| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 348207990 |
CAMERA, SYSTEM AND DETAIL
| 19437 |
| 348061000 |
SPECIAL APPLICATIONS
| 10195 |
| 348042000 |
STEREOSCOPIC
| 6063 |
| 348140010 |
TWO-WAY VIDEO AND VOICE COMMUNICATION (E.G., VIDEOPHONE)
| 2432 |
| 348571000 |
IMAGE SIGNAL PROCESSING CIRCUITRY SPECIFIC TO TELEVISION
| 1653 |
| 348739000 |
VIDEO DISPLAY
| 1492 |
| 348725000 |
RECEIVER CIRCUITRY
| 1386 |
| 348036000 |
PANORAMIC
| 915 |
| 348441000 |
FORMAT CONVERSION
| 849 |
| 348180000 |
MONITORING, TESTING, OR MEASURING
| 833 |
| 348553000 |
BASIC RECEIVER WITH ADDITIONAL FUNCTION
| 827 |
| 348162000 |
RESPONSIVE TO NONVISIBLE ENERGY
| 604 |
| 348500000 |
SYNCHRONIZATION
| 459 |
| 348169000 |
OBJECT TRACKING
| 351 |
| 348461000 |
NONPICTORIAL DATA PACKET IN TELEVISION FORMAT
| 282 |
| 348723000 |
TELEVISION TRANSMITTER CIRCUITRY
| 179 |
| 348552000 |
COMBINED WITH DIVERSE ART DEVICE (E.G., COMPUTER, TELEPHONE)
| 151 |
| 348469000 |
FORMAT
| 123 |
| 348384100 |
BANDWIDTH REDUCTION SYSTEM
| 101 |
| 348040000 |
HOLOGRAPHIC
| 96 |
| 348175000 |
CAMERA WITH BUILT-IN TEST SIGNAL GENERATOR, TEST PATTERN, OR ADJUSTING ADJUNCT
| 58 |
| 348177000 |
DISPLAY OR RECEIVER WITH BUILT-IN TEST SIGNAL GENERATOR, TEST PATTERN, OR ADJUSTING ADJUNCT
| 34 |
| 348383000 |
MODULAR IMAGE DISPLAY SYSTEM
| 28 |
| 348460000 |
DIVERSE DEVICE CONTROLLED BY INFORMATION EMBEDDED IN VIDEO SIGNAL
| 16 |
| 348722000 |
STUDIO EQUIPMENT
| 15 |
| 348497000 |
FLUTTER OR JITTER CORRECTION (E.G., DYNAMIC REPRODUCTION)
| 9 |
| 348032000 |
PSEUDO COLOR
| 8 |
| 348195000 |
MECHANICAL OPTICAL SCANNING
| 7 |
| 348025000 |
IMAGE FALSIFICATION TO IMPROVE VIEWER PERCEPTION OF SELECTIVE OBJECT (E.G., MOVING OBJECT OR TARGET)
| 7 |
| 348206000 |
SPECIAL SCANNING (E.G., SPIRAL, RANDOM, ZIGZAG) | 4 |
| 20080297605 | APPARATUS FOR IMAGE PROCESSING - An apparatus for image processing includes an image sensor including a pixel array of a plurality of pixels, the pixel array having equal vertical and horizontal lengths; a buffer storing image signals scanned at the image sensor; and a controller reading out the image signals stored in the buffer according to a gradient of the image sensor with respect to a reference direction set to a predetermined value on an X-Y plane. | 12-04-2008 |
| 20090309979 | Image analysis using a hybrid connected component labeling process - A hybrid connected component labeling process for analyzing digitized or binary images includes the following steps. Firstly, a forward scan is executed to assign a forward label to each foreground pixel in the image. Then, a backward scan is executed to assign a backward label to each foreground. The backward labels are rearranged and label connection is recorded. A label allocation table including final labels and reference labels is provided for recording the use of the labels. When an object is considered as noise, the label corresponds to the pixels of the object is released by updating the label allocation table. | 12-17-2009 |
| 20120007992 | Method and Apparatus for Sub-Picture Based Raster Scanning Coding Order - A method and apparatus for sub-picture based raster scanning coding order. The method includes dividing an image into even sub-pictures, and encoding parallel sub-pictures on multi-cores in raster scanning order within sub-pictures, wherein from core to core, coding of the sub-picture is independent around sub-picture boundaries, and wherein within a core, coding of a sub-picture is at least one of dependent or independent around sub-picture boundaries. | 01-12-2012 |
| 20120249804 | VIBRATING ELEMENT, OPTICAL SCANNING DEVICE, ACTUATOR DEVICE, VIDEO PROJECTION APPARATUS, AND IMAGE FORMING APPARATUS - A work hardening treatment which decreases the Young's modulus, and an age hardening treatment which recovers or increases the Young's modulus decreased by the work hardening treatment are performed to form a vibrating portion, thereby attaining a vibrating element ( | 10-04-2012 |
| 348021000 |
PLURAL TRANSMITTER SYSTEM CONSIDERATIONS (E.G., INTERFERENCE REDUCTION) | 3 |
| 20080273080 | METHOD AND APPARATUS FOR DECISION FEEDBACK LOCATIONING USING DIGTITAL TELELVISION SIGNALS - A method using DTV signals for positioning is provided. The method comprises the step of calculating a transmission time of a data segment of a television signal from a transmitter to a mobile receiver. | 11-06-2008 |
| 20080291266 | APPARATUS, METHOD AND SYSTEM FOR SYNCHRONIZING A COMMON BROADCAST SIGNAL AMONG MULTIPLE TELEVISION UNITS - The invention provides an apparatus, system and method for allowing multiple television (TV) sets to communicate with each other in synchronizing their audiovisual signal output (when set to the same TV channel) to allow simultaneous viewing of common programming content. | 11-27-2008 |
