Patents by Inventor Aaron Callard
Aaron Callard has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8699603Abstract: The present invention allows a wireless communication system, such as a base station or user element to iteratively select precoding sets to apply to signals for transmission based on effective channel conditions.Type: GrantFiled: July 6, 2009Date of Patent: April 15, 2014Assignee: Avaya Inc.Inventors: Mohammad Hadi Baligh, Aaron Callard, Jianglei Ma
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Patent number: 8666425Abstract: In accordance with an embodiment, a method of operating a base station in a wireless system, includes partitioning a frequency band into at least one band of a first type and at least one band of a second type, and coordinating the partitioning with at least one further base station. The at least one band of the first type includes a band on which the base station transmits power proportional to a distance of a user device from the base station, and the at least one band of the second type comprises a band on which base station transmits a data rate inversely proportional to a distance of a user device from the base station.Type: GrantFiled: December 21, 2012Date of Patent: March 4, 2014Assignee: FutureWei Technologies, Inc.Inventors: Jianglei Ma, Mohammadhadi Baligh, Aaron Callard
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Publication number: 20140029424Abstract: Methods and devices for reducing traffic over a wireless link through the compression or suppression of high layer packets carrying predictable background data prior to transportation over a wireless link. The methods include intercepting application layer protocol packets carrying the predictable background data. In embodiments where the background data is periodic in nature, the high layer packets may be compressed into low-layer signaling indicators for communication over a low-layer control channel (e.g., an on off keying (OOK) channel). Alternatively, the high layer packets may be suppressed entirely (not transported over the wireless link) when a receiver side daemon is configured to autonomously replicate the periodic background nature according to a projected interval. In other embodiments, compression techniques may be used to reduce overhead attributable to non-periodic background data that is predictable in context.Type: ApplicationFiled: July 25, 2012Publication date: January 30, 2014Applicant: FUTUREWEI TECHNOLOGIES, INC.Inventors: Aaron Callard, Peiying Zhu, Hang Zhang, Petar Djukic, Vipul Desai, Peter Ashwood-Smith
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Publication number: 20140019619Abstract: Various devices and methods are disclosed to support clustering optimization in a communication system. For example, multiple nodes of the communication system can be segmented into multiple clustering plans. Each clustering plan can include multiple clusters that do not overlap with one another within that clustering plan. At least one of the clusters of one clustering plan can overlap at least one of the clusters of at least one other clustering plan. Each node could be a non-boundary node in at least one cluster of at least one clustering plan. Multiple nodes of the communication system can alternatively be segmented into clusters having expanding and contracting borders.Type: ApplicationFiled: July 12, 2012Publication date: January 16, 2014Applicant: Futurewei Technologies, Inc.Inventors: Gamini Senarath, Aaron Callard, Mohammadhadi Baligh, Keyvan Zarifi, Liqing Zhang, Ho Ting Cheng
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Publication number: 20140003268Abstract: A method for operating a centralized controller in a communications network with a plurality of transmission points includes generating a plurality of overlays for the communications network in accordance with first mutual intercell interference levels for transmission point pairs in the communications network, wherein each overlay of the plurality of overlays comprises virtual transmission points, and selecting a first overlay of the plurality of overlays in accordance with a merit measure derived from first user equipments (UEs) operating in the communications network tentatively scheduled to each overlay of the plurality of overlays. The method also includes scheduling a first subset of the first UEs operating in the communications network during a first resource unit in accordance with the selected first overlay.Type: ApplicationFiled: July 1, 2013Publication date: January 2, 2014Inventors: Keyvan Zarifi, Mohammadhadi Baligh, Aaron Callard, Jianglei Ma, Mohamed Adel Salem, Mark Andrew Hawryluck
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Publication number: 20130301757Abstract: Various devices and methods are provided that use signaling to support advanced wireless receivers. For example, a method includes receiving an input signal at a user equipment. The input signal includes a desired signal and an interfering signal, where the desired signal defines symbols using constellations. The method also includes obtaining information identifying a wireless channel used by the interfering signal and a modulation type used to modulate data in the interfering signal. The method further includes recovering the symbols from the desired signal using the information.Type: ApplicationFiled: May 10, 2012Publication date: November 14, 2013Applicant: Futurewei Technologies, Inc.Inventors: Ngoc Dung Dao, Aaron Callard, Mohammadhadi Baligh, Hang Zhang, Ho Ting Cheng
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Publication number: 20130301513Abstract: Systems and methods are disclosed herein for an enhanced Multimedia Broadcast Multicast Service (MBMS) in a wireless communications network. In one embodiment, a number of base stations in a MBMS zone, or broadcast region, accommodate both Spatial Multiplexing (SM) enabled user elements and non-SM enabled user elements. In another embodiment, a number of base stations form a MBMS zone, or broadcast region, where the MBMS zone is sub-divided into an SM zone and a non-SM zone. In another embodiment, the wireless communications network includes multiple MBMS zones. For each MBMS zone, base stations serving the MBMS zone transmit an MBMS zone identifier (ID) for the MBMS zone. The MBMS zone ID may be used by a user element for decoding and/or to determine when to perform a handoff from one MBMS zone to another.Type: ApplicationFiled: July 17, 2013Publication date: November 14, 2013Inventors: Jianglei Ma, Aaron Callard, Ming Jia, Wen Tong, Peiying Zhu, Hang Zhang
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Publication number: 20130265930Abstract: Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data.Type: ApplicationFiled: June 3, 2013Publication date: October 10, 2013Inventors: Aaron CALLARD, Jianglei MA
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Publication number: 20130203398Abstract: A method for configuring a first base station within a cluster in a communications system having a plurality of cluster includes optimizing an operating parameter of the first base station in accordance with first utility function results from a first utility function associated with the first base station and second utility function results from a second utility function associated with a second base station within the cluster, the first utility function results and the second utility function results according to multiple settings for the operating parameter of the first base station, a first initialized setting of the operating parameter for the second base station, and a second initialized setting of the operating parameter for an external base station outside the cluster. The method also includes sharing the optimized operating parameter with the external base station.Type: ApplicationFiled: February 3, 2012Publication date: August 8, 2013Applicant: FutureWei Technologies, Inc.Inventors: Aaron Callard, Ngoc-Dung Dao, Hang Zhang, Ho Ting Cheng, Gamini Senarath, Mark Andrew Hawryluck
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Patent number: 8494090Abstract: Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data.Type: GrantFiled: September 10, 2012Date of Patent: July 23, 2013Assignee: Research In Motion LimitedInventors: Aaron Callard, Jianglei Ma
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Patent number: 8472567Abstract: Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data.Type: GrantFiled: September 10, 2012Date of Patent: June 25, 2013Assignee: Research In Motion LimitedInventors: Aaron Callard, Jianglei Ma
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Publication number: 20130142290Abstract: Method and apparatus for decoding a transmitted signal by a receiver in a MIMO system into a first estimate component for estimating a first signal, a first interference component indicating interference resulting from a correlation relationship among a set of signals to be transmitted, and a first noise component. A base station generates the transmitted signal from the set of signals through a coding process, the coding process defining a correlation relationship amongst the set of signals. The correlation information about the correlation relationship is transmitted to the receiver directly or by a dedicated reference symbol. The decoding is performed by determining a linear receiver filter for the first signal in accordance with the correlation information, and de-correlating the first signal and interferences.Type: ApplicationFiled: December 2, 2011Publication date: June 6, 2013Applicant: FutureWei Technologies, Inc.Inventors: Hamidreza Farmanbar, Aaron Callard, Mohammadhadi Baligh
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Publication number: 20130078927Abstract: A system is provided for optimizing throughput in a communication system. During operation, the system receives, at a first antenna, estimated channel state information (CSI) at least one channel between the first antenna and at least one second antenna. The system obtains antenna correlation information associated with the first antenna and the second antenna, respectively. The system further calculates a set of noise terms associated with random noise for the at least one channel, and optimizes a configuration of beamformers for the first antenna and the at least one second antenna that maximizes a throughput of all antennas, in accordance with the estimated CSI, the obtained antenna correlation information, and the noise terms.Type: ApplicationFiled: July 24, 2012Publication date: March 28, 2013Applicant: FUTUREWEI TECHNOLOGIES, INC.Inventors: Meisam Razaviyayn, Mohammadhadi Baligh, Aaron Callard, Zhi-Quan Luo
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Publication number: 20130003893Abstract: Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data.Type: ApplicationFiled: September 10, 2012Publication date: January 3, 2013Applicant: Research In Motion LimitedInventors: Aaron Callard, Jianglei Ma
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Publication number: 20120328040Abstract: Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data.Type: ApplicationFiled: September 10, 2012Publication date: December 27, 2012Applicant: Research In Motion LimitedInventors: Aaron Callard, Jianglei Ma
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Patent number: 8340677Abstract: In accordance with an embodiment, a method of operating a base station in a wireless system, includes partitioning a frequency band into at least one band of a first type and at least one band of a second type, and coordinating the partitioning with at least one further base station. The at least one band of the first type includes a band on which the base station transmits power proportional to a distance of a user device from the base station, and the at least one band of the second type comprises a band on which base station transmits a data rate inversely proportional to a distance of a user device from the base station.Type: GrantFiled: June 30, 2010Date of Patent: December 25, 2012Assignee: Futurewei Technologies, Inc.Inventors: Jianglei Ma, Mohammadhadi Baligh, Aaron Callard
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Patent number: 8315225Abstract: A method of operation of a MIMO transmitter, in a cellular network supporting both legacy standard-compliant mobile terminals and next generation standard-compliant mobile terminals, the method comprising defining a matrix of resource blocks within an information channel of the cellular network, wherein each resource block corresponds to a region of subcarriers of a transmission timeslot at a given frequency subband; assigning a first set of reference signals (RSs) for the legacy standard-compliant mobile terminals to resource blocks at specific locations within the matrix to be transmitted by the MIMO transmitter, the specific locations being defined by, the legacy standard; and assigning a second set of RSs for the next-generation standard-compliant mobile terminals to other resource blocks within the matrix to be transmitted by the MIMO transmitter.Type: GrantFiled: September 21, 2009Date of Patent: November 20, 2012Assignee: Research In Motion LimitedInventors: Hua Xu, Jianglei Ma, Dong-Sheng Yu, Ming Jia, Aaron Callard, Mohammadhadi Baligh
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Patent number: 8311055Abstract: In accordance with an embodiment, a method of operating a base station configured to operate with user devices includes scheduling transmission for the user devices. Scheduling transmission includes determining a first fading metric for at least one user device from the at least one user device to the base station, determining at a second fading metric for the at least one user device from the at least one user device to at least one other base station, and determining a priority metric for the at least one user device based on the first and second fading metrics. The priority metric is configured to assign a higher priority to a user device with a first fading metric indicating an up-fade and the second fading metric indicating a down-fade. The method further includes transmitting a transmission schedule to the at least one user device based the priority metric.Type: GrantFiled: December 8, 2009Date of Patent: November 13, 2012Assignee: Futurewei Technologies, Inc.Inventors: Gamini Senarath, Israfil Bahceci, Peiying Zhu, Aaron Callard
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Patent number: 8305949Abstract: A method of OFDM transmission/reception comprising: transmitting broadcast/multicast signals on a first antenna and unicast signals on a second antenna; segregating broadcast/multicast sub-channelization from unicast channels sub-channelization based on FDM (frequency division multiplexing)/TDM (time division multiplexing) sub-channelization.Type: GrantFiled: September 11, 2007Date of Patent: November 6, 2012Assignee: Apple Inc.Inventors: Wen Tong, Jianglei Ma, Mo-Han Fong, Peiying Zhu, Aaron Callard
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Patent number: 8290088Abstract: Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna, diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data.Type: GrantFiled: August 7, 2008Date of Patent: October 16, 2012Assignee: Research In Motion LimitedInventors: Aaron Callard, Jianglei Ma