housed in an outer case and captures an image of an object; a circuit board that is disposed on a back side in the outer case and includes a semiconductor device mounted thereon for processing a signal from the imaging unit; and a metal plate that is disposed between the imaging unit and the circuit board in the outer case and is fixed to the outer case. The metal plate has a first portion opposite to the circuit board and brought into mechanical contact with the semiconductor device through a contact member, and at least two second portions formed integrally with the first portion and bent in an optical axis direction of the imaging unit. | 2015-05-07 |
| 20150124162 | CAMERA MODULE - A camera module includes a PCB (Printed Circuit Board) installed with an image sensor, a base mounted on the PCB, and a bobbin reciprocatingly mounted above the base. A bottom elastic member is fixed to the base to support the bobbin, and a terminal is installed at the base, one end of which is conductively connected to the PCB and the other end of which is conductively connected to the bottom elastic member at a solder part. A solder cut-off part is formed at the base to cut off movement of overflowing solder from the solder part. | 2015-05-07 |
| 20150124163 | NOVEL POINT OF VIEW VIDEO MOUNTING SYSTEM - A case for an electronic communications device having a lens for capturing images comprises an external casing assembly comprising: (a) an external sleeve defining an interior space, the sleeve comprising an opening at one longitudinal end; (b) a door movably mounted at the opposite end; (c) a releasable latch for securing the door in a closed position; and (d) an interchangeable lens assembly comprising a lens and a lens holder removably attached to a front side of the casing assembly. The case further comprises a sled component for receiving the electronic communication device thereon, the sled component being configured for removable receipt in an inserted position in the external sleeve by longitudinal insertion. The sled component reduces vibrations experienced by the electronic communications device. The sled component has a lens exposing area positioned for alignment with the lens of the electronics communications device to permit image capture therethrough. | 2015-05-07 |
| 20150124164 | DISPLAY SYSTEM - A display system and a method for displaying items and/or performances is provided. At least a display panel is used to play multimedia content. In an embodiment, at least a portion of the display panel turns transparent for displaying items or performances in a display space. In an embodiment, the display item is moved in accordance with the multimedia played on the display panel. In an embodiment, light effects are adjusted during the display. In an embodiment, audio media is played and adjusted during the display. | 2015-05-07 |
| 20150124165 | PARALLEL PIPELINES FOR MULTIPLE-QUALITY LEVEL VIDEO PROCESSING - A device for multiple-quality level video processing includes a primary tap configured to receive prime-quality video content from a source and to provide the prime-quality video content to a primary path and to a secondary tap. The primary tap may be operable in a prime-quality mode. The secondary tap may be disposed after the primary tap and may be coupled to a number of secondary paths. One or more dithering modules may be disposed after the primary tap. The dithering module(s) may be configured to convert the prime-quality video content provided by the primary tap to lower-bit precision and/or lower pixel-rate video content for use in one or more of the secondary paths. | 2015-05-07 |
| 20150124166 | WIDE-BAND MULTI-FORMAT AUDIO/VIDEO PRODUCTION SYSTEM WITH FRAME-RATE CONVERSION - Wide-band multi-format audio/video production system with frame-rate conversion and methods performed by the audio/video production system. Compressed video content corresponding to an original format of a video program is processed to generate uncompressed video content in an internal format having a frame rate of 24 frames per second (fps) comprising progressive frames of pixel image data having an original pixel resolution. Progressive frames of pixel image data are buffered in a high-capacity memory buffer supporting asynchronous random read and write access. The progressive frames of pixel image data in the buffered progressive frames are processed to perform a frame-rate conversion from 24 fps to a higher output frame rate to produce progressive frames of converted video content having an uncompressed format. The progressive frames of converted video content are the stored in a compressed video format to produce a converted video program having a converted frame rate in accordance with the higher output frame rate. | 2015-05-07 |
