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    • 1. 发明授权
    • Signal quality estimation from coupling matrix
    • 耦合矩阵的信号质量估计
    • US08724741B2
    • 2014-05-13
    • US12572680
    • 2009-10-02
    • Gregory E. BottomleyYi-Pin Eric Wang
    • Gregory E. BottomleyYi-Pin Eric Wang
    • H04L27/00H04L27/06H03D1/06
    • H04B17/309H04B17/26H04L2025/03426
    • The quality of a received signal in a non-linear receiver is estimated using a coupling matrix G or Q that describes the interaction of symbols in the received signal with other symbols and/or how the impairment (noise and interference) interacts in the received signal. The coupling matrix is also useful for joint detection. The signal quality estimate may include, e.g., the minimum eigenvalue, and other functions, such as the determinant and trace of the coupling matrix. When G or Q varies with each block, as in CDMA systems employing longcode scrambling, a representative matrix can be used, such as a matrix of RMS values or average magnitudes of real and imaginary components. The signal quality estimate can be expressed as a bit error rate (BER).
    • 使用描述接收信号中的符号与其他符号的相互作用和/或接收信号中的损害(噪声和干扰)如何相互作用的耦合矩阵G或Q来估计非线性接收机中的接收信号的质量 。 耦合矩阵对于联合检测也是有用的。 信号质量估计可以包括例如最小特征值和其他函数,诸如耦合矩阵的行列式和轨迹。 当G或Q随每个块变化时,如在使用长码扰码的CDMA系统中,可以使用代表性矩阵,例如RMS值矩阵或实部和虚部分量的平均幅度。 信号质量估计可以表示为误码率(BER)。
    • 2. 发明授权
    • Frequency-domain multi-stage group detection for alleviating inter-symbol interference
    • 用于减轻符号间干扰的频域多级组检测
    • US08718199B2
    • 2014-05-06
    • US13050433
    • 2011-03-17
    • Yi-Pin Eric WangGregory E. Bottomley
    • Yi-Pin Eric WangGregory E. Bottomley
    • H04L27/06
    • H04L25/08H04L25/03012H04L25/03159H04L25/03171H04L25/03184H04L25/03312H04L25/03331H04L2025/03414H04L2025/03426
    • A receiver comprises plural receive antennas and electronic circuitry. The plural receive antennas are configured to receive, on plural subcarriers transmitted over a radio interface, a frequency domain signal that comprises contribution from a block of time domain symbols. The electronic circuitry is configured or operable to perform symbol detection of time domain symbols comprising the block by performing a multi-stage joint detection procedure comprising plural stages, and thus serves as a detector (40). For a first stage the block is divided into a first number of sub-blocks each having a sub-block first size. For a second stage the block is divided into a second number of sub-blocks each having a sub-block second size, the sub-block second size being greater than the sub-block first size. For each stage a detector (40) formulates frequency domain combining weights and uses the frequency domain combining weights for combining multiple receive versions of each subcarrier to provide candidate symbol combination values for symbols in each sub-block of the respective stage. For the second stage the detector (40) is further configured to use the candidate symbol combination values of the first stage to formulate joint hypotheses to serve as candidates for the joint detection operation of the second stage.
    • 接收机包括多个接收天线和电子电路。 多个接收天线被配置为在由无线电接口发送的多个子载波上接收包括来自时域符号块的贡献的频域信号。 电子电路被配置或可操作以通过执行包括多个级的多级联合检测过程来执行包括该块的时域符号的符号检测,从而用作检测器(40)。 对于第一阶段,块被分成具有子块第一大小的第一数量的子块。 对于第二级,块被分成第二数量的子块,每个子块具有子块的第二尺寸,子块的第二尺寸大于子块的第一尺寸。 对于每个阶段,检测器(40)制定频域组合权重并使用频域组合权重来组合每个子载波的多个接收版本,以为相应级的每个子块中的符号提供候选符号组合值。 对于第二级,检测器(40)还被配置为使用第一级的候选符号组合值来形成联合假设以用作第二级的联合检测操作的候选。
    • 3. 发明授权
    • Time-division multiplexed pilot signal for integrated mobile broadcasts
    • 用于集成移动广播的时分复用导频信号
    • US08391253B2
    • 2013-03-05
    • US12572423
    • 2009-10-02
    • Gregory E. BottomleyDirk GerstenbergerLars LindbomYi-Pin Eric Wang
    • Gregory E. BottomleyDirk GerstenbergerLars LindbomYi-Pin Eric Wang
    • H04J3/00
    • H04W4/06H04B1/707H04B2201/70701H04J3/00H04J13/0044H04J13/20
    • A pilot channel signal for time-division multiplexing with one or more traffic channel signals in a broadcast/multi-cast signal and for code-division multiplexing with a continuously transmitted pilot channel signal is described. In an exemplary method for transmitting a broadcast/multicast signal, a pilot symbol sequence is obtained for each slot of one or more frames of the broadcast/multicast signal, so that the pilot symbol sequence varies for each slot of a given frame. The pilot symbol sequence for each slot is spread with a channelization code, and the spread pilot symbol sequence for each slot is scrambled, using a scrambling code, to form a first pilot channel signal. The first pilot channel signal is transmitted so that it is time-division multiplexed with one or more traffic channel signals transmitted during each slot and code-division multiplexed with a second pilot channel signal transmitted during all slots of the one or more frames.
    • 描述了用于与广播/多播信号中的一个或多个业务信道信号进行时分复用并用于与连续发送的导频信道信号进行码分复用的导频信道信号。 在用于发送广播/多播信号的示例性方法中,为广播/多播信号的一个或多个帧的每个时隙获得导频符号序列,使得导频符号序列对于给定帧的每个时隙而变化。 每个时隙的导频符号序列用信道化码扩展,并且使用扰码对每个时隙的扩展导频符号序列进行加扰,以形成第一导频信道信号。 发送第一导频信道信号,使其与在每个时隙期间发送的一个或多个业务信道信号进行时分复用,并与在一个或多个帧的所有时隙期间发送的第二导频信道进行码分多路复用。
    • 5. 发明授权
    • Method and apparatus for estimating impairment covariance matrices using unoccupied spreading codes
    • 使用未占用扩展码估计损害协方差矩阵的方法和装置
    • US08098715B2
    • 2012-01-17
    • US12135268
    • 2008-06-09
    • Tracy FulghumGregