Patent application number | Description | Published |
20080205566 | CLOSED LOOP SUB-CARRIER SYNCHRONIZATION SYSTEM - A system and method for synchronizing sub-carriers in a signal processing system. Various aspects of the present invention may comprise method steps and structure that receive a sampled signal. Various aspects may produce a synchronization signal based on the sampled signal. Various aspects may generate and store a cropped version of the received sampled signal. Various aspects may read a cropped sampled signal from memory that corresponds to the received sampled signal. Various aspects may generate a restored sampled signal by adding samples to the cropped sampled signal read from memory. Various aspects may, based on the synchronization signal, output the restored sampled signal coarsely synchronized to the received sampled signal. Various aspects may determine a phase difference between the output restored sampled signal and the output received subcarrier. Various aspects may adjust the phase of the restored sampled signal in response to the determined phase difference. | 08-28-2008 |
20080311896 | METHOD AND SYSTEM FOR A MOBILE MULTI-SERVICE INTERFACE DEVICE - A mobile communication interface (MCI) device may enable utilizing a plurality of communication interfaces to enable connectivity to a plurality of available networks, user interface devices, resources, and/or communication devices; and to support a plurality of users of the MCI device. The communication interfaces may be wired and/or wireless; and may be based on standard network interfaces and/or device-based interfaces. The user devices and/or resources may be local and/or remote, and may comprise service provider devices. Users may interact directly with the MCI device and/or indirectly via communication interfaces. The MCI device may enable concurrent use of the device by a group of supported users; and user specific profiles may be utilized enable determining each user's preferences and operation settings. The user specific profiles may be generated, stored, updated, and/or utilized via the MCI device directly and/or external to the MCI device via its connectivity. | 12-18-2008 |
20080313230 | SYSTEM AND METHOD FOR MANAGING EVOLVING USER PREFERENCES - A system and method for managing evolving user preferences. Various aspects of the present invention may, for example and without limitation, comprise maintaining a user preference profile in which is stored a variety of information, including information indicating the manner in which a user desires an electronic device to operate. Information of the manner in which a user utilizes an electronic device may, for example, be obtained, and the user preference profile may be maintained in accordance with such information. The user profile information may, for example, be transferred between various computing systems and/or devices. | 12-18-2008 |
20080313315 | METHOD AND SYSTEM FOR A NETWORKED SELF-CONFIGURING COMMUNICATION DEVICE UTILIZING USER PREFERENCE INFORMATION - A first personal electronic (PE) device may enable generation, updating, and/or storage of user configuration information. The user configuration information may comprise information pertaining to device configuration and/or operational preferences specific to the device user and/or various use settings, connectivity, and/or use of available resources. The generation, updating, and/or storage of the user configuration information may be performed manually and/or automatically, and may be performed directly within the first PE device and/or via networked devices, which may communicatively coupled to the first PE device. A second PE device may be enabled to be communicatively coupled to the first PE device and/or the networked devices. The second PE device may then be enabled to download existing user configuration information from the first PE device and/or the networked device, and the downloaded user configuration may be utilized to configure the second PE device. | 12-18-2008 |
20080313558 | SYSTEM AND METHOD FOR MANAGING MEDIA WITH VIRTUAL DIRECTORIES - A system and method for managing media files (e.g., utilizing virtual directories). Various aspects of the present invention, for example, comprise interacting with a user to define one or more virtual file directories and/or associated media file characteristics. One or more media file characteristics may, for example, be associated with a media file. Such associated media file characteristics may, for example, be analyzed to determine whether to associate a media file with one or more virtual directories. | 12-18-2008 |
20080313642 | SYSTEM AND METHOD FOR ALLOCATING SPARE SYSTEM RESOURCES - A system and method for allocating and/or utilizing spare computing system (e.g., personal computing system) resources. Various aspects of the present invention may, for example and without limitation, provide a system and/or method that communicates incentive information with computing systems, and/or representatives thereof, regarding the allocation of computing resources for utilization by other computing systems and/or incentives that may be associated with such utilization. Various aspects of the present invention may, for example, allocate one or more resources of a computing system for utilization by another computing system based, at least in part, on such communicated incentive information. | 12-18-2008 |
