41st week of 2014 patent applcation highlights part 23 |
Patent application number | Title | Published |
20140300757 | VIDEO QUALIFICATION DEVICE, SYSTEM, AND METHOD - Novel tools and techniques are provided for implementing video qualification, which might include implementing video quality measurements at a subscriber premises and qualification of the subscriber premises for particular levels of video data transmission. In some cases, one or more customer premises equipment might comprise video quality chips that might perform measurements of the telecommunications links, and might send the results to a server associated with the service provider. The server might determine available video services, based on the results of the measurements, and might send the subscriber notifications indicating that the subscribers qualify for particular video services. In some cases, implementing video qualification might include the server determining that video service levels provided to a customer premises has been decreased or otherwise negatively affected. The server might order diagnosis and repairs of the affected equipment, and might send a notification to the subscriber indicating that repairs are underway. | 2014-10-09 |
20140300758 | VIDEO PROCESSING SYSTEMS AND METHODS - A smart camera system is disclosed. The camera can work with cloud data storage systems and compute cloud. A call center can access the cloud to provide security monitoring services. | 2014-10-09 |
20140300759 | AUTOMATIC LOCATION-BASED CAMERA FRAME RATE SETTINGS - Systems and methods for adjusting the frame rate or other settings of a video camera device operably connected to a computing device are discussed. Embodiments disclosed herein include features such as detecting a camera activation event, acquiring location information about the location of the computing device, determining an AC power frequency associated with the device location or with a power source used by the device, determining ambient lighting conditions near or around the device, identifying a camera frame rate meant to reduce or avoid flicker that would otherwise be caused by a mismatch between AC frequency and camera frame rate, and setting the frame rate of the camera to the identified rate. Embodiments may include some or all of the features noted above, as well as additional features described herein. | 2014-10-09 |
20140300760 | ELECTRONIC APPARATUS AND METHOD OF CONTROLLING THE SAME - Disclosed herein is an electronic apparatus. The electronic apparatus includes a main body, an image capturing module, a detection unit, a controller, and an output unit. The image capturing module is mounted on the main body and acquires an image of an object. The detection unit is mounted on the main body and detects an angle of the main body with respect to a horizontal line, where the horizontal line is perpendicular to an optical axis of a lens of the image capturing module and is parallel to the horizon. The controller determines a photographing angle of the object based on the detected angle of the main body. The output unit outputs information regarding the photographing angle to an external device. | 2014-10-09 |
20140300761 | Image Output Device - Digital camera in cooperation with electronic paper calendar of known size comprises monitor smaller than electronic paper calendar and controller to have the monitor display partial picture around a desired point with scale of enlargement to attain size corresponding to that of electronic paper calendar on the basis of calendar size, ratio of picture area to entire calendar and size of digital image data. Digital camera separately stores calendar data, picture data, and event data for flexible combination thereof. Different calendar layouts are selectively prepared for horizontally and vertically long pictures, respectively with differences in picture/calendar ratio and number of months made. Common calendar layout is applied to a plurality of calendars. Even month is arranged on left side and odd month on right side of one calendar layout. Acceleration sensor automatically scrolls partial picture toward the direction opposite to sensed movement with prediction added. | 2014-10-09 |
20140300762 | INFORMATION PROCESSING APPARATUS AND CONTROL METHOD THEREFOR - There is provided an information processing apparatus comprising: a storage unit configured to store log data, which indicate locations along a path of movement, and image data, wherein the log data contains a plurality of pairs of position information and time information and wherein the image data contains time information and position information indicating a position where an image is captured; and a generation unit configured to generate interpolated log data which contains the plurality of pairs contained in the log data and the pair of position information and time information contained in the image data. | 2014-10-09 |
20140300763 | RECORDING MEDIUM AND CONTROL METHOD THEREOF - A recording medium removable from a host device includes a wireless communication unit for establishing wireless communication with an external device different from the host device, an image transmission control unit for transmitting image data to the external device via the wireless communication established by the wireless communication unit by using an image transmission protocol, and an identifying unit for identifying the identifier of the external device serving as the transmission target of the image data by the image transmission control unit. The wireless communication unit transmits a notification signal notifying a device in a network of the presence of a connectable device, receives a connect request transmitted by the device that has received the notification signal, and if the received connect request has been transmitted from the external device indicated by the identifier identified by the identifying unit, accepts the connect request. | 2014-10-09 |
20140300764 | Method of Easily Configuring a Network Camera - A method of setting up a network camera to communicate with a network includes connecting a cable to both the network camera and a computing device, the computing device being in communication with the network. The method also includes transmitting network configuration data from the computing device to the network camera via the cable, and adjusting network settings of the network camera according to the received network configuration data. | 2014-10-09 |
20140300765 | IMAGE PICKUP APPARATUS, IMAGE PICKUP METHOD, AND COMPUTER PROGRAM PRODUCT - Provided is an image pickup apparatus that includes: an image pickup unit configured to generate picked-up image data by an image pickup process; a camera shake detection unit configured to detect an angular velocity generated by camera shake when shooting; an electronic image stabilization unit configured to perform an image stabilization process by moving a position of a cropping area in the picked-up image data, based on the angular velocity detected by the camera shake detection unit; and an area changing unit configured to change a size of the cropping area with respect to the picked-up image data, based on the angular velocity detected by the camera shake detection unit. | 2014-10-09 |
20140300766 | INFORMATION PROCESSING TERMINAL, INFORMATION PROCESSING METHOD, AND PROGRAM - The present technology relates to an information processing terminal, an information processing method, and a program capable of naturally suppressing camera shake with a target object being arranged at a certain position on an image. An information processing terminal of an aspect of the present technology includes an imaging unit that takes an image; a display unit that displays the taken image; a measuring unit that measures a motion occurring in the terminal itself; and a display control unit that displays an indicator composed of a plurality of components arranged in a nested structure on the image and varies a position and a size of each component in accordance with the motion. The present technology is applicable to a mobile terminal provided with a camera and a display unit. | 2014-10-09 |
20140300767 | TONAL STABILIZATION OF VIDEO - A method of tonally stabilizing a video sequence is provided herein. The method includes the following stages: automatically selecting one or more anchor frames from a sequence of frames; obtaining an anchor adjustment map for each selected anchor frame; applying an edge-preserving smoothing algorithm to the sequence of frames; generating for any given pair of smoothed frames, a robust set of pixels indicating pixels affected by external tonal fluctuation only; initializing an adjustment map for any given frame by applying the anchor adjustment map to accumulated color differences between pixels of the robust set of the given frame and the anchor frame; and completing the initialized adjustment map by predicting values of pixels in each adjustment map not included in the robust set by applying an interpolation at a color space for these pixels, wherein the adjustment maps are usable for tonally aligning the video sequence with the anchor frame. | 2014-10-09 |
