Patent application number | Description | Published |
20080232516 | METHOD OF FREQUENCY OFFSET COMPENSATION - The present invention provides a method of processing a baseband signal including user signals transmitted by a plurality of users. The method includes applying frequency offset compensations to the baseband signal, thereby to form respective frequency-shifted baseband signals. Each frequency compensation shifts the baseband signal by a multiple of a selected frequency offset and each resulting frequency-shifted baseband signal includes frequency-shifted user signals. The method also includes assigning at least some of the frequency-shifted user signals to groups. Each group corresponds to one of the frequency compensations and the assignment is carried out so that each group includes frequency-shifted user signals that have an estimated frequency offset that lies within a range determined by the corresponding frequency compensation. The method further includes estimating a frequency offset of each of the user signals based on the frequency-shifted user signal and the frequency compensation of the group including the frequency-shifted user signal. | 09-25-2008 |
20080267134 | RANDOM ACCESS CHANNEL MESSAGE FORMAT FOR AN EXTENDED RANGE WIRELESS COMMUNICATION SYSTEM - The present invention provides a method for transmitting and receiving random access channel messages in an extended range wireless communication system. One embodiment of the method may include accumulating, at a base station, signal energy received during a first portion of a transmission time interval. The method may also include accumulating, at the base station, signal energy received during a second portion of the transmission time interval. The first and second portions are offset from the start or end of the transmission time interval by selected delay intervals. The method may further include detecting the message(s) based on the signal energy accumulated during the first and second portions of the transmission time interval. | 10-30-2008 |
20080310561 | SIMPLIFIED RACH PREAMBLE DETECTION RECEIVER - A low complexity RACH preamble detector is described herein. The RACH preamble detection algorithm uses the peak detection of the time domain correlation function through frequency domain processing. The frequency domain processing considers the reference signals generated directly from frequency domain CAZAC sequence or time domain CAZAC sequence with DFT conversion. A low-complexity poly-phase LPF along with down sampling is implemented before the FFT to reduce the required length of the long FFT operation N-folded. | 12-18-2008 |
20090196238 | MULTIPLEXING PUCCH INFORMATION - An exemplary method of communicating includes multiplexing control signaling in a physical uplink control channel (PUCCH) onto a physical uplink shared channel (PUSCH) by puncturing PUSCH data with PUCCH control information using a uniform distribution of the PUCCH information within at least one resource block of the PUSCH data. One example includes using a first constant amplitude zero autocorrelation sequence (CAZAC) index on PUCCH for communicating CQI and ACK information together and using a second, different CAZAC sequence index for communicating CQI information alone or with NAK information or DTX. The used index provides an indication of whether ACK information is communicated. The used index also provides implicit DTX detection without additional processing. | 08-06-2009 |
20090196370 | ITERATIVE INTERFERENCE CANCELLATION - An exemplary method of communicating includes determining a first user channel estimate from a communication comprising first and second user reference sequences. The first user reference sequence is reconstructed using the determined first user channel estimate. The communication is revised based upon the reconstructed first user reference sequence. Then determining a second user channel estimate is based on the revised communication. | 08-06-2009 |
20090202021 | FREQUENCY OFFSET COMPENSATION FOR DETECTING RANDOM ACCESS CHANNEL PREFIX - An exemplary method of communicating includes shifting a constant-amplitude zero autocorrelation (CAZAC) root sequence to a shifted CAZAC sequence. The CAZAC root sequence is used by a source of a received communication. The shifted CAZAC sequence is used for detecting a preamble of the received communication. | 08-13-2009 |
20090285337 | FREQUENCY DOMAIN ROOT CAZAC SEQUENCE GENERATOR - The present invention provides a method for implementation in a random access channel receiver. One embodiment of the method includes generating at least one frequency domain reference sequence by multiplying a generator function and a first frequency domain root CAZAC sequence. The frequency domain reference sequence(s) is generated in response to receiving a signal at the random access channel receiver. This embodiment of the method also includes correlating the received signal and the frequency domain reference sequence(s). | 11-19-2009 |
20100113050 | CARRIER AGGREGATION FOR OPTIMIZING SPECTRUM UTILIZATION - An exemplary method of allocating bandwidth to a call for at least one user includes allocating 10 MHz of the bandwidth for a downlink between a base station and the at least one user. 5 MHz of the bandwidth are allocated for an uplink between the user and the base station. A selected amount of bandwidth is aggregated to the allocated 5 MHz for the uplink. The amount of bandwidth that is aggregated is at least one of an additional 3 MHz band or two additional 1.4 MHz bands. | 05-06-2010 |
20100142471 | COORDINATING TRANSMISSION SCHEDULING AMONG MULTIPLE BASE STATIONS - A method and an apparatus for scheduling transmissions of a plurality of cells in a wireless communications system including one or more base stations is provided. The method comprises providing a set of virtual channels to enable an intra-cell transmission orthogonal to another transmission within each cell of the plurality of cells and inter-cell transmissions orthogonal to other transmissions across a cluster of cells associated with the one or more base stations. The method further comprises exchanging signaling messages between two or more base stations to coordinate scheduling of the intra-cell transmission with the inter-cell transmissions for the cluster of cells. For optimizing a parameter associated with scheduling of a plurality of users from a cluster of cells in a wireless communication system, an optimal power level for the parameter of each active user may be searched to maximize an indication of system capacity of the wireless communication system. This enables a coordinated jointly scheduling of the users active in the cluster of cells based on the optimal power levels such that the total interference within the cluster may be minimized to maximize the system throughput/capacity. | 06-10-2010 |
20100172310 | METHOD TO IMPROVE MOBILE STATION RECEPTION OF DOWNLINK TRANSMISSION FROM A NON-SERVING CELL - An exemplary method of communicating includes using coordinated scheduling of downlink transmissions in a plurality of cells. The coordinated scheduling includes a serving node in one of the cells currently serving a mobile station pausing downlink transmission on at least one selected resource when a non-serving node in a neighboring one of the cells not currently serving the mobile station transmits a downlink communication intended for the mobile station on the selected resource. | 07-08-2010 |
20100272009 | METHOD AND APPARATUS FOR POWER CONTROL AND INTERFERENCE COORDINATION - An exemplary method of communicating includes a relay node that uses a cell identifier that is also used by a base station having a coverage area within which the relay node is located. The method includes determining that a mobile station is within a communication range of the relay node. A transmission power from the relay node is controlled so that the total transmission power of at least one transmission from the relay node and the base station corresponds to a selected transmit power limit. A timing of a downlink transmission from the base station and the relay node is coordinated based on a schedule determined by the base station. At least one uplink control parameter is set at the base station based upon uplink information regarding a link between the mobile station and the relay node. | 10-28-2010 |
20110103499 | METHOD FOR RANGE EXTENSION IN WIRELESS COMMUNICATION SYSTEMS - The present invention provides a method for range extension is wireless communication systems. One embodiment of the method includes determining whether a mobile unit is within a first range corresponding to a range of timing advances supported by a timing advance command. This embodiment also includes transmitting a plurality of timing advance commands to the mobile unit when the mobile unit is outside the first range so that the mobile unit can synchronize with the base station by combining information in the plurality of timing advance commands. | 05-05-2011 |
20110312355 | METHOD OF CANCELLING INTERFERENCE IN SOUNDING REFERENCE SIGNALS - The present invention provides a method of interference cancellation. Embodiments of the method may include removing one or more first reference signals from a signal received by a first base station to form a modified signal. The signal includes a superposition first reference signal(s) transmitted by first user equipment served by the first base station and one or more second reference signals transmitted by second user equipment served by a second base station. The method may also include extracting the second reference signal(s) from the modified signal and determining a timing delay between the second user equipment and the first base station using the extracted second reference signal(s). | 12-22-2011 |
20120127933 | Methods Of Setting Maximum Output Power For User Equipment And Reporting Power Headroom, And The User Equipment - One embodiment of the method includes defining, at the user equipment, a range for the maximum output power. The range includes a maximum value and a minimum value. The minimum value is based on a maximum power signalled by a base station, a power class of the user equipment, a maximum power reduction permitted, an additional maximum power reduction permitted, a reduction term dependent on transmission bandwidth, and a power management term. The method further includes setting, at the user equipment, the maximum output power within the defined range. | 05-24-2012 |
20120281783 | METHOD OF TRANSFORMING PRE-CODED SIGNALS FOR MULTIPLE-IN-MULTIPLE-OUT WIRELESS COMMUNICATION - The present invention provides a method of transforming pre-coded signals for transmission over an air interface in a MIMO wireless communication system. Embodiments of the method may include applying, at a transmitter, a transform matrix and a pre-coding matrix to a signal prior to transmitting the signal using a plurality of antennas deployed in a first antenna configuration. The pre-coding matrix is selected from a codebook defined for a second antenna configuration deployed in a non-scattering environment. The transform matrix is defined based on the first antenna configuration and a scattering environment associated with the transmitter. | 11-08-2012 |
20130195068 | METHODS FOR TRANSMITTING AND RECEIVING CONTROL INFORMATION - In a method for receiving control information, a transceiver decodes at least one set of decoding candidates, and then detects whether control information is present on the control channel based on the decoded at least one set of decoding candidates. In a method for transmitting control information, a transceiver selects a decoding candidate from a set of decoding candidates for transmitting control information on a control channel; and transmits to another transceiver, control information using at least one time-frequency control channel resource element corresponding to the selected decoding candidate. | 08-01-2013 |
20130195100 | METHOD AND APPARATUS FOR SIGNALING TO SUPPORT FLEXIBLE REFERENCE SIGNAL CONFIGURATION - The method includes determining which of one or more physical resource elements are to include a reference signal. The method includes generating a signaling message including information indicating the determined physical resource elements that are to include a reference signal, and transmitting the signaling message to user equipment. | 08-01-2013 |
20130235807 | VIRTUAL SECTORIZATION USING AN ACTIVE ANNTENNA ARRAY - Embodiments of the claimed subject matter provide a method and apparatus for virtual sectorization using an active antenna array. Embodiments of the apparatus include a transmitter for providing signals to an active antenna array. The signals cause the active antenna array to transmit a first reference signal to a first sector indicated to user equipment within the first sector by a sector identifier. The signals also cause the active antenna array to transmit a plurality of second reference signals into a corresponding plurality of second virtual sectors that overlap the first sector. The apparatus also includes a scheduler for scheduling transmission to user equipment based on feedback generated by the user equipment using the first reference signal or the second reference signals. | 09-12-2013 |
20130242750 | Method And Apparatus For Search Space Configuration For Enhanced Physical Downlink Control Channel - In one embodiment, the method of configuring a common search space (CSS) for at least one user equipment (UE) in a wireless communication system with at least a first type of physical downlink control channel includes broadcasting at least one parameter of a common search space (CSS), none of the parameters being the number of orthogonal frequency-division multiplex (OFDM) symbols. In one embodiment, a method of configuring a default user equipment-specific search space (USS) for a user equipment (UE) in a wireless communication system with at least a first type of physical downlink control channel includes broadcasting at least one parameter of the default USS, none of the parameters being based on an identifier of the UE. The broadcasting may occur before UE-specific signaling. In one embodiment, a method of configuring or reconfiguring the USS may include transmitting at least one parameter of the USS with UE-specific signaling. | 09-19-2013 |
20130250864 | CONTROL SIGNALING FOR DOWNLINK COORDINATED MULTIPOINT WIRELESS COMMUNICATION - Embodiments of the claimed subject matter provide a method and apparatus coordinating downlink multipoint transmissions. One embodiment of the method includes transmitting, from a first base station, first information indicating a first constraint on a starting position for downlink data transmission by the first base station or one or more second base stations. This embodiment of the method also includes transmitting, from the first base station, second information that includes a bit. A combination of the bit and the first information indicates the starting position for the downlink data transmission. | 09-26-2013 |
20140064263 | DEVICE DISCOVERY FOR DEVICE-TO-DEVICE COMMUNICATION - Embodiments of the claimed subject matter provide a method and apparatus for device discovery in device-to-device (D2D) communication. One embodiment of the method includes generating first information indicative of a first synchronization signal in response to a request from a first user equipment to be authenticated for D2D communication with one or more second user equipment. The first information corresponds to a sequence used to generate a primary synchronization signal for transmission by a serving cell for the first user equipment. This embodiment of the method also includes providing the first information to the first user equipment so that the first user equipment can transmit the first synchronization signal. | 03-06-2014 |
20140092815 | METHOD AND APPARATUS FOR INDICATING PHYSICAL RESOURCE BLOCK PAIRS FOR EPDCCH - A method of specifying one or more sets of one or more physical resource block (PRB) pairs from among a plurality of PRB pairs in a subframe that a user equipment (UE) is to monitor for an enhanced physical downlink control channel (EPDCCH) includes sending, from a base station, a first representation of the PRB blocks, the representation including a plurality of bits, a total number of the plurality of bits being less than a product of total number of the plurality of PRB pairs and a total number of the one or more sets, the first representation indicating which of the plurality of PRB pairs are in at least one of the one or more sets of one or more PRB pairs the UE is to monitor for the EPDCCH. | 04-03-2014 |
20140177581 | METHOD OF AND APPARATUS FOR PRE-CODED PHYSICAL DOWNLINK CONTROL CHANNEL REFERENCE SIGNAL AND BLIND DECODING - The invention proposes a method of and apparatus for a pre-coded physical downlink control channel reference signal and blind decoding. In a design of the reference signal, the demodulation reference signal is used for demodulating physical downlink control channel signaling, wherein the physical downlink control channel signaling is embedded in a physical downlink shared channel, an the demodulation reference signal is included in a control channel element. In a method for a user equipment to perform blind decoding, the user equipment obtains blind decoding indication information from a base station, the blind decoding indication information including an indication of a search space in which the user equipment performs the blind decoding, wherein the search space includes a control channel element of a traditional physical downlink control channel and further includes a control channel element of a pre-coded physical downlink control channel; and performs blind decoding for the number of searches indicated by the blind decoding indication information in the search space indicated by the blind decoding indication information, according to the blind decoding indication information. | 06-26-2014 |
20140219211 | METHOD AND APPARATUS FOR SEARCH SPACE CONFIGURATION FOR ENHANCED PHYSICAL DOWNLINK CONTROL CHANNEL - In one embodiment, the method of configuring a common search space (CSS) for at least one user equipment (UE) in a wireless communication system with at least a first type of physical downlink control channel includes broadcasting at least one parameter of a common search space (CSS), none of the parameters being the number of orthogonal frequency-division multiplex (OFDM) symbols. In one embodiment, a method of configuring a default user equipment-specific search space (USS) for a user equipment (UE) in a wireless communication system with at least a first type of physical downlink control channel includes broadcasting at least one parameter of the default USS, none of the parameters being based on an identifier of the UE. The broadcasting may occur before UE-specific signaling. In one embodiment, a method of configuring or reconfiguring the USS may include transmitting at least one parameter of the USS with UE-specific signaling. | 08-07-2014 |
20150043545 | TWO-STAGE DEVICE-TO-DEVICE (D2D) DISCOVERY PROCEDURES - First user equipment transmits a first synchronization signal and a second synchronization signal that are assigned to the first user equipment for device-to-device (D2D) communication. The first synchronization signal indicates a timing reference for D2D communication and a combination of the first synchronization signal and the second synchronization signal indicate resources allocated to the first user equipment to transmit discovery information for D2D communication. First user equipment detects a first synchronization signal and a second synchronization signal that are assigned to second user equipment for D2D communication. | 02-12-2015 |
20150049702 | CHANNEL STATE INFORMATION FEEDBACKS FOR COORDINATED MULTIPOINT TRANSMISSIONS - A method and a User Equipment (UE) for used in a Coordinated Multiple (CoMP) transmission are disclosed. The method for example comprises: acquiring a Channel State Information (CSI) feedback for each of at least one non-zero-power Channel State Information Reference Signal (CSI-RS) resource respectively, and providing, to a network side, at least one CSI feedback so as to facilitate a coordination of Downlink (DL) transmissions in the DL CoMP transmission at the network side. By doing so, a new Channel State Information (CSI) feedback reporting mode is introduced, so as to provide to a network side a plurality of CSI feedbacks based on which a better coordination of DL transmissions in the CoMP transmission can be achieved. | 02-19-2015 |