20090022061 | METHOD AND SYSTEM FOR QUALITY OF SERVICE MANAGEMENT IN A MULTI-STANDARD MESH OF NETWORKS - Aspects of a method and system for quality of service management in a multi-standard mesh of networks are provided. In a wireless mobile communication device (WMCD) enabled to communicate utilizing a variety of communication networks, QoS information, such as latency, available bandwidth, and/or throughput, communicated to the WMCD may enable the coordination of data transfers to and/or from the WMCD. In this regard, the WMCD and each of the networks may comprise a QoS management entity. A QoS management entity may be enabled to poll other QoS management entities to discover QoS information. Similarly, a QoS management entity may be enabled to receive QoS information broadcast by other QoS management entities. A QoS management entity may enable selecting a network and/or communication protocol for the transmission and/or reception of data based on exchanged QoS information. | 01-22-2009 |
20090022091 | METHOD AND SYSTEM FOR UTILIZING STANDARDIZED INTERFACE IN A WIRELESS DEVICE TO DISCOVER AND USE LOCAL AND REMOTE RESOURCES - A wireless mobile communication (WMC) device may discover available networks, and available local and/or remote resources. The WMC device may configure routes utilizing one or more of discovered resources and one or more available networks. The routes may be utilized to performed operations requested via the WMC device. A standardized language and/or protocol may be utilized in discovering and/or communicating with available resources and/or networks. The standardized language and/or protocol may enable commonality among the discovered networks and/or resources, and encryption of data communicated through the established routes. The standardized language and/or protocol may be updated and/or modified to incorporate new resources either by direct interactions between said new resources and the WMC device, or via existing available resources and/or networks. The discovery of resources and/or establishment of routes may be user-triggered, or it may be based on user preference information. | 01-22-2009 |
20090022116 | METHOD AND SYSTEM FOR DYNAMICALLY SETTING UP AND TEARING DOWN CONNECTIONS IN MESH NETWORKS - Wireless mobile communication (WMC) devices located in near proximity of each other may be enabled to form a mesh (ad hoc wireless) network. WMC devices may form and/or tear down intra-mesh connection with other WMC devices in the same mesh network. WMC devices may utilize information related to other WMC devices in the mesh network in determining formation and tearing down of intra-mesh connections. This information may comprise relative speeds, locations, and directions of movement of the WMC devices forming/tearing intra-mesh connections. Other information including data bandwidth and/or power consumption may be utilized in such determination. This information may also comprise available services advertised by WMC devices in the mesh network. | 01-22-2009 |
20090022122 | METHOD AND SYSTEM FOR ESTABLISHING A CONNECTION OUTSIDE A MESH BY INCLUDING NETWORK CONNECTIVITY INFORMATION IN ROUTER CONFIGURATION MESSAGES - A Wireless mobile communication (WMC) device may maintain user preference information, which is unique to the WMC device capabilities and the device user. WMC devices located in near proximity of each other may be enabled to form an ad hoc wireless network wherein each WMC device within the network may function as a router for other devices. Utilizing such routing capability within an ad hoc wireless network may allow WMC devices that are out of their wireless coverage area to use other WMC devices within such ad hoc wireless network to route any impending communication through such other WMC devices wherein these devices may have wireless connectivity to their coverage networks. WMC devices that are may have external connectivity may be enable to be selective in routing information and/or data from other WMC devices in the ad hoc network. | 01-22-2009 |
20090022169 | METHOD AND SYSTEM FOR ESTABLISHING A QUEUING SYSTEM INSIDE A MESH NETWORK - Wireless mobile communication (WMC) devices located in operating proximity of each other may be enabled to form a mesh (ad hoc wireless) network. WMC devices in a mesh network may form a queuing system wherein each WMC device may store data forwarded to and/or from other WMC devices in the mesh network. Each WMC device in the mesh network may have different queuing capability based on a plurality of factors that may comprise internal factors such as processing, storage, power, and/or connectivity. The mesh network may comprise an internal addressing scheme that may enable utilization of the queuing system whether or not WMC devices in the mesh network are communicatively coupled to external networks. | 01-22-2009 |
20090023432 | METHOD AND SYSTEM FOR TAGGING DATA WITH CONTEXT DATA TAGS IN A WIRELESS SYSTEM - A wireless mobile communication (WMC) device may be utilized to generate and/or maintain multimedia data files. Context data tags may be created to tag the generated multimedia data files, enabling identification of multimedia data files without directly accessing the contents of the multimedia data files. Context data tags may comprise such attributes as time/date stamps, location, subject, environment, scheduling, and/or biometric information. The WMC device may maintain user preference information, which is unique to the WMC device capabilities and/or to a specific device user. The user preference information may be utilized to specify attributes that may be utilized in creating context data tags for multimedia data files. The user preference information may be maintained in the WMC device and/or externally. Tagging operation may be performed dynamically, and a remote device may be utilized to perform tagging operations and/or to maintain the user preference information. | 01-22-2009 |
20090023433 | METHOD AND SYSTEM FOR UTILIZING AND MODIFYING USER PREFERENCE INFORMATION TO CREATE CONTEXT DATA TAGS IN A WIRELESS SYSTEM - A Wireless mobile communication (WMC) device may be utilized to generate and/or maintain multimedia data files. Context data tags may be utilized to tag the generated multimedia data files to enable convenient identification of multimedia data files. Context data tags may comprise time/date stamps, subject, and/or location attribute. User preference information that is unique to the WMC device and/or a specific device user may be utilized to create context data tags for multimedia data files. The user preference information may be modified and/or updated. Modifications and/or updates of user preference information may be based on post-processing operations, biometric information, and/or self-learning techniques that may comprise operations performed on the multimedia data files. Post-processing operations may be performed on multimedia data files in the WMC device and/or a remote device. Tagged multimedia data files may be re-tagged based on modification to user preference information and/or post-processing operations. | 01-22-2009 |
20090023452 | METHOD AND SYSTEM FOR DYNAMICALLY SPLITTING JOBS ACROSS MULTIPLE AGNOSTIC PROCESSORS IN WIRELESS SYSTEM - Dynamically splitting jobs in wireless system between agnostic processor may comprise evaluating a job that a wireless mobile communication device may be requested to perform. The wireless mobile communication (WMC) device may evaluate a requested job to determine if one or more tasks may be sent to a remote device. The WMC device may consider such factors as information pertaining to the WMC device itself, information relating to the connection between the devices, and/or information pertaining to the remote device. This information may comprise such data as power availability in the wireless mobile communication device, processing load in the WMC device, processing and/or storage capabilities of the remote device, and characteristics of the connectivity between the two devices. | 01-22-2009 |
20090023454 | METHOD AND SYSTEM FOR UTILIZING PLURALITY OF PHYSICAL LAYERS TO RETAIN QUALITY OF SERVICE IN A WIRELESS DEVICE DURING A COMMUNICATION SESSION - A wireless mobile communication (WMC) device may be determine a quality of service (QOS) required to communicate data. The WMC device may utilize a plurality of physical layers available in the WMC device to retain the QOS throughout the data communication. The physical layers may comprise a plurality of wireless technologies and/or a plurality of transmission power levels within each wireless technology. Selection of physical layers that may be utilized may comprise determination of available QOS through the physical layers, available power in the WMC device, and/or power requirement for communicating data via the physical layers. Data encoding may also be utilized to alter size of communicated data while retaining the required QOS. Data encoding may comprise utilizing encoding schemes, data compression, and/or redundancy bits. A set of deadlines may be utilized to enable switching between available physical layers to ensure maintaining and/or achieving required QOS. | 01-22-2009 |
20090023457 | METHOD AND SYSTEM FOR UTILIZING POSITIONAL INFORMATION OF TAGGED DATA WHEN PROCESSING INFORMATION IN WIRELESS DEVICES - A Wireless mobile communication (WMC) device may be utilized to tag data generated and/or maintained in the WMC device with positional information. Positional information may comprise location and/or directional attributes. Positional attributes may be derived from operations, application, and/or accessory devices. Positional information of tagged data may be utilized to subsequently control the WMC device wherein operations may be performed and/or predicted in said WMC device based on match between current positional information of the WMC device and positional information of tagged data. User preference information and/or biometric data may be utilizing in tagging data with positional information and/or in utilizing positional data for controlling the WMC device. A remote device may be utilized for performing tagging operations, and/or storage of user preference information. | 01-22-2009 |
20090024641 | METHOD AND SYSTEM FOR UTILIZING CONTEXT DATA TAGS TO CATALOG DATA IN WIRELESS SYSTEM - A Wireless mobile communication (WMC) device may maintain user preference information, which is unique to the WMC device capabilities and the device user. The WMC device may modify and/or update the user preference information based on device use and information ascertained from applications running on the WMC device itself; for example scheduling applications. The user preference information may be utilized to create context data tags for generated data on the WMC device. Context data tags may comprise such information as time/date stamping, subject information, and/or location information. The context data tags may be utilized to tag the generated data, enabling continuous and improved cataloging. Improved cataloging may enable improved searchability of tagged data. Tagged data alternatively and/or additionally may be transferred and stored in a remote device for improved and secure back-up storage. The remote device may utilize context data tags for cataloging and storing received data. | 01-22-2009 |
20090024687 | METHOD AND SYSTEM FOR FORMATTING RETURNED RESULT FROM REMOTE PROCESSING RESOURCE IN WIRELESS SYSTEM - A result may be formatted after a task is performed in a remote processing resource in a wireless system. A wireless mobile communication (WMC) device may determine a task to be performed at a remote processing resource as part of a job the WMC device is requested to perform. Once the task is performed at the remote processing resource, formatted result is generated. The formatting of the result is based on different factors that may comprise, but not limited to, display limitations at the WMC device, power limitations at the WMC device, processing load/capability at the remote processing resource, and the connectivity limitation between the WMC device and the remote processing resource. Result formatting in such situations as internet searches may comprise generating a virtual webpage at the remote processing resource, and sending a link to this virtual webpage to the WMC device. | 01-22-2009 |
20090034606 | DISPLAY DEVICE WITH CONVERSION CAPABILITY FOR PORTABLE MEDIA PLAYER - Presented herein are system(s), method(s), and apparatus for a monitor with conversion capabilities for transferring data to a portable media player. In one embodiment, there is presented a monitor for displaying video data. The monitor comprises at least one input, a screen, an encoder, a memory, and an interface. The at least one input receives decompressed video data. The screen displays the decompressed video data. The encoder encodes the decompressed video data. The memory stores the encoded decompressed video data. The interface transfers the encoded decompressed video data to another memory removable from the interface. | 02-05-2009 |
20090034607 | INTEGRATED CIRCUIT WITH CONVERSION CAPABILITY FOR PORTABLE MEDIA PLAYER - Presented herein are system(s), method(s) and apparatus for an integrated circuit with conversion capabilities for transferring data to a portable media player. In one embodiment, there is presented an integrated circuit for providing video data. The integrated circuit comprises at least one input, at least one output, an encoder, and at least another output. At least one input receives video data. At least one output provides the video data to a display screen. The encoder encodes the video data into a particular compressed format. The at least another output for provides the video data in the particular compressed format to an interface. | 02-05-2009 |
20090128572 | VIDEO AND GRAPHICS SYSTEM WITH AN INTEGRATED SYSTEM BRIDGE CONTROLLER - A video and graphics system on an integrated circuit chip includes an integrated system bridge controller to interface a CPU with devices internal to the system as well as external peripheral devices. The system bridge controller is capable of performing format conversion between big-endian data and little-endian data. The system bridge controller includes a PCI bridge to interface with PCI devices, an I/O bus bridge to interface with I/O devices such as RAM, ROM, flash memory and 68000-compatible peripheral devices, and a CPU interface block to interface the CPU to video processing devices on the integrated circuit chip such as an MPEG video decoder. | 05-21-2009 |
20090157982 | MULTIPLE MISS CACHE - Presented herein are system(s) and method(s) for a multiple miss cache. In one embodiment, there is presented a cache system for storing data. The cache comprises a plurality of data words, a plurality of first bits, and a plurality of second bits. The plurality of data words store data. The plurality of first bits correspond to particular ones of the plurality of data words, each of the plurality of bits indicating whether the data word corresponding thereto stores valid data. The plurality of second bits correspond to particular ones of the plurality of data words, each of the plurality of bits for indicating whether a cache miss has occurred with the data word corresponding thereto. | 06-18-2009 |
20090185073 | UNIFIED SYSTEM FOR PROGRESSIVE AND INTERLACED VIDEO TRANSMISSION - A system and method that support both progressive and interlaced format video transmission and display. The system utilizes de-interlacing techniques to convert input interlaced format video to progressive format video, and compress and vertically scale the progressive format video to communicate videos more efficiently in a progressive format. The system also supports interlaced and progressive displays, where after decompressing and vertically resealing the communicated compressed progressive format video, the video may be converted to interlaced format if the display supports interlaced format video. The system is capable of dynamically switching between the progressive and the interlaced format modes. | 07-23-2009 |
20090201993 | SYSTEM, METHOD, AND APPARATUS FOR SCALABLE MEMORY ACCESS - Presented herein are system(s), method(s), and apparatus for scalable memory access. In one embodiment, there is presented a system for requesting services. The system comprises one or more requesting node(s) for performing a function with real-time requirements, such as making requests, wherein the one or more requesting node(s) indicates whether each of said requests is required or optional. | 08-13-2009 |
20090213266 | CLOSED LOOP SUB-CARRIER SYNCHRONIZATION SYSTEM - A system and method for synchronizing sub-carriers in a signal processing system. Various aspects of the present invention may comprise method steps and structure that receive a sampled signal. Various aspects may produce a synchronization signal based on the sampled signal. Various aspects may generate and store a cropped version of the received sampled signal. Various aspects may read a cropped sampled signal from memory that corresponds to the received sampled signal. Various aspects may generate a restored sampled signal by adding samples to the cropped sampled signal read from memory. Various aspects may, based on the synchronization signal, output the restored sampled signal coarsely synchronized to the received sampled signal. Various aspects may determine a phase difference between the output restored sampled signal and the output received sub-carrier. Various aspects may adjust the phase of the restored sampled signal in response to the determined phase difference. | 08-27-2009 |
20090271542 | SYSTEMS, METHODS, AND APPARATUS FOR PIXEL FETCH REQUEST INTERFACE - Presented herein are system(s) and apparatus for a memory access unit for accessing data for a module. The memory access unit comprises an output port for providing access requests for lists of addresses in a memory over a link to a memory controller. | 10-29-2009 |
20090295815 | GRAPHICS DISPLAY SYSTEM WITH WINDOW DESCRIPTORS - A graphics integrated circuit chip is used in a set-top box for controlling a television display. The graphics chip processes analog video input, digital video input, a graphics input and an audio input simultaneously. The chip uses window descriptors to describe logical surfaces, or windows, of graphics information to be displayed on the screen. The chip incorporates a unified memory architecture that provides a high level of system performance while conserving memory bandwidth and chip size. Video and graphics scaling capabilities as well as anti-flutter filtering capability are provided. | 12-03-2009 |
20090295834 | GRAPHICS DISPLAY SYSTEM WITH VIDEO SCALER - A video processing device may comprise one or more processors and/or circuits for use in a video processing device, in which the one or more processors and/or circuits may comprise a video scaler, a memory, a scaler engine, a clock selection circuit. The one or more processors and/or circuits are operable to receive a video image and select a video input clock or a display output clock for upscaling the received video image, or select the video input clock or the display output clock for downscaling the received video image based on a determination of whether the video image is to be downscaled or upscaled. The one or more circuits may be operable to downscale the received video image to generate a first scaled video image, and/or upscale the received video image to generate a second scaled video image, based on the selection. | 12-03-2009 |
20100043036 | MULTISTREAM VIDEO COMMUNICATION WITH STAGGERED ACCESS POINTS - A system and method that provide reduced latency in a video signal processing system. Various aspects of the present invention may comprise transmitting a first video information stream representative of a unit of video information. For example, the transmitted first video information stream may correspond to a video channel. A second video information stream representative of the unit of video information may be transmitted simultaneously with the first video information stream. The second video information stream may also, for example, correspond to the video channel. Various aspects of the present invention may comprise receiving a plurality of simultaneously transmitted video information streams. A video information stream of the plurality of received video information streams may be identified that, when processed, is expected to result in the lowest latency in presenting the unit of video information to the user. The identified video information stream may then be so processed. | 02-18-2010 |
20100103195 | VIDEO, AUDIO AND GRAPHICS DECODE, COMPOSITE AND DISPLAY SYSTEM - A video, audio and graphics system uses multiple transport processors to receive in-band and out-of-band MPEG Transport streams, to perform PID and section filtering as well as DVB and DES decryption and to de-multiplex them. The system processes the PES into digital audio, MPEG video and message data. The system is capable of decoding multiple MPEG SLICEs concurrently. Graphics windows are blended in parallel, and blended with video using alpha blending. During graphics processing, a single-port SRAM is used equivalently as a dual-port SRAM. The video may include both analog video, e.g., NTSC/PAL/SECAM/S-video, and digital video, e.g., MPEG-2 video in SDTV or HDTV format. The system has a reduced memory mode in which video images are reduced in half in horizontal direction only during decoding. The system is capable of receiving and processing digital audio signals such as MPEG Layer 1 and Layer 2 audio and Dolby AC-3 audio, as well as PCM audio signals. The system includes a memory controller. The system includes a system bridge controller to interface a CPU with devices internal to the system as well as peripheral devices including PCI devices and I/O devices such as RAM, ROM and flash memory devices. The system is capable of displaying video and graphics in both the high definition (HD) mode and the standard definition (SD) mode. The system may output an HDTV video while converting the HDTV video and providing as another output having an SDTV format or another HDTV format. | 04-29-2010 |
20100182318 | VIDEO AND GRAPHICS SYSTEM WITH SQUARE GRAPHICS PIXELS - A video and graphics system provides square graphics pixels to blend images having 640×480 pixels, such as graphics images provided by some set top boxes and intended to be displayed at a 12.27 MHz display sample rate, with images having 704×480 pixels, such as ITU-R 601 compliant images such as NTSC SDTV images, having oblong pixels and displayed at a 13.5 MHz display sample rate. A sample rate converter including a multi-phase-multi-tap filter is used to generate square pixels. The multi-phase-multi-tap filter provides a good balance of sharpness, smoothness, anti-aliasing and reduced ringing. The multi-phase-multi-tap filter can also be used to convert images having 320×480 pixels to images having 704×480 pixels. The multi-tap filter can be used for scan rate conversion of graphics or video images for HDTV or SDTV applications. | 07-22-2010 |
20110093906 | MULTISTREAM VIDEO COMMUNICATION WITH STAGGERED ACCESS POINTS - A system and method that provide reduced latency in a video signal processing system. Various aspects of the present invention may comprise transmitting a first video information stream representative of a unit of video information. For example, the transmitted first video information stream may correspond to a video channel. A second video information stream representative of the unit of video information may be transmitted simultaneously with the first video information stream. The second video information stream may also, for example, correspond to the video channel. Various aspects of the present invention may comprise receiving a plurality of simultaneously transmitted video information streams. A video information stream of the plurality of received video information streams may be identified that, when processed, is expected to result in the lowest latency in presenting the unit of video information to the user. The identified video information stream may then be so processed. | 04-21-2011 |
20110193868 | GRAPHICS ACCELERATOR - A graphics display system integrated circuit processes analog video input, digital video input, and graphics input. The system incorporates a graphics accelerator that includes memory for graphics data. The accelerator preferably includes a coprocessor for performing vector type operations on a plurality of components of one pixel of the graphics data. The accelerator also includes an expanded instruction set for storing and loading data. | 08-11-2011 |
20120165033 | DYNAMICALLY SPLITTING JOBS ACROSS MULTIPLE AGNOSTIC PROCESSORS IN WIRELESS SYSTEM - Dynamically splitting jobs in wireless system between agnostic processor may comprise evaluating a job that a wireless mobile communication device may be requested to perform. The wireless mobile communication (WMC) device may evaluate a requested job to determine if one or more tasks may be sent to a remote device. The WMC device may consider such factors as information pertaining to the WMC device itself, information relating to the connection between the devices, and/or information pertaining to the remote device. This information may comprise such data as power availability in the wireless mobile communication device, processing load in the WMC device, processing and/or storage capabilities of the remote device, and characteristics of the connectivity between the two devices. | 06-28-2012 |
20120236928 | Integrated Circuit with Conversion Capability for Portable Medial Player - Presented herein are system(s), method(s), and apparatus for an integrated circuit with conversion capabilities for transferring data to a portable media player. In one embodiment, there is presented an integrated circuit for providing video data. The integrated circuit comprises at least one input, at least one output, an encoder, and at least another output. At least one input receives video data. At least one output provides the video data to a display screen. The encoder encodes the video data into a particular compressed format. The at least another output for provides the video data in the particular compressed format to an interface. | 09-20-2012 |
20130111493 | DYNAMICALLY SPLITTING JOBS ACROSS MULTIPLE AGNOSTIC PROCESSORS IN WIRELESS SYSTEM | 05-02-2013 |