20140300768 | INTERCHANGEABLE LENS CAMERA, CAMERA BODY, LENS UNIT, AND BUSY SIGNAL CONTROL METHOD - An aspect of the present invention provides an interchangeable lens camera having a camera body and a lens unit that is freely attachable and detachable to the camera body. In the interchangeable lens camera, a communications unit in the camera body sends via communications terminals (MT_MOSI and MT_MISO) an INTR_BUSY control instruction that instructs whether to make notification with a busy signal (INTR_BUSY signal) for any operation out of a plurality of types of operations that can be executed, and the lens unit or camera body communications unit sets the busy signal (INTR_BUSY) to an ON state (low level) only during the period of operation of the type indicated by the INTR_BUSY control instruction. | 2014-10-09 |
20140300769 | Automatic Time Lapse Capture - In one embodiment, a mobile device captures images at a rate different than playback speed. The mobile device receives a user input to initiate a collection of image data by a mobile device. A timer is incremented in response to the collection of image data or in response to the user input. The mobile device compares an elapsed time of the timer to a threshold. The image data is captured at a first frame rate until the elapsed time reaches the threshold and at a second frame rate when the timer exceeds the threshold. A series of thresholds may be used. | 2014-10-09 |
20140300770 | CAMERA, LENS UNIT, AND IMAGE-PICKUP SYSTEM - A camera communication unit is configured to change a voltage applied to a communication terminal used for a communication with the lens unit. The camera communication unit is configured to communicate with the lens unit using one of a first communication mode and a second communication mode, the first communication mode setting the voltage applied to the communication terminal to a first range and enabling the communication with the lens unit using a communication method of a first communication speed, and the second communication mode setting the voltage applied to the communication terminal to a second range that is located on a lower voltage side than the first range and enabling the communication with the lens unit using a communication method of a second communication speed higher than the first communication speed. | 2014-10-09 |
20140300771 | IMAGING PROCESSING APPARATUS, CAMERA SYSTEM, IMAGE PROCESSING METHOD, AND PROGRAM - A camera system, image processing method and computer program stored on a computer readable medium for image processing. Long and short accumulation images with longer and shorter exposure times are respectively obtained from one field. First and second long accumulation evaluation values are computed from the long accumulation image. A short accumulation evaluation value is computed from the short accumulation image. A short accumulation target exposure time and short accumulation exposure control information are acquired from the short accumulation evaluation value and a first target level. A long accumulation evaluation value is acquired by synthesizing the first and second long accumulation evaluation values. Long accumulation exposure control information is acquired from the long accumulation evaluation value and a second target level. An image is generated from the long accumulation image and the short accumulation image. | 2014-10-09 |
20140300772 | IMAGE PICKUP APPARATUS, COLOR CORRECTION METHOD, AND COLOR CORRECTION PROGRAM - An image pickup apparatus includes: a dimming device configured to adjust light quantity of incident image pickup light; an image pickup device configured to obtain an image pickup signal based on image pickup light emitted from the dimming device; and a color correction processing section configured to perform color correction on the image pickup signal that is obtained by the image pickup device, based on information relating to light quantity of the image pickup light emitted from the dimming device. The color correction processing section performs the color correction to allow a color balance value of the image pickup signal to be substantially constant independent of the light quantity of the image pickup light emitted from the dimming device. | 2014-10-09 |
20140300773 | IMAGE CAPTURE DEVICES AND ELECTRONIC APPARATUS HAVING THE SAME - An image capture device can include an analysis unit that can be configured to determine a refined light model that models a light source based on first and second image signals sampled with first and second exposure times, respectively, and corresponding to first and second rows of pixels. A compensation unit can be coupled to the analysis unit, and can be configured to generate an output image signal by compensating the first and second image signals and the second image signal using compensation gains associated with the refined light model. | 2014-10-09 |
20140300774 | DIGITAL ELECTRONIC APPARATUS AND METHOD OF CONTROLLING CONTINUOUS PHOTOGRAPHING THEREOF - A digital electronic apparatus and a method of controlling continuous photographing performed by the digital photographing apparatus are provided. According to the method of controlling continuous photographing performed by the digital photographing apparatus of the invention, continuous photographing can be achieved according to a user's intention without causing inconvenience for a user during continuous photographing, and a desired event can be photographed from its start to end rather than during a precisely given interval. | 2014-10-09 |
20140300775 | METHOD AND APPARATUS FOR DETERMINING CAMERA LOCATION INFORMATION AND/OR CAMERA POSE INFORMATION ACCORDING TO A GLOBAL COORDINATE SYSTEM - An approach is provided for processing and/or facilitating a processing of one or more images to determine camera location information, camera pose information, or a combination thereof associated with at least one camera capturing the one or more images, wherein the camera location information, the camera pose information, or a combination thereof is represented according to a global coordinate system. The approach involves causing, at least in part, an association of the camera location information, the camera pose information, or a combination thereof with the one or more images as meta-data information. | 2014-10-09 |
20140300776 | PICTURE LOCATING METHOD AND SYSTEM BASED ON NAVIGATION FUNCTION OF MOBILE TERMINAL - Examples of the present disclosure provide a method and system for locating a picture, based on navigation functions of a mobile terminal. The method includes the follows. During a process of utilizing a photographic device to take a picture, current time information and geographical location information of current track point may be obtained and recorded by a mobile terminal, by using navigation functions carried by the mobile terminal. Picture shooting time carried by the picture taken and the time information obtained by the mobile terminal may be associated with each other, such that geographical location information where the picture is taken may be determined. Time of the photographic device is synchronous with time of the mobile terminal. | 2014-10-09 |
20140300777 | AUTOFOCUSING OPTICAL IMAGING DEVICE - An optical imager includes: an image sensor for capturing images of targets and outputting image signals; a lens for focusing the target on the image sensor as a function of lens position; a memory for storing predetermined lens positions determined from predetermined target sizes; and a controller for determining current target size based on captured images and positioning the lens at a predetermined lens position by correlating current target size with predetermined target sizes. | 2014-10-09 |
20140300778 | TECHNIQUE FOR REDUCING THE POWER CONSUMPTION OF A VIDEO ENCODER ENGINE - Raw video data is captured, processed, and then stored within a set of buffers. An encoder engine is configured to encode the video data for storage. A feedback controller dynamically adjusts the clock frequency of the encoder engine based on the number of buffers currently occupied by the video data. The feedback controller is tuned so that the clock frequency of the encoder engine will be increased when the number of buffers occupied by video data increases, and the clock frequency of the encoder engine will be decreased when the number of buffers occupied by the video data decreases. | 2014-10-09 |
20140300779 | METHODS AND APPARATUSES FOR PROVIDING GUIDE INFORMATION FOR A CAMERA - The present invention relates to methods and apparatuses for providing guide information for a camera. An image is collected through the camera. The image includes a subject illuminated by a light source. An optimized direction is determined for the light source relative to the subject. Guide information is generated that specifies an adjustment of the light source relative to the subject for achieving the optimized direction for the light source. The generated guide information is outputted to provide a visual, audible, or tactile indication. | 2014-10-09 |
