Patent application number | Description | Published |
20100148931 | RADIO DEVICES AND COMMUNICATIONS - Each of multiple radio devices in a region (e.g., a zone) receives time reference information for synchronizing themselves amongst each other. For example, based on the timing reference information, each radio device in a region synchronizes itself with respect to a common time reference, enabling communications according to shared access schedule (e.g., a time slotted access schedule). Each of the radio devices schedules communications to one or more target devices (e.g., RFID tags) in a monitored region based at least in part according to the shared access schedule. For example, each of multiple transmitters of the tag readers are assigned one or more time slots of the shared access schedule in which they are permitted to communicate in the monitored region. | 06-17-2010 |
20110148591 | METHODS AND APPARATUS FOR OPERATING A RADIO DEVICE - A radio device such as a wireless tag reader communicates with multiple types of wireless identification tags in a monitored region. The radio device includes a network interface to receive messages transmitted over a network. In response to receiving a message indicating to reconfigure the radio device to support an additional wireless tag protocol, the radio is reconfigured to support communications with a corresponding new type of wireless identification tag in a monitored region. Based on this technique of reconfiguring the radio device via network messages, the radio device optionally supports additional, new or latest versions of wireless tag protocols without having to physically reprogram or replace the radio device. | 06-23-2011 |
20120062366 | RADIO-FREQUENCY IDENTIFICATION TILES - The present disclosure is directed to methods and systems for a modular, configurable radio frequency identification (RFID) system receiving RFID communications and packaged in a casing for incorporation into a host object. The RFID system may interact with other systems based on the received RFID communications, and may include an antenna. An RFID receiver may receive RFID communications from an RFID tag via the antenna. A memory element may store a configuration for the system, which may be specific to a context of the host object and specify interactions with a second system in response to the received RFID communications. A processor may retrieve from the memory element the configuration responsive to receiving the RFID communications. A transmitter may transmit, via a second communications protocol, a request to the second system based on the interactions specified by the retrieved configuration. | 03-15-2012 |
20130228620 | METHOD AND SYSTEM FOR RFID-ASSISTED IMAGING - A method includes acquiring imaging data of a scene using an imaging tool. The method also includes extracting radio frequency identification (RFID) data stored in an RFID tag associated with the scene. The method further includes associating the RFID data with the imaging data. | 09-05-2013 |
20130314210 | MULTI-MODAL ENTITY TRACKING AND DISPLAY - A multi-modal entity tracking and display system is disclosed. In one embodiment, a tracking infrastructure comprising at least one data receiver is configured to detect a tracked entity comprising a first asset class using a first sensing technology and a second sensing technology. The at least one tracking data receiver is further configured to generate a tracking data report conveying a location of the tracked entity. A multi-modal entity tracker is configured to receive and store the tracking data report. The multi-modal entity tracker is further configured to receive and store a second tracking data report of a second tracked entity comprising a second asset class which is conveyed via the tracking infrastructure. | 11-28-2013 |
20140035726 | ENTITY TRACKING - A method for tracking an entity is disclosed. In one embodiment, a plurality of messages conveying an identification of an entity are received using a wireless identification component. A geographic location of the wireless identification component is determined by a position determining component wherein the geographic location describes a respective geographic location of the wireless identification component when each of the plurality of messages is received. A geographic position of the entity is determined based upon a known spatial relationship between the position determining component and the wireless identification component. | 02-06-2014 |
20140144981 | INTEGRATED IMAGING AND RFID SYSTEM FOR VIRTUAL 3D SCENE CONSTRUCTION - A method includes acquiring imaging data of a scene using an imaging tool. The method also includes processing the imaging data to create a three-dimensional representation of the scene and extracting radio frequency identification (RFID) data stored in an RFID tag. The method further includes using the RFID data for placing an object in the scene that is not yet part of the scene. | 05-29-2014 |
Patent application number | Description | Published |
20090190656 | Television Functionality on a Chip - A television on a chip (TVOC) system that provides a cost effective approach for providing television functionality on a single integrated circuit chip is disclosed. A TVOC includes the functionality necessary to receive and display television signals in a variety of input and output formats. A TVOC can be used in set-top boxes for cable and satellite television, or directly within a television. All functionality provided can be provided on a single integrated circuit. TVOC includes a data transport module, an IF demodulator, a digital audio engine, an analog audio engine, a digital video engine, and an analog video engine. The TVOC also includes three sets of interfaces including output interfaces, control interfaces and ancillary interfaces. Further features and embodiments provide enhanced functionality and increased efficiencies. | 07-30-2009 |
20100182504 | System and Method for Generating Pseudo MPEG Information from Digital Video Information - A system and method are used to generate pseudo MPEG information from digital video information. An artificial time stamp module and a data transport device can be used to generate the pseudo MPEG information, including associating an artificial time stamp with the digital video information. This pseudo MPEG information can be decoded as MPEG information. | 07-22-2010 |