| 20150124167 | FLEXIBLE SPATIAL AUDIO CAPTURE APPARATUS - An apparatus comprising: at least one determiner configured to determine at least one characteristic associated with a flexible part of a further apparatus; a signal processor configured to process at least one signal dependent on the at least one characteristic associated with the flexible part of the further apparatus, wherein the signal is at least one of an audio and a video signal; and an user interface generator configured to generate at least one user interface indication dependent on the characteristic associated with a flexible part of the further apparatus. | 2015-05-07 |
| 20150124168 | VIDEO SENDER AND VIDEO RECEIVER - According to one embodiment, a video sender comprises: a video processor and a communication module. The video processor creates video. The communication module is configured to communicate with a video receiver. The communication module comprises: a receiver and a transmitter. The receiver receives, from the video receiver, specific information specifying which one of a color signal and a frame rate takes precedence over the other one in transmission. The transmitter converts the video created by the video processor into video in which one of the color signal and the frame rate takes precedence over the other one in accordance with the specific information, and transmit the video thus converted to the video receiver. | 2015-05-07 |
| 20150124169 | HOME AUDIO VIDEO DISPLAY DEVICE (AVDD) AS SENSOR MONITOR - Method, computer storage device, and system that establish communication with at least first and second sensors, receive information from the sensors, and determine whether the information from the first sensor satisfies a first alert threshold. It is also determined whether the information from the second sensor satisfies a second alert threshold. Responsive to a determination that the information from the first sensor satisfies the first alert threshold and that the information from the second sensor does not satisfy the second alert threshold, an alert signal is not generated. On the other hand, responsive to a determination that the information from the first sensor satisfies the first alert threshold and that the information from the second sensor satisfies the second alert threshold, the alert signal is generated for output thereof to a display device. | 2015-05-07 |
| 20150124170 | Display Device and Display Method - A display device includes a processing unit that determines whether a plurality of videos can be displayed side by side without overlapping each other in a display unit without changing resolutions of the plurality of videos. When the processing unit determines that the plurality of videos can be displayed, it causes the display unit to display the plurality of videos side by side without overlapping each other without changing the resolutions of the plurality of videos. When the processing unit determines that the plurality of videos cannot be displayed, it changes a resolution of at least one of the plurality of videos based on a resolution of the display unit, the resolutions of the plurality of videos, and a priority order, and causes the display unit to display the plurality of videos including the video for which the resolution has been changed side by side without overlapping each other. | 2015-05-07 |
| 20150124171 | MULTIPLE VANTAGE POINT VIEWING PLATFORMAND USER INTERFACE - The present invention provides methods and apparatus for generating and transmitting a multimedia, multi-vantage point platform for viewing audio and video data. | 2015-05-07 |
| 20150124172 | IMAGE DISPLAY APPARATUS AND METHOD OF CONTROLLING IMAGE DISPLAY APPARATUS - An image display apparatus includes: an HDBaseT receiver circuit that receives signals based on N (N is an integer number satisfying N≧2) standards that can be transmitted as HDBaseT signals; a dedicated receiver circuit that is compliant with only a first standard of the N standards and receives signals of the first standard; a signal processing unit that processes the signals received by the HDBaseT receiver circuit or the dedicated receiver circuit; and a circuit switching unit that switches an output target circuit that outputs the signals of the first standard to the signal processing unit to one of the HDBaseT receiver circuit and the dedicated receiver circuit. | 2015-05-07 |
| 20150124173 | METHOD AND APPARATUS FOR PROVIDING ADDITIONAL INFORMATION OF VIDEO USING VISIBLE LIGHT COMMUNICATION - A method and apparatus for providing additional information included in a video displayed on a display device using visible light communication (VLC). A data packet including video data and additional information for an object included in the video data is received. The video data is extracted from the data packet, and the video data is decoded. The additional information from the data packet is extracted, and the additional information decoded. The decoded video data is output through the display device, and at the same time, the additional information is transmitted for a particular object included in a video based on a VLC protocol using a light emitting device prepared in the display device. The additional information providing apparatus includes an image sensor module, a display module, a visible light receiving module, an additional information manager and a controller. | 2015-05-07 |