20140300780 | COLOUR LIGHTING CONTROL METHOD FOR IMPROVING IMAGE QUALITY IN A VISION SYSTEM - Provided is a color lighting control method including a lighting device having a plurality of lighting unit, the method including the steps of: (a) applying predetermined input voltages to the plurality of lighting units respectively and obtaining image data through the camera; (b) calculating an image histogram that is a distribution graph for displaying the number of pixels corresponding to each monochrome level intensity through the image data; (c) calculating a standard deviation of the image histogram; and (d) calculating an optimal input voltage value for each of the plurality of lighting units within an adjustment range of the predetermined input voltages, wherein the optimal input voltage value maximizes the standard deviation. | 2014-10-09 |
20140300781 | ZOOM LENS AND IMAGE PICKUP APPARATUS INCLUDING THE SAME - A zoom lens includes first, second, and third lens units respectively having negative, positive, and negative refractive powers in this order from an object side to an image side. The lens units move during zooming such that the spacing between adjacent lens units changes, the second and third lens units are positioned on the object side at a telephoto end when compared to a wide angle end, and the third lens unit moves during focusing. A lateral magnification of the second lens unit at the wide angle end, a lateral magnification of the second lens unit at the telephoto end, a lateral magnification of the third lens unit at the wide angle end, a lateral magnification of the third lens unit at the telephoto end, a focal length of the first lens unit, and a focal length of the second lens unit are appropriately set. | 2014-10-09 |
20140300782 | ZOOM LENS AND IMAGE PICKUP DEVICE INCLUDING THE SAME - A zoom lens includes, in order from the object side to the image plane side, first to fifth lens units having positive, negative, positive, negative and positive refractive powers. At least the second lens unit and the fourth lens unit move during zooming such that at the telephoto end, in comparison with the wide angle end, the interval between the first lens unit and the second lens unit increases, the interval between the second lens unit and the third lens unit decreases, the interval between the third lens unit and the fourth lens unit changes, and the interval between the fourth lens unit and the fifth lens unit increases, and the fifth lens unit does not move. The zoom lens further includes a reflection unit for bending a light path, between the fourth lens unit and the fifth lens unit. | 2014-10-09 |
20140300783 | METHOD FOR DRIVING SEMICONDUCTOR DEVICE - The resolution of a low-resolution image is made high and a stereoscopic image is displayed. Resolution is made high by super-resolution processing. In this case, the super-resolution processing is performed after edge enhancement processing is performed. Accordingly, a stereoscopic image with high resolution and high quality can be displayed. Alternatively, after image analysis processing is performed, edge enhancement processing and super-resolution processing are concurrently performed. Accordingly, processing time can be shortened. | 2014-10-09 |
20140300784 | SYSTEM FOR CAPTURE OF DYNAMIC IMAGES SUCH AS VIDEO IMAGES - The proposed invention relates to instrumentation, namely to the optoelectronic systems, and will improve quality of captured images. The proposed system to capture dynamic images includes a set of remote mosaic-located imaging tools and provides the widest viewing angle, as well as a set of image transmission and processing tools to obtain the single image representing the consolidation of the mentioned images. At least one personal portable user tool provides display of this mentioned consolidated image and includes tools to determine the spatial position. | 2014-10-09 |
20140300785 | SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING SOLID-STATE IMAGING DEVICE, AND ELECTRONIC APPARATUS - A solid-state imaging device includes pixels each having a photoelectric conversion element for converting incident light to an electric signal, color filters associated with the pixels and having a plurality of color filter components, microlenses converging the incident light through the color filters to the photoelectric conversion elements, a light shielding film disposed between the color filter components of the color filters, and a nonplanarized adhesive film provided between the color filters and the light shielding film. | 2014-10-09 |
20140300786 | SOLID-STATE IMAGE SENSOR AND CAMERA - An image sensor including a first semiconductor region of a first conductivity type that is arranged in a substrate, a second semiconductor region of a second conductivity type that is arranged in the first semiconductor region to form a charge accumulation region. The second semiconductor region includes a plurality of portions arranged in a direction along a surface of the substrate. A potential barrier is formed between the plurality of portions. The second semiconductor region is wholly depleted by expansion of a depletion region from the first semiconductor region to the second semiconductor region. A finally-depleted portion to be finally depleted, of the second semiconductor region, is depleted by the expansion of the depletion region from a portion of the first semiconductor region, located in a lateral direction of the finally-depleted portion. | 2014-10-09 |
20140300787 | SOLID-STATE IMAGE PICKUP ELEMENT, METHOD OF DRIVING THE SAME, AND CAMERA SYSTEM - Disclosed herein is a solid-state image pickup element, including a pixel portion in which plural pixels each including a photoelectric conversion element for converting an optical signal into an electrical signal and accumulating therein the resulting electrical signal in accordance with an exposure period of time are disposed in a matrix; and a pixel driving portion adapted to control operations of the pixels in rows so as to carry out an electronic shutter operation and a reading operation of the pixel portion. | 2014-10-09 |
20140300788 | SOLID-STATE IMAGING SENSOR, METHOD OF MANUFACTURING THE SAME, AND CAMERA - A solid-state imaging sensor which has a first face and a second face, and includes an image sensing region and an electrode region, comprising a first portion including an insulating member and a wiring pattern, a second portion including a plurality of photoelectric conversion portions in the image sensing region, and a third portion including a plurality of microlenses in the image sensing region, wherein an opening is formed on the side of the first face in the electrode region so as to expose the wiring pattern, and the sensor includes a first film covering the plurality of microlenses, and a second film covering a side face of the opening and exposing part of the wiring pattern in the electrode region, with covering the first film in the image sensing region. | 2014-10-09 |
20140300789 | IMAGING APPARATUS AND CAMERA - An imaging apparatus including a pixel, a current source, and a signal processing circuit. The pixel outputs signal charge, obtained by imaging, as a pixel signal. The current source is connected to a transmission path for the pixel signal and has a variable current. The signal processing circuit performs signal processing on a signal depending on an output signal to the transmission path and performs control so that a current of the current source is changed in accordance with the result of signal processing. | 2014-10-09 |
20140300790 | IMAGE PROCESSING APPARATUS, AND NON-TRANSITORY COMPUTER READABLE MEDIUM STORING IMAGE PROCESSING PROGRAM - Provided is an image processing apparatus including a determination unit that determines a partial region which is a display object in an image, an angle acquisition unit that acquires angle information indicating a tilt in the partial region, a correction unit that corrects an angle of the partial region according to the angle information, and a display that displays a partial region of which the angle is corrected. | 2014-10-09 |
20140300791 | CAMERA APPARATUS AND WIRELESS COMMUNICATION TERMINAL INCLUDING THE SAME - A camera apparatus and a wireless communication terminal including the camera apparatus are described. The camera apparatus includes: a camera main body; and a viewfinder unit including an elastic member. The elastic member is retracted when the viewfinder unit is retracted into the camera main body and is extended when the viewfinder unit is extended outward in an extending direction from the camera main body. The viewfinder unit includes: an object lens; an ocular movable in a direction different from the extending direction of the viewfinder unit; and a mirror that reflects a first optical signal that passes through the object lens toward the ocular. | 2014-10-09 |
20140300792 | FOCUSING APPARATUS AND METHOD FOR CONTROLLING THE SAME, AND IMAGE PICKUP APPARATUS - The defocus amount of an imaging optical system is detected based on a pair of image signals that are obtained from an image sensor and are used for phase-difference detection automatic focusing. In a first mode, the drive of a focusing lens is controlled so that the focusing lens is driven at a first speed if the reliability of the pair of image signal is at a first level, and at a second speed lower than the first speed if the reliability of the pair of image signals is at a second level higher than the first level. | 2014-10-09 |
20140300793 | IMAGING APPARATUS WITH DISPLAY AND IMAGE DISPLAY APPARATUS - A digital camera is provided with a vertically long camera body having an approximately rectangular solid shape. An LCD panel provided in a rear surface of the camera body is arranged such that longitudinal directions of the display screen and the camera body correspond to each other. The digital camera is operated through a touch panel provided in a lower portion of the display screen. In a taking mode, an image is displayed in a small size on an upper portion of the display screen. In reproducing, the camera body is rotated sideways by | 2014-10-09 |
20140300794 | OPTICAL SCOPE FOR IMAGING OF AN OBJECT - An optical scope has at least one optical element which is used to image an object. An optical element is, for example, understood to mean a lens unit, a prism, or a prism system composed of multiple prisms. A lens unit is, for example, understood to mean one single lens or a unit which is composed of at least two lenses. It is provided to make the optical element of glass, namely N-BK7HT, N-SK2HT, F2HT, N-LASF45HT, SF6HT, N-SF6HTultra, N-SF6HT, SF57HTultra, N-SF57HTultra, N-SF57HT, N-LASF9HT and/or N-BAK4HT. The above-named glasses are glasses of the SCHOTT corporation. | 2014-10-09 |
20140300795 | Apparatus and Method Comprising a Beam Splitter - An apparatus and method wherein the apparatus includes a beam splitter configured to split a beam of light into at least two split beams, such that the at least two split beams are incident on different imaging sensors, wherein the beam splitter includes at least one diffraction grating; and at least two imaging sensors configured to detect the at least two split beams. | 2014-10-09 |
20140300796 | CAMERA APPARATUS AND MOUNT ADAPTER - A camera apparatus includes: a camera main body having a single plate type imaging section; and a handle mounting section for mounting a handle on an upper portion of the camera main body, wherein a lens for a three-plate type imaging section can be mounted on a lens mount section of a front portion of the camera main body via a mount adapter, and the handle mounting section mounts the handle on the upper portion of the camera main body so as to be able to move in a front-back direction. | 2014-10-09 |
20140300797 | DIGITAL CAMERA - A digital camera, in particular a motion picture camera, comprises an objective mount for connecting an objective and an image sensor, wherein the image sensor and the objective are arranged along an optical axis of the camera. The camera furthermore comprises an adjustment apparatus, which is adapted to adjust the distance between the objective mount and the image sensor along the optical axis, and a control unit having at least one operating parameter signal input for receiving at least one operating parameter value of the camera or of a connected objective. The control unit is adapted to determine a desired distance value between the objective mount and the image sensor on the basis of the at least one operating parameter value and to control the adjustment apparatus to set the distance between the objective mount and the image sensor to the desired distance value. | 2014-10-09 |
20140300798 | Multi-Imager Camera for Increased Depth-of-Field Imaging - A multi-imager camera having a focusing means attached to each imager in the form of a Z actuator and having an image-splitting optical assembly that splits the scene's energy to the individual imagers while maintaining the full scene coverage and while having all imagers placed in the same back-focal-distance that matches that of the camera's lens. The above camera focuses the individual imagers to different parts of the scene by individually controlling the Z actuator of each imager, and captures all images instantaneously for real-time on-board image processing or for post processing. | 2014-10-09 |
20140300799 | IMAGING DEVICE, METHOD FOR CONTROLLING IMAGING DEVICE, AND INFORMATION STORAGE DEVICE - An imaging device includes an objective lens that includes a movable lens that is configured so that an in-focus object plane position is changed along with a change in angle of view, an image sensor that acquire an image, a focus control section that implements an autofocus (AF) operation by controlling a position of the movable lens, a reference lens position setting section that sets a reference lens position based on a moving range of the movable lens during a wobbling operation, the wobbling operation being performed every given cycle during the AF operation, and a magnification correction section that performs a magnification correction process that reduces a change in the angle of view of the image due to a change in the position of the movable lens during the wobbling operation relative to the reference lens position. | 2014-10-09 |
20140300800 | IMAGING APPARATUS AND METHOD FOR CONTROLLING SAME - Provided is an imaging apparatus that acquires an object distance to an object and focus position information for each of a plurality of divided areas of an imaging screen corresponding to an imaging area. The imaging apparatus acquires data of the amount of field curvature corresponding to the imaging distance and removes a field curvature component from the object distance and the defocus amount so as to determine a plurality of objects which is equi-spaced from the imaging apparatus and faces the imaging apparatus. When the plurality of objects is equi-spaced from the imaging apparatus and is arrayed so as to face the imaging apparatus, a focused position at which an error in the defocus amount on the entire imaging screen is minimized is calculated. If otherwise, a focusing reference area is selected and then a preferential focusing operation is performed for an object corresponding to the area. | 2014-10-09 |
20140300801 | IMAGE PICKUP APPARATUS, LENS UNIT, AND METHODS OF CONTROLLING IMAGE PICKUP APPARATUS AND LENS UNIT - An image pickup apparatus on which a lens unit is to be removably mounted includes an image pickup element, a first focus detection unit which performs a focus detection by a contrast detection method based on a signal output from the image pickup element, a second focus detection unit which performs a focus detection by a phase difference detection method based on a pair of image signals output from the image pickup element, and a control unit which performs a focus control based on an in-focus position detected by the first or second focus detection unit, and the control unit receives, from the mounted lens unit, first information related to a displacement of the in-focus position by the phase difference detection method and determines whether to use the second focus detection unit for the focus control according to the first information. | 2014-10-09 |
20140300802 | IMAGING APPARATUS AND IMAGING METHOD - An imaging apparatus includes a range setting unit configured to set, as a focus adjustment range, a moving range of a focus lens in which the numbers of first pixels obtained while moving the focus lens is equal to or larger than a predetermined value, and an in-focus position calculation unit configured to calculate an in-focus position by using the numbers of second pixels obtained within the focus adjustment range. | 2014-10-09 |
20140300803 | IMAGE-CAPTURING SYSTEM - An image-capturing system for automatically adjusting divergence angle includes an image-capturing unit, an auxiliary lighting unit and a control unit. The image-capturing unit includes an image sensor and a zoom lens adjacent to the image sensor. The image sensor is applied to capture images of at least one body through the zoom lens, and the zoom lens has a first variable focus. The auxiliary lighting unit includes at least one light-emitting element for generating light beams and at least one electrically-controlled zoom lens module adjacent to the light-emitting element, and the electrically-controlled zoom lens module has a second variable focus. The light beams generated by the light-emitting element can pass through the electrically-controlled zoom lens module to form a projection light source that can be projected onto the body. The control unit includes a voltage controlling module electrically connected between the image-capturing module and the auxiliary lighting device. | 2014-10-09 |
20140300804 | TELEPHOTO LENS SYSTEM AND ELECTRONIC APPARATUS HAVING THE SAME - A telephoto lens system and an electronic apparatus having the same are provided. The telephoto lens system includes a first lens group having a positive refractive power, a second lens group having a negative refractive power, and a third lens group. The third lens group includes a (3-1)-th lens group having a positive refractive power, a (3-2)-th lens group having a negative refractive power, and a (3-3)-th lens group having a positive refractive power. | 2014-10-09 |
20140300805 | OPTICAL FILTERING FOR CAMERAS - In one embodiment, a camera includes an image sensor within a camera housing that converts light entering the camera housing through an optical filter into digital image data. The optical filter can have a variable opacity. A processor in communication with the image sensor identifies operation settings for the optical filter and adjusts an opacity level of the optical filter over an exposure period in accordance with the operation settings for the optical filter. In addition, the processor modifies values of the digital image data based at least on the operation settings for the optical filter. | 2014-10-09 |