20100188583 | SYSTEM AND METHOD FOR VIDEO PROCESSING DEMONSTRATION - Systems and methods for processing a video signal are disclosed and may include degrading a received video signal utilizing one or more of a plurality of video signal degrading methods. The degraded video signal may be processed to generate an improved video signal. At least a portion of the degraded video signal and a corresponding portion of the improved video signal may be displayed. Random noise may be added to the received video signal to generate the degraded video signal. Noise within the degraded video signal may be reduced to generate the improved video signal utilizing digital noise reduction and/or analog noise reduction. The received video signal may be compressed and decompressed to generate the random noise. The received video signal may be softened to generate the degraded video signal. The degraded video signal may be sharpened to generate the improved video signal. | 07-29-2010 |
20120147974 | Television Functionality on a Chip - A television on a chip (TVOC) system that provides a cost effective approach for providing television functionality on a single integrated circuit chip is disclosed. A TVOC includes the functionality necessary to receive and display television signals in a variety of input and output formats. A TVOC can be used in set-top boxes for cable and satellite television, or directly within a television. All functionality provided can be provided on a single integrated circuit. TVOC includes a data transport module, an IF demodulator, a digital audio engine, an analog audio engine, a digital video engine, and an analog video engine. The TVOC also includes three sets of interfaces including output interfaces, control interfaces and ancillary interfaces. Further features and embodiments provide enhanced functionality and increased efficiencies. | 06-14-2012 |
Patent application number | Description | Published |
20140139733 | MANAGING ENCODER PARAMETERS FOR PARALLEL TRANSCODING - Disclosed are various embodiments directed to transcoding a bit stream in parallel. A bit stream may be divided into a plurality of segments, where a plurality of transcoders encode at least a portion of the segments in parallel. If encoding is performed using variable bit rate (BR) encoding, each encoder may encode a segment and vary a BR for the segment. A measured average BR is compared with a target average BR to determine whether to adjust a video quality level (VQL) or any other encoder parameter. A relatively constant subjective quality may be maintained using variable BR encoding while achieving a target average BR. When using constant BR encoding, a VQL or other encoder parameter is used by encoders to achieve relatively constant subjective quality. For example, a relatively continuous quantization parameter between adjacent encoded segments may be achieved. | 05-22-2014 |
20140153909 | AUDIO AND VIDEO MANAGEMENT FOR PARALLEL TRANSCODING - Disclosed are various embodiments directed to transcoding a bit stream comprising audio and video frames that contains discontinuities. The video and/or audio portion of the bit stream may be divided into segments, where some of the segments are transcoded in parallel using a plurality of transcoder devices. In some embodiments, a discontinuity is detected in the bit stream before encoding, where the discontinuity is associated with a shift in a set of time stamps associated with the bit stream. A magnitude of the discontinuity is determined. The transcoding system aligns at least a portion of the audio frames to the series of video frames according to at least the discontinuity and the magnitude of the discontinuity. In other embodiments, the discontinuity is detected after encoding by analyzing time stamps that have been established during the transcoding process. | 06-05-2014 |
20140247983 | High-Throughput Image and Video Compression - A system implements multiple coding formats for coding pixels within a picture. The formats may be selected based on one or more of the input picture and encoding variables. The coding formats may have varying chroma sampling densities. Filtering may be applied to convert among the various formats or to convert a sampled input to a specific chroma sampling density. The format associated with various groups within a coded bitstream may be changed to adapt to evolution of the one or more variables or inputs. | 09-04-2014 |
20140351385 | ADAPTIVE BIT RATE PROXY - A device and method for providing an adaptive bit rate (ABR) proxy is disclosed. An ABR proxy determines an optimal data format to receive content segments for an audio/video (AV) content item from a source ABR server, and generates, based on that format and/or current network conditions, one or more local AV representations for providing content segments for the AV content item to locally connected devices. A local client device selects a local AV representation, and the ABR proxy provides the content segments for the AV content item to the local device in accordance with the selected local AV representation. | 11-27-2014 |
20150143450 | COMPOSITING IMAGES IN A COMPRESSED BITSTREAM - A system for compositing images in a compressed bitstream can include memory and first and second modules. The first module can be configured to receive images and corresponding position information that indicates positions of the images in a composite image, determine pixels of the images that will be occluded in the composite image, and store, at memory locations of the memory, pixels of the images that will be visible in the composite image. The second module can be configured to receive the position information, retrieve, from the memory locations, the visible pixels of the images, determine the images corresponding to the visible pixels based at least on the memory locations, and generate the composite image by arranging the visible pixels based at least on the position information. In one or more implementations, the visible pixels can be compressed before being stored in memory and decompressed after being retrieved from memory. | 05-21-2015 |