| 20150373322 | AUTOMATIC MULTIPLE DEPTH CAMERAS SYNCHRONIZATION USING TIME SHARING - Aspects relate to an depth sensing system for capturing an image containing depth information of an object. In one embodiment, a depth sensing device for use in conjunction with multiple depth sensing devices for capturing an image containing depth information of an object comprises a near-infrared transmitter comprising a laser capable of producing a near infra-red light beam, a diffractive optical element positioned to receive a light beam emitted from the laser, the diffractive optical element, and a collimating lens, and a near-infrared receiver coupled to the transmitter in a relative position, the receiver comprising a sensor assembly capable of producing an image of the received light, the depth sensing device being configured to transmit and receive near infra-red light beams during a time period that is different than any of the other of two or more transmitter-receiver pairs of devices in communication with the depth sensing device. | 12-24-2015 |
| 348173000 |
CATHODE-RAY TUBE BURN-IN PREVENTION | 3 |
| 20130201348 | CAPACITIVE TOUCH PANEL - A capacitive touch panel includes a substrate, a plurality of first axis electrodes, and a plurality of second axis electrodes. Each of the first axis electrodes includes at least one first sensing electrode, and the first sensing electrode has a first electrode pattern region and a second electrode pattern region. Each of the second axis electrodes includes at least one second sensing electrode, and the second sensing electrode has a third electrode pattern region and a fourth electrode pattern region. A pattern density of the first electrode pattern region is higher than a pattern density of the second electrode pattern region, and a pattern density of the third electrode pattern region is higher than a pattern density of the fourth electrode pattern region. | 08-08-2013 |
| 20150331535 | SIMULTANEOUS SELF- AND MUTUAL CAPACITANCE SENSING - A touch controller. The touch controller can include first sense circuitry configured to be coupled to a first electrode on a touch sensor panel, the first sense circuitry configured to sense a first self-capacitance associated with the first electrode, and a first mutual capacitance associated with the first electrode. In some examples, the first sense circuitry can be configured to sense the first self-capacitance and the first mutual capacitance simultaneously. In some examples, the touch controller can further include a first mixer and a second mixer coupled to the first sense circuitry, the first mixer configured to demodulate a first output from the first sense circuitry to extract information about the first self-capacitance from the first output, the second mixer configured to demodulate the first output from the first sense circuitry to extract information about the first mutual capacitance from the first output. | 11-19-2015 |
| 20140285675 | System and Methods for Calibration of an Array Camera - Systems and methods for calibrating an array camera are disclosed. Systems and methods for calibrating an array camera in accordance with embodiments of this invention include the detecting of defects in the imaging components of the array camera and determining whether the detected defects may be tolerated by image processing algorithms. The calibration process also determines translation information between imaging components in the array camera for use in merging the image data from the various imaging components during image processing. Furthermore, the calibration process may include a process to improve photometric uniformity in the imaging components. | 09-25-2014 |
| 348380000 |
CATHODE-RAY TUBE DISPLAY BEAM CURRENT CONTROL | 1 |
| 20090262237 | High Deflection Angle CRT Display - A display has a panel ( | 10-22-2009 |
| 348024000 |
PLURAL STILL IMAGES OVER CONVENTIONAL CHANNEL | 1 |
| 20100118115 | IMAGE DATA RECEIVING DEVICE, OPERATION DEVICE, OPERATION SYSTEM, DATA STRUCTURE OF IMAGE DATA SET, CONTROL METHOD, OPERATION METHOD, PROGRAM, AND STORAGE MEDIUM - A television ( | 05-13-2010 |
| 348844000 |
MISCELLANEOUS | 1 |
| 20080297669 | System and method for Taking Control of a System During a Commercial Break - During output of a primary media stream from a cable, satellite, television, radio or internet source, a condition, signal or indication of a commercial break is detected causing a context switch to occur and enabling other services, programming or devices to intervene during the commercial break and causing an alternative output to be produced by a process or device. When the commercial break is over, the system may optionally rejoin with the primary media stream. | 12-04-2008 |
| 348031000 |
BACK SCATTER REDUCTION | 1 |
| 20100253762 | HOLOGRAPHIC MICROSCOPY OF HOLOGRAPHICALLY TRAPPED THREE-DIMENSIONAL NANOROD STRUCTURES - A method and system for performing three-dimensional holographic microscopy of an optically trapped one dimensional structure. The method and system use an inverted optical microscope, a laser source which generates a trapping laser beam wherein the laser beam is focused by an objective lens into a plurality of optical traps. The method and system also use a collimated laser at an imaging wavelength to illuminate the structure created by the optical traps. Imaging light scattered by the optically tapped structure forms normalized intensity holograms that are imaged by a video camera and analyzed by optical formalisms to determine light field to reconstruct 3-D images for analysis and evaluation. | 10-07-2010 |