20140300806 | HIGH-RESOLUTION HYPER-SPECTRAL ORTHOGRAPHIC IMAGING SPECTROMETER - A camera concurrently produces an orthographic map and map spectral content. illumination from an image passes through a phase modulator and the resulting rotating photo-flux phase is converted to an electrical signal by multiple adjacent sensors of detectors of array of detectors. The amount of unwanted illumination reaching the sensors is reduced by a set of baffles that shield and protect the transducers from unwanted out-of-field light and other light sources. | 2014-10-09 |
20140300807 | INTERMEDIATE UNIT AND CAMERA SYSTEM - Provided is an intermediate unit including a first connect unit, a second connect unit, and an information bridge unit. The first connect unit is for connecting a camera unit having a first resolution in one of a spatial direction and a temporal direction. The second connect unit is for connecting a camera control unit for a camera unit having a second resolution lower than the first resolution in one of the spatial direction and the temporal direction. The information bridge unit is interposed between the first connect unit and the second connect unit and configured to bridge information exchanged between the camera unit and the camera control unit. | 2014-10-09 |
20140300808 | CAMERA SYSTEM, CAMERA BODY, AND INTERCHANGEABLE LENS - According to an aspect of the present invention, the camera body can switch the present version, which is an original version, to specifications of an older version. Thus, even if the present versions of the camera body and the interchangeable lens doe not have compatibility, if an old version has compatibility, a minimum operation can be ensured by the specifications of the old version without updating the firmware, although the functions may have possibility of being restricted. | 2014-10-09 |
20140300809 | ATTACHABLE SMARTPHONE CAMERA - Systems and methods are disclosed herein that generally involve a camera system including a high-quality lens which is selectively attachable to a mobile device, effectively replacing the mobile device's integral lens. The attachable camera system can leverage existing features of the mobile device, such as the display, battery, storage, and sharing functions, allowing the camera system itself to be a relatively simple, lightweight, portable, and inexpensive device. The ability to selectively attach and detach the camera system from the mobile device allows the camera system to be removed when it is desired to maintain the mobile device's favorable weight, size, and ergonomic characteristics. When high quality image or video capture or increased camera flexibility and functionality is desired, the camera system can be attached to the mobile device. | 2014-10-09 |
20140300810 | Handheld Device and Method for Displaying Synchronously with TV Set - The present invention discloses a handheld device and a method for a handheld device to display synchronously with a TV set. The handheld device includes a display management module for converting output display data into data corresponding to a TV set screen resolution and displaying same on the TV set screen, and an output management module for converting the output display data into data corresponding to a handheld device resolution and displaying same on a handheld device screen synchronously with the TV set screen, the handheld device being connected to the TV set via an HDMI cable. A bidirectional synchronous display function is achieved in the present invention. | 2014-10-09 |
20140300811 | Methods and Systems for Providing and Playing Videos Having Multiple Tracks of Timed Text Over A Network - The present invention relates to video provided over one or more networks. Methods and systems for providing, playing, and/or editing video having multiple tracks of timed text are provided in different embodiments of the present invention. | 2014-10-09 |
20140300812 | REPPRODUCING DEVICE, REPORDUCING METHOD, PROGRAM, AND TRANSMITTING DEVICE - Disclosed herein is a reproducing device including: a receiving section configured to receive IP-distributed content data and caption data; a content decoding section configured to generate a content video signal; an input section configured to input a user setting adopted to select at least one of a display mode and an edge of a character in relation to a caption; a retaining section configured to retain the input user setting; a caption information analyzing section configured to separate the caption data in time series, and generate intermediate caption information; an updating section configured to overwrite and update the intermediate caption information; a caption video signal generating section configured to generate a caption video signal; and a synthesizing section configured to superimpose and synthesize the caption video signal on the content video signal. | 2014-10-09 |
20140300813 | DECODING OF CLOSED CAPTIONS AT A MEDIA SERVER - Systems and methods of processing closed captions are disclosed. For example, a media server may receive a first video stream and first closed caption data associated with the first video stream. The media server may interpret at least one command included in the first closed caption data to generate interpreted closed caption data. The media server may transmit, to a destination device, a second video stream including second closed caption data that is generated based on the interpreted closed caption data. | 2014-10-09 |
20140300814 | METHOD FOR REAL-TIME PROCESSING OF A VIDEO SEQUENCE ON MOBILE TERMINALS - A method for embedding an image in a video sequence for a mobile terminal. Preferably, the mobile terminal is a tablet or smartphone. The method comprises the steps of choosing an image to be embedded, reading the video sequence, displaying a frame, and determining the presence of an embedding zone in the frame. The embedding zone having been previously identified or deduced according to a predefined algorithm. The method further comprises the step of applying a deformation to the image to be embedded such that the image to be embedded coincides with the form of the embedding zone. The image combining the frame and the image to be embedded is displayed/disposed in place of the embedding zone. | 2014-10-09 |
20140300815 | METHOD FOR IMPROVING CHANNEL CHANGE IN A TELEVISION APPLIANCE - It is disclosed a method for changing channel in a television appliance. Upon reception of a user command to tune on a desired channel ( | 2014-10-09 |
20140300816 | SYSTEMS AND METHODS FOR CREATING AN ETERNALISM, AN APPEARANCE OF SUSTAINED THREE DIMENSIONAL MOTION-DIRECTION OF UNLIMITED DURATION, USING A FINITE NUMBER OF IMAGES - Data comprising a compressed image frame and temporal redundancy information is received. The image frame is decompressed. A plurality of bridge frames that are visually dissimilar to the image frame are generated. The image frame and the plurality of bridge frames are blended, generating a plurality of blended frames, and the plurality of blended frames are displayed. | 2014-10-09 |
20140300817 | Avoiding Flash-Exposed Frames During Video Recording - A flash removal system identifies and removes flash lighting from a video. The flash removal system identifies flash-exposed frames in the video based on a time stamp of the frame, an average luminance of the frame, or a user input. The flash removal system generates a replacement frame for each identified flash-exposed frame based on at least one frame of the video. The flash removal system replaces the flash-exposed frames with the replacement frames, generating a modified video having reduced flash lighting. | 2014-10-09 |
20140300818 | EFFICIENT 2D ADAPTIVE NOISE THRESHOLDING FOR VIDEO PROCESSING - Various embodiments of the present disclosure provide techniques for performing video denoising (VDN). An adaptive noise threshold is dynamically determined and used to distinguish between frame to frame differences in pixel values that relate to image motion from those differences that relate to noise. The disclosed techniques enable the noise threshold to be continuously updated, for example as frequently as once per frame, so that the noise threshold may closely track to varying levels of noise in the input video data. The techniques may be implemented in, for example, a video format conversion apparatus. Advantageously, the techniques may be incorporated in programmable logic devices (PLD's) or Field Programmable Gate Arrays (FPGA's) configurable to perform video format conversion, while adding only modest additional computational demands on the apparatus. | 2014-10-09 |
20140300819 | VIDEO DISPLAY DEVICE AND TELEVISION RECEIVING DEVICE - The purpose of the present invention is to increase a feeling of brightness and express a video with high contrast by detecting a part of a video signal that emits light, enhancing the display luminance of the light-emitting part, and displaying said part. A light emission detection portion ( | 2014-10-09 |
20140300820 | EMBEDDED AUDIO ROUTING SWITCHER - An apparatus includes a separator for selectively separating audio from input signals including video with audio, a switcher for selectively transferring the input signals to at least one output, a multiplexed path for sending the separated audio signal to the at least one output, the at least one output being configured for selectively directing the input signals and separated audio signals. | 2014-10-09 |
20140300821 | ATSC Terrestrial TV Antenna Network - This invention is the means to build an ATSC Terrestrial TV Antenna Network. This network comprises of a TV transmitter antenna, a Wi-Fi TV antenna cluster, and an ATSC Terrestrial TV Antenna Network Management Unit. | 2014-10-09 |
20140300822 | IMAGE TRANSFER APPARATUS - A video transmission system, in which a transmission device, a video signal source, and a video reception device are connected with each other via HDMI (High-Definition Multimedia Interface) which transmits uncompressed video signal; the transmission device verifying whether or not the video signal source and the video reception device have a function of transmitting/receiving a message and enabling the function of transmitting/receiving the message between the video signal source and the video reception device when both the video signal source and the video reception device have the function of transmitting/receiving the message; and the function of transmitting/receiving the message between the video signal source and the video reception device being terminated when HPD (Hot Plug Detect) signal indicated by the video reception device is set to “L” level. | 2014-10-09 |
20140300823 | DIGITAL TELEVISION SIGNAL, DIGITAL TELEVISION RECEIVER, AND METHOD OF PROCESSING DIGITAL TELEVISION SIGNAL - A digital television (DTV) receiver for processing a DTV signal, the DTV receiver including a receiver to receive a digital television signal including a plurality of extended text table (ETT) instances that appear in transport stream packets with common PID values, the ETT instances having common table ID values, each ETT instance comprising a section header and a message body, the section header containing a table identification (ID) extension field that serves to establish uniqueness of each ETT instance; a demodulator to demodulate the digital television signal; and an identifier to identify at least one pertinent ETT instance from the plurality of ETT instances. | 2014-10-09 |
20140300824 | Method of Channel Characterization for Mobile ATSC HDTV Receiver - This invention is a method to quickly characterize the time variant channel state information to enable ATSC HDTV signal reception in a mobile environment (e.g. in a moving car, walking, on a bus, etc.) by removing the Doppler interference. The invention relates to a single or multiple antenna ATSC terrestrial DTV receiver for indoor and mobile users. | 2014-10-09 |
20140300825 | Indicia of Contact Viewing Activity - Embodiments include a television appliance configured to display a selected on-screen viewing activity, and a client application. The client application is configured to maintain a list of contacts and allow a user of the media appliance to establish communication events with contacts via a network interface and packet-based network. The client application is further configured to receive a machine-readable data item via the network interface and packet-based network from a television appliance of one or more of said contacts, the machine-readable data item indicating a current television channel being viewed by the respective contact. In at least some embodiments, the client application may control operation of said user's television appliance in relation to the contact's television appliance based on the data item. | 2014-10-09 |
20140300826 | REAL TIME VIDEO FEED CONFIGURATION FOR REMOTE VISION - A method and system for providing remote vision to a remote operator with respect to one or more machines includes a remote vision system and a wireless transmitter/receiver for communicating with each of the one or more machines. One or more video feeds are available from each machine upon demand. A controller console linked to the remote vision system receives machine data from each of the one or more machines and selects one or more video feeds for display based on the received machine data. The controller console also specifies a resolution for each selected video feed based on the received machine data, such that the transmission of the selected video feeds does not exceed the available bandwidth. The controller console may modify the video selection or resolution specification during operation of the one or more machines based on additional received machine data. | 2014-10-09 |
20140300827 | MOBILE DEVICE AND REMOTE CONTROL CONNECTION FOR ELECTRONIC DEVICE VIA NEAR FIELD COMMUNICATION - A remote control for an electronic device having near field communication capability communicates with a mobile device having near field communication capability, for initiating information exchange between the electronic device and the mobile device. The electronic device may be a digital television, the remote control may be an infra-red, Bluetooth or Wi-Fi remote control, and the mobile device may be a smart phone or a tablet. | 2014-10-09 |
20140300828 | SYSTEM FOR AUDIO SIGNAL REBROADCASTING FROM A T.V. SET - A remote audio rebroadcasting and monitoring system has been disclosed which consists of a transmitter device and one or more remote wireless broadcast receiver devices. An audio input signal is extracted from an external universal output port integrated with a T.V. set and propagated into the transmitter device through an audio transfer linkage. Broadcast proceeds over a set programmed radio wave channel compliant with wireless transfer and reception of the audio signals described. The broadcast receiver device senses the channel at a remote location, removed from said transmitter device. Two additional auxiliary devices that comprise a transmitter to broadcast receiver interaction provide a means for broadcasting an overriding vocal audio signal globally via the transmitter to broadcast receiver device pathway with the coincident interruption of the audio input signal. | 2014-10-09 |
20140300829 | PROJECTION VIDEO DISPLAY DEVICE - Provided is a projection video display device with which precision of location of each component of the optical engine and the projection optical assembly is maintained and display video quality not impaired even if exterior force is sustained. A projection video display device comprises an optical engine ( | 2014-10-09 |
20140300830 | SWITCHABLE PROJECTION PANEL - A panel apparatus comprises a first layer. The first layer includes a liquid crystal microdroplet display (LCMD) switchable between transparent and opaque states in response to a change in an applied electrical voltage. The panel apparatus further comprises a second layer spaced apart from and coupled to the first layer. The second layer includes a transparent panel. | 2014-10-09 |
20140300831 | TRANSPARENT CAPACITIVE TOUCH PANEL - The capacitive touch panel includes a transparent substrate, a first transparent conductive layer, a first transparent insulative layer, a second transparent conductive layer, and a second transparent insulative layer. Each transparent conductive layer has a plurality of capacitive sensor rows. Every adjacent two of the capacitive sensor rows are formed with a gap to be insulated. The transparent insulative layers have a refractive index equal to or greater than that of the transparent conductive layers and fill the gaps. Each of the insulative layers is composed of a plurality of insulative coatings, and each coating is less than 100 nm in thickness. | 2014-10-09 |
20140300832 | Electronic Device Signal Routing Structures With Conductive Adhesive - An electronic device may have structures that are coupled together using conductive adhesive such as anisotropic conductive film and other adhesives. The structures that are coupled together may include a touch sensor structure formed from electrodes on the inner surface of a display cover layer, a display module having display layers such as a thin-film transistor layer, and circuitry mounted on substrates such as printed circuits. Conductive signal path structures may be used in routing signals within the electronic device. The conductive signal path structures may be formed from pins that are embedded within injection molded plastic, from metal traces such as laser-deposited metal traces that are formed on the surface of a plastic member or other dielectric, from metal structures that run within channels in a plastic, printed circuit traces, and other signal path structures. | 2014-10-09 |
20140300833 | TOUCH PANEL INCLUDING TOUCH SENSOR ARRAY - A touch sensor array includes a plurality of straight sensing series and a plurality of ladder-like sensing series. The straight sensing series are separated to each other. Each of the straight sensing series includes first sensing pads and first bridge lines, and each of the first bridge lines is connected to two adjacent first sensing pads. The ladder-like sensing series are separated to each other. Each of the ladder-like sensing series includes second sensing pads, second bridge lines and third bridge lines. The second bridge lines and the third bridge lines are alternatively disposed, and any two adjacent second sensing pads are connected through one of the second bridge lines or one of the third bridge lines. Each of the ladder-like sensing series crosses one of the first bridge lines. | 2014-10-09 |
20140300834 | CONDUCTIVE SHEET PAIR AND TOUCH PANEL - A conductive sheet pair that does not impair visibility when being stacked is provided. The conductive sheet pair includes a first conductive sheet including a first conductive pattern including a first pattern region in which a plurality of repetitions of a first geometric figure formed of conductive lines are arranged and a first blank region in which the repetitions of the first geometric figure are not arranged, and a second conductive sheet including a second conductive pattern including a second pattern region in which a plurality of repetitions of a second geometric figure formed of conductive lines are arranged and a second blank region in which the repetitions of the second geometric figure are not arranged. The sizes and the relative positions of the first blank region and the second blank region are adjusted so that the first pattern region and the second pattern region do not overlap each other when the first conductive sheet and the second conductive sheet are aligned and stacked together. The pattern regions located side by side with the blank region formed on the second conductive sheet in between are connected by a connection pattern. | 2014-10-09 |
20140300835 | TOUCH PANEL - A touch panel, having a light transmission touch sensing region and a peripheral region adjacent to at least one side of the light transmission touch sensing region, includes an inner frame and a decoration frame disposed in the peripheral region. The peripheral region has an inner edge and an outer edge, wherein the inner edge is closer to the light transmission touch sensing region than the outer edge. The inner sidewall of the inner frame is disposed along the inner edge of the peripheral region. The decoration frame includes at least one decoration layer. The pattern of the decoration layer does not exceed the inner edge of the peripheral region. | 2014-10-09 |
20140300836 | CONDUCTIVE STRUCTURE BODY AND METHOD FOR MANUFACTURING THE SAME - An exemplary embodiment of the present invention relates to a conductive structure body that comprises a darkening pattern layer having AlOxNy, and a method for manufacturing the same. The conductive structure body according to the exemplary embodiment of the present invention may prevent reflection by a conductive pattern layer without affecting conductivity of the conductive pattern layer, and improve a concealing property of the conductive pattern layer by improving absorbance. Accordingly, a display panel having improved visibility may be developed by using the conductive structure body according to the exemplary embodiment of the present invention. | 2014-10-09 |
20140300837 | ELECTRO-OPTIC DISPLAYS WITH TOUCH SENSORS AND/OR TACTILE FEEDBACK - An electro-optic display comprises, in order, a light-transmissive electrically-conductive layer; a layer of a solid electro-optic material; and a backplane ( | 2014-10-09 |
20140300838 | Light Modulating Module and Image Display - The disclosure provides a light modulating module attached on a display side of a reflective display apparatus, including: a light source portion capable of providing an illumination light beam, wherein the illumination light beam is capable of being transmitted to the reflective display apparatus, and the reflective display apparatus is adapted to reflect the illumination light beam to generate an image light beam; and an image light modulating device is disposed above the reflective display apparatus and disposed in a light path of the image light beam, wherein the image light modulating device is capable of modulating a direction and/or a polarization state of the image light beam, and the image light beam is emitted to either a left or right eye of a viewer to form an autostereoscopic image perceivable to the viewer after the image light beam passes through the image light modulating device. | 2014-10-09 |
20140300839 | HOLOGRAPHY 3D DISPLAY - The present disclosure relates to a holography three dimensional display in which no 3D cross-talk problem is arisen. The present disclosure suggests an apparatus for displaying hologram images comprising: a display panel displaying a hologram image; a back light unit disposed at one side of the display panel for supplying a back light; a first light path deflecting cell disposed at another side of the display panel facing away from the back light unit for forming a first prism pattern along a first direction rotating by a predetermined angle from a horizontal axis of the display panel; and a second light path deflecting cell disposed in front of the first light path deflecting cell for forming a second prism pattern along a second direction perpendicular to the first direction. | 2014-10-09 |
20140300840 | DIRECTIONAL BACKLIGHT WITH A MODULATION LAYER - A directional backlight is disclosed. The directional backlight has a directional backplane that has a plurality of directional pixels to scatter a plurality of input planar lightbeams into a plurality of directional lightbeams. Each directional lightbeam has a direction and angular spread controlled by characteristics of a directional pixel in the plurality of directional pixels. A modulation layer having a plurality of modulators modulates the plurality of directional lightbeams. The directional backlight can be used to generate a 3D image with multiple views by specifying the characteristics of the directional pixels in the directional backplane. | 2014-10-09 |
20140300841 | LIQUID CRYSTAL DISPLAY PANEL - Liquid crystal display panel includes a first substrate, a second substrate facing the first substrate, a liquid crystal layer sandwiched between the first substrate and the second substrate, a plurality of spacers located in the liquid crystal layer and protruding from the first substrate towards the second substrate, and a plurality of supporters defined at an inner surface of the second substrate and configured to support the spacers. Each supporter is corresponding to one spacer of the plurality of spacers and has a “+” shape or a “Y” shape in a top view. | 2014-10-09 |
20140300842 | DISPLAY - A display includes: a display panel; a front-face member being provided on a front face of the display panel, the front-face member covering a surrounding section, or the surrounding section and other part of the display panel; a back-face member being provided on a back face of the display panel, the back-face member covering the back face, or the back face and other part of the display panel; and an adhesion section adhering the back-face member and the front-face member to each other, the adhesion section covering a circumference section of the display panel. | 2014-10-09 |
20140300843 | Light Guiding System, Edge-Lighting Backlight Module and Liquid Crystal Display - A light guiding system includes an ambient light gathering system for absorbing the ambient light to generate absorbed light; multiple light guiding devices each of which includes a light input end near the ambient light gathering system and a light output end near an incident side of a light guiding plate, and multiple light diffusion devices between the light output end and the incident side of the light guiding plate, for broadening a light-emitting angle of the light output end. The absorbed light enters the light input end and is guided to the light output end to form a backlight source. The light guiding system utilizes a light diffusion device to broaden the light-emitting angle of the light output end such that the light uniformity of the light output end is improved and the optical quality of the edge-lighting backlight module is raised. | 2014-10-09 |
20140300844 | DISPLAY DEVICE - A display device includes a light source placement surface, a display panel provided opposite the light source placement surface and that comprises a pair of first sides, a first light source cluster that passes through a predetermined central area of the light source placement surface and that comprises a plurality of light sources disposed on the light source placement surface along a direction of the first sides, and a second light source cluster that includes at least one light source mounted to a corner portion of the light source placement surface and that comprises a plurality of light sources disposed on the light source placement surface in a direction heading from the corner portion to the central area. | 2014-10-09 |
20140300845 | DISPLAY DEVICE AND ELECTRONIC APPARATUS - According to an aspect, a display device includes: a display surface on which pixels each including sub-pixels of a plurality of colors are two-dimensionally arrayed; a reflective member; a first substrate provided with the reflective member; a second substrate arranged to face the first substrate; a color filter provided with filters of at least two colors corresponding to the sub-pixels; and a scattering member provided on the second substrate. A main viewing angle direction of the display device is a direction intersecting with the display surface. The color filter is formed such that a change in transmittance of the filters per pixel in the main viewing angle direction is smaller than a change in transmittance of the filters per pixel in a direction orthogonal to the main viewing angle direction in a direction parallel to the display surface. | 2014-10-09 |
20140300846 | FIPEL Backlight Panel With Pixel Color Film For Displays - A display system, having an emissive body, emitting light in a way that is color temperature controllable. The light emission can be from zones. The emissive body can be a FIPEL type device with a first transparent conductive coating over a light emitting substrate. The zones are each separately controllable for color temperature. | 2014-10-09 |
20140300847 | DISPLAY APPARATUS - A display apparatus including a display panel, a first polarizer and a second polarizer is provided. The display panel includes a pixel array substrate, an opposite substrate and a display medium. The pixel array substrate includes a plurality of pixel units. Each pixel unit includes a first electrode and a second electrode. The first electrode and the second electrode are alternately arranged and a lateral electric field is existed between the first electrode and the second electrode. The opposite substrate is disposed opposite to the pixel array substrate. The display medium is disposed between the pixel array substrate and the opposite substrate. The first polarizer is disposed on the pixel array substrate. The second polarizer is disposed on the opposite substrate. An included angle between an optical axis of the first polarizer and an optical axis of the second polarizer is 90°±θ, and θ is 1° to 9°. | 2014-10-09 |
20140300848 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A first organic insulating film is arranged in a circumference area outside an active area on a first substrate. A circumference color filter is arranged in the circumference area on a second substrate. A second organic insulating film covers the circumference color filter. A seal material is arranged between the first and second organic insulating films to attach the first substrate and the second substrate. The seal material extends up to a position in which end portions of the first and second substrates overlap. A first spacer is arranged between the first and second organic insulating films in the circumference area. The first spacer is arranged on an active area side in the seal material. A second spacer is formed between the first and second organic insulating films in a position in which the end portions of the substrates overlap. | 2014-10-09 |
20140300849 | CHIP-ON-FILM PACKAGE AND DEVICE ASSEMBLY INCLUDING THE SAME - Provided are a chip-on-film (COF) package and a device assembly including the same. The device assembly includes a COF package including a film substrate on which a plurality of film-through wires are formed. The device assembly includes a panel unit including a panel substrate on which a plurality of panel-through wires are formed. The panel unit is disposed on the COF package. One end of the panel unit is electrically connected to a first end of the COF package. The device assembly includes a control unit disposed below the panel unit. One end of the control unit is electrically connected to a second end of the COF package. | 2014-10-09 |
20140300850 | DISPLAY UNIT AND ELECTRONIC APPARATUS - A display unit includes: a base; a display layer having a first end surface; and a wiring layer disposed between the base and the display layer, the wiring layer being provided in a region differing from a position corresponding to the first end surface. | 2014-10-09 |
20140300851 | Liquid Crystal Display Device - A liquid crystal display includes a first substrate and a second substrate opposed to each other with a liquid crystal layer between the first substrate and the second substrate. The first substrate has a plurality of drain signal lines and a plurality of gate signal lines, and a plurality of pixel regions are defined by the drain signal lines and the gate signal lines. Each of the pixel regions includes a first electrode having a plurality of strip-like portions extending in an extension direction of the drain signal lines, the strip-like portions having at least one bent portion so that extension directions of each two parts of the strip-like portions separated by the at least one bent portion are different from each other, and a second electrode formed between the first substrate and the first electrode, and being overlapped with the strip-like portions in plan view. | 2014-10-09 |
20140300852 | LIQUID CRYSTAL DISPLAY DEVICE - The present invention provides a liquid crystal display device which can be miniaturized while preventing display defects such as flicker. The present invention relates to a liquid crystal display device including a wiring connected to an electrode to supply a common signal. The electrode includes a first electrode portion formed in a transparent conductive layer. The wiring is formed outside a display region and includes at least one of the first wiring portion and a second wiring portion and a third wiring portion facing the at least one of the first wiring portion and the second wiring portion. The first wiring portion, the second wiring portion, and the third wiring portion are respectively formed in a first conductive layer, a second conductive layer, and a third conductive layer. | 2014-10-09 |
20140300853 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes: a substrate, on which pixel areas arranged substantially in a matrix form having pixel rows and pixel columns are defined; a thin film transistor disposed on the substrate; a pixel electrode disposed in the pixel areas and connected to the thin film transistor; common electrodes disposed on the pixel electrode and spaced apart from the pixel electrode, where a microcavity is defined between the pixel electrode and the common electrodes; a roof layer disposed on the common electrodes, where a liquid crystal injection hole is defined through the common electrodes and the roof layer and exposes the microcavity; a liquid crystal layer disposed in the microcavity; and an encapsulation layer disposed on the roof layer, where the encapsulation layer covers the liquid crystal injection hole and seals the microcavity, where the common electrodes in the pixel rows are connected to each other. | 2014-10-09 |
20140300854 | EYEGLASSES WITH LENS SECURING MECHANISM FOR FACILITATING REMOVABLE LENSES - Eyewear is provided, namely, sunglasses with an integral securing mechanism that enables the lenses to be removed and replaced as necessary. Each of the lenses may retained within the frame of the eyewear/sunglass device as by corresponding channels or recesses formed on each corresponding side of the sunglass frame. For separate lenses, a securing mechanism is provided for securing each of the lenses. In a mono lens configuration, a single securing mechanism may be used to secure both lenses. A securing mechanism is placed in a locked position to hold the lens(es) in place during use. The securing mechanism is placed in an unlocked position by sliding or shifting the securing mechanism, enabling removal of the lens(es). Various constructions can be adopted for maintaining the securing mechanism in the locked position, such as by frictional force, magnetic force, or combinations thereof. | 2014-10-09 |
20140300855 | Eyewear Frame - An eyewear utilizing a screw-less hinge to connect the temple to the frame. The frames terminate laterally at an open, curved rung configured to receive a cylinder. This cylinder is fixed to the temple. Due to the configuration of the curved rung, the cylinder can be inserted into the curved rung in a rotatable or pivotable fashion. The cylinder receiving the curved rung holds the frame together and keeps eye wires from opening, thus keeping lenses from falling out of the eyewear. A wedge tool can be used to displace the curved rung from the cylinder to easily remove the temple from the frame. | 2014-10-09 |
20140300856 | METHOD FOR STORING INFORMATION ON A SPECTACLES LENS, SPECTACLES LENS BLANK OR SPECTACLES LENS SEMI-FINISHED PRODUCT - Information is stored in an optical element in the form of a glass or plastic body embodied as spectacles lens, spectacles lens blank or spectacles lens semi-finished product. The information in the form of data is stored on or in the glass or plastic body by creating at least one marking with a marking system. The marking can be read by a reading apparatus. The marking system has an interface for reading information individualizing the optical element. The marking is created permanently by the marking system on or in the optical element at a definition point of a local body-specific coordinate system set by two points on or in the optical element. In this body coordinate system, the manufacturer specifies the position of the lens horizontal and/or the far and/or the near and/or the prism reference point. | 2014-10-09 |