| 20150124174 | SYSTEM AND METHOD FOR CORRECTING OPTICAL DISTORTIONS WHEN PROJECTING 2D IMAGES ONTO 2D SURFACES - A system for projecting 2D images, providing a computerized representation of a first, dense, grid of spatial 3D coordinates which respectively correspond to a set of time-points evenly distributed along a time-dimension with constant time-discretization; deriving a dense 2D representation of an image, whose coordinate pairs respectively correspond to said set of time-points; d. Defining a sparse 2D grid of second coordinate pairs, spaced such that distances between any two adjacent coordinate pairs along a row of said sparse 2D grid are constant; and finding, coordinate pairs closest to the second sparser grid to yield a third grid, and a laser controller to control the laser to project a digitally represented image, from said distance, timed to project pixels whose locations respectively correspond to the subset of uniformly distanced positions forming said third grid, thereby to prevent image distortion despite non-uniformity of micro-mirror's angular velocity. | 2015-05-07 |
| 20150124175 | TWO-STAGE LIGHT MODULATION FOR HIGH DYNAMIC RANGE - An imaging apparatus for two-stage light modulation in high-definition digital projection or cinema can include two light modulators. Each light modulator can include a multi-chip imaging system coupled to a total internal reflection prism (TIR) system, which has a light input face and an on-state face. Relay optics can be positioned between the two light modulators. The relay optics can be configured to defocus light received from the pre-modulator and to provide defocused light to the prime modulator using a substantially Gaussian pixel shaping function. The prime modulator can be oriented to receive defocused light from the relay optics at the light input face of its TIR prism system. The pre-modulator can be oriented backwards, so as to receive source light at the on-state face of its TIR prism system and to output pre-modulated light to the relay optics via the light input face of the TIR prism system. | 2015-05-07 |
| 20150124176 | Enhanced Global Dimming for Projector Display Systems - Projector display systems comprising a light dimmer and first modulator are disclosed. The light dimmer may comprise an adjustable iris, adjustable light sources and/or LCD stack that is capable of lowering the luminance of the light source illuminated the first modulator. The first modulator may comprise a plurality of analog mirrors (e.g. MEMS array) and the second modulator may comprise a plurality of mirrors (e.g., DMD array). The display system may further comprise a controller that sends control signals to the light dimmer and first modulator. The display system may render a desired dynamic range for rendering a projected image by a combination of such control signals. | 2015-05-07 |
| 20150124177 | LIGHTING DEVICE, DISPLAY DEVICE AND TELEVISION DEVICE - A backlight device (a lighting device) | 2015-05-07 |
| 20150124178 | Electronic Writing Device With Dot Pattern Recognition System - A cholesteric liquid crystal (ChLC) electronic writing device incorporates a dot pattern recognition system. When writing pressure is applied to the writing device an image composed of writing or drawing is displayed by a pressure sensitive ChLC polymer dispersion stacked in a multilayer system of the device. A specialized stylus with sensor and associated electronics is used to form the image on the electronic writing device. The stylus produces electrical information indicating the path or trajectory of the writing that is displayed by the electronic writing device, which can be transferred via wireless signal to any other displaying device. This forms a replica image on the displaying device that is a replica of the image on the electronic writing device. | 2015-05-07 |
| 20150124179 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A display device and a method of manufacturing the same are provided. The display device includes a window part having a three-dimensional pattern on a front surface thereof instead of a pattern film layer, a color printing layer formed on a rear surface of the window part, a shielding printing layer formed on a rear surface of the color printing layer, and a display part provided on a rear surface of the shielding printing layer. | 2015-05-07 |
| 20150124180 | LIQUID CRYSTAL DISPLAY AND MANUFACTURING METHOD THEREOF - A liquid crystal display according to an exemplary embodiment of the present invention includes a first display panel and a second display panel which are opposite to each other, a driving unit connection line which is formed in the first display panel, a driving circuit portion which is connected to the driving unit connection line, a backlight unit which is disposed so as to be adjacent to the first display panel, a polarizer which is disposed on a surface of the second display panel and overlaps the driving unit connection line and the driving circuit portion, and a reinforcement unit that overlaps the driving unit connection line, and the polarizer may be disposed on the reinforcement unit. | 2015-05-07 |
| 20150124181 | TOUCH DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A touch display device is provided. The touch display device comprises a display panel and a touch panel disposed on the display panel. The touch panel comprises a touch substrate and a sensing electrode layer. The touch substrate has a first surface, a second surface and a third surface. The first surface is opposite to the third surface and away from the display panel. The second surface is connected to the first surface and the third surface, and has a stress fracture area adjacent to the first surface. The sensing electrode layer is disposed on the third surface. | 2015-05-07 |
| 20150124182 | TOUCH PANEL AND DISPLAY DEVICE WITH THE TOUCH PANEL - A display device with a touch panel is disclosed. The display device with the touch panel includes: a sensor having a substrate, a sensing electrode layer and a protective layer with a plurality of protrusions, wherein the sensing electrode layer is configured between the substrate and the protective layer; and a display module disposed under the sensor, wherein the sensor is connected to the display module with a glue, and the glue is configured along a periphery of the sensor. | 2015-05-07 |
| 20150124183 | LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A liquid crystal display panel and a method for manufacturing the same are provided. The liquid crystal display panel includes a lens area and a peripheral area. The lens area includes a plurality of liquid crystal lenses. Each of the plurality of liquid crystal lenses includes a plurality of electrodes. The peripheral area surrounds the lens area. The peripheral area includes a first bus line layer and a second bus line layer facing each other in a first direction. The first and second bus line layers include first bus lines and second bus lines, respectively. The first and second bus lines are electrically connected to each of the plurality of electrodes through one end of each electrode. | 2015-05-07 |
| 20150124184 | STEREOSCOPIC IMAGE DISPLAY APPARATUS - An image display apparatus includes a display panel displaying an image, and a switching panel operated in a two-dimensional or three-dimensional mode. A viewer perceives the image of the display panel as a two-dimensional or three-dimensional image depending on the mode of the switching panel. The switching panel may include first and second substrates facing each other, a first electrode layer provided on the first substrate, a second electrode layer provided on the second substrate, and a liquid crystal layer interposed between the first and second substrates. One of the first and second electrode layers may include first and second electrodes provided on a specific plane, and two opposite inner sides of the first and second electrodes may be configured in such a way that lines extending therefrom converge on at least one first position. | 2015-05-07 |
| 20150124185 | Optical Film and Autostereoscopic 3D Display Using the Same - An optical film and an autostereoscopic 3D display using the same are provided. The optical film includes a concave lens layer and a birefringence layer. The concave lens layer has plurality of concaves and a presumed refractive index. The birefringence layer overlaps the concave lens layer and includes a plurality of liquid crystal units filled and cured in the concaves. The birefringence layer has a short axis refractive index. The presumed refractive index is between 100.1%-102.8% of the short axis refractive index. The autostereoscopic 3D display includes the optical film, a liquid crystal switch module, and a display panel module. The liquid crystal switch module is disposed on one side of the optical film. The display panel module is disposed on one side of the liquid crystal switch module opposite to the optical film and has a display surface facing the liquid crystal switch module. Image light generated by the display panel module can pass through the optical film after its polarization direction is modulated by the liquid crystal switch module. | 2015-05-07 |
| 20150124186 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - Disclosed is a liquid crystal display device and a method of manufacturing the same. The liquid crystal display device includes first and second substrates, a liquid crystal layer between the first and second substrates, and a first polarizing layer on the first substrate, wherein the first polarizing layer includes a plurality of carbon nanotubes aligned in a first direction. | 2015-05-07 |
| 20150124187 | WAVELENGTH SELECTIVE SWITCH DEVICE, WAVELENGTH SWITCHING METHOD FOR THE SAME AND COMMUNICATION APPARATUS - There are provided a wavelength selective switch device, a communication apparatus and a wavelength switching method. The wavelength selective switch device includes an incidence unit; an exit unit; a wavelength diversifying-synthesizing unit for diversifying and multiplexing the respective incident lights in a first axis direction; a light adjustment unit for making the lights of respective wavelengths be not diversified in the second axis direction; a liquid crystal beam deflection unit having a plurality of pixels divided into sub-regions, for deflecting the lights of the respective wavelengths by changing phase-shift characteristics of the pixels in the sub-regions; a reflection unit, disposed in parallel with the liquid crystal beam deflection unit; a deflection driving unit for driving electrodes of the pixels to generate required phase-shift characteristics. | 2015-05-07 |
| 20150124188 | COLOR-CONVERTING SUBSTRATE AND LIQUID CRYSTAL DISPLAY DEVICE - A color conversion substrate and liquid crystal display device of the present invention simplify the manufacturing process thereof and reduce deviations in intensity distribution of emitted light. The color conversion substrate includes a transparent substrate having a first main surface, a phosphor layer having a plurality of phosphors arranged along the first main surface and a plurality of transparent first boundary parts formed so as to surround the respective phosphors, and a plurality of first reflective parts formed on the outer peripheral surface of the respective plurality of first boundary parts. The portions of the first boundary parts where the respective first reflective parts are formed are curved, and the curvature thereof is 0.50/d | 2015-05-07 |
| 20150124189 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - In a liquid crystal display device which uses transparent conductive films as common wirings, the common wirings have common metal wirings, including metal wirings extending in a vertical direction and metal wirings extending in a horizontal direction in a mesh-like form. | 2015-05-07 |
| 20150124190 | LIQUID CRYSTAL DISPLAY DEVICE - To provide a liquid crystal display device capable of controlling deterioration of contrast even in the case where an opening is formed in an organic flattened film and the film has unevenness. In the liquid crystal display device that includes a TFT substrate, a CF substrate, and liquid crystal sandwiched between the TFT substrate and the CF substrate and that drives the liquid crystal with a lateral electric field, the TFT substrate has the organic flattened film in which a through hole for contacting a source electrode of the TFT and a pixel electrode and a sectional shape of the through hole is asymmetrical between a side on which the pixel electrode extends and the other side. | 2015-05-07 |
| 20150124191 | FRAMELESS LIQUID CRYSTAL DISPLAY DEVICE - The present invention provides a frameless liquid crystal display device, which includes: a rear casing ( | 2015-05-07 |
| 20150124192 | DISPLAY APPARATUS - A display apparatus includes: a display panel; a panel holder having a supporting portion that makes contact with an end surface of a lower side of the display panel so as to support the display panel; and a vibrating unit provided under the supporting portion so as to apply vibration to a portion, which is in contact with the supporting portion, of the end surface of the lower side of the display panel. A method of controlling the display apparatus includes: controlling the vibrating unit; and determining whether a predetermined condition is satisfied, wherein the controlling involves causing the vibrating unit to vibrate when the predetermined condition is satisfied. | 2015-05-07 |
| 20150124193 | OPTICAL DEVICE - An optical device may include a flat optical member; a reinforcement member which is bonded to a back side of the optical member and demonstrates stronger rigidity in a center area thereof than two side portions thereof when curved in a thickness direction in a first direction within an in-plane direction; and a driving device which switches a shape of the optical member together with the reinforcement member between a flat state and a curved state in which the optical member is curved in the first direction. | 2015-05-07 |
| 20150124194 | UNIAXIALLY STRETCHED MULTI-LAYER LAMINATE FILM, POLARIZING PLATE COMPRISING SAME, OPTICAL MEMBER FOR LIQUID CRYSTAL DISPLAY DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE - A uniaxially stretched multi-layer laminate film that exhibits a high polarization performance of 99.5% or more in a simpler configuration than before, a polarizing plate that is composed of the same, an optical member for a liquid crystal display device, and a liquid crystal display device are provided. Namely, in the uniaxially stretched multi-layer laminate film in which a first layer and a second layer are alternately laminated, the uniaxially stretched multi-layer laminate film includes an intermediate layer that has a thickness of 2 μm or more and 30 μm or less; the first layer is composed of a polyester containing a naphthalene dicarboxylic acid ester; the second layer is composed of a copolymer polyester and is an optically isotropic layer that has an average refractive index of 1.50 or more and 1.60 or less; the first layer, the second layer, both first and second layers, or the intermediate layer contains a visible light absorbent, which has a weight loss of less than 10% when it is kept at 300° C. for 1 hour, in an amount of 200 ppm or more and 2500 ppm or less on the basis of the weight of the layer; the uniaxially stretched multi-layer laminate film has a polarization degree of 99.5 or more; and the average transmittance Ts for S-polarized light in a wavelength range of 400 nm to 800 nm is 60% or more. | 2015-05-07 |
| 20150124195 | BACKLIGHT UNIT FOR DISPLAY DEVICES - Embodiments of a display device and a method of reducing optical leakage from a backlight unit of a display device are described. The display device includes a backlight unit, an image generating unit coupled to the backlight unit and a blocking structure. The backlight unit is configured to transit light to the image generating unit and the blocking structure is configured to prevent the light from reaching the image generating unit without passing through the optical processing unit. The backlight unit includes a light source unit and an optical processing unit having a quantum dot film coupled to the light source unit. The method of reducing optical leakage from the backlight unit of the display device includes providing a first blocking structure to a portion of the light source unit and providing a second blocking structure to a portion of the optical processing unit. | 2015-05-07 |
| 20150124196 | BACKLIGHT UNIT AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - The backlight unit whose luminance life can be extended without increasing the cost and the power consumption includes: a light source unit to which a light source is mounted; a light guide plate which converts light from the light source to a surface light beam and emits the beam; and supporting members provided between the light source unit and the light guide plate, wherein each of the supporting members is a member having a function of shortening the distance between the light source unit and the light guide plate by the changes generated over time. | 2015-05-07 |
| 20150124197 | BACKLIGHTING ASSEMBLY COMBINED WITH LCD ASSEMBLY AND METHOD FOR COMBINING THE SAME USING A DOUBLE-SIDED ADHESIVE MEMBER - The high intensity light output of edge lighting point light sources such as LEDs may generate undesired leakage light that is optically conducted by way of a continuum of the material of a components affixing adhesive member. In accordance with present disclosure, air filled grooves or other such discontinuities are formed in the adhesive member along respective light output pathways of the respective point light sources. One corresponding embodiment comprises spaced apart LEDs mounted on an FPCB; a light guide plate (LGP) disposed adjacent to the LEDs; a main support accommodating the LEDs and the LGP; and an adhesive member formed to affix together the FPCB, the main support, and the light guide, wherein the adhesive member is patterned to define air filled grooves along respective light output pathways of the LEDs. | 2015-05-07 |
| 20150124198 | LIGHT-CONDENSING SHEET, BACKLIGHT AND LIQUID CRYSTAL DISPLAY - Embodiments of the invention disclose a light-condensing sheet, a backlight and a liquid crystal display. The light-condensing sheet comprises a supporter and a plurality of flat light-condensing films provided on the supporter, and refractive indexes of the plurality of light-condensing films gradually increase from bottom to top. | 2015-05-07 |
| 20150124199 | TRANSPARENT DISPLAY DEVICE - A transparent display device includes a display panel and an active transparent OLED backlight device. The display panel includes a first driving substrate, a color filter substrate and a polymer dispersed liquid crystal layer interposed therebetween. The first driving substrate has a first driving region and sub-pixel regions. The active transparent OLED backlight device includes a second driving substrate, an opposite substrate and OLEDs interposed therebetween. The second driving substrate has a second driving region and sub-pixel regions. The second driving region is aligned with the first driving region, and each of the sub-pixel regions of the second driving substrate is aligned with one of the sub-pixel regions of the first driving substrate. Each of the sub-pixel regions of the second driving substrate has a light-transmitting region and a light-emitting region. The OLEDs are respectively disposed on the light-emitting regions of the second driving substrate. | 2015-05-07 |
| 20150124200 | COLOR FILTER SUBSTRATE, METHOD FOR FABRICATING THE SAME AND LIQUID CRYSTAL DISPLAY SCREEN - A color filter substrate and its fabrication method as well as a LCD screen are disclosed. The color filter substrate includes a base substrate, a plurality of color filter elements, and a microlens structure. The plurality of color filter elements are disposed on the base substrate, and the microlens structure is disposed on the plurality of color filter elements. | 2015-05-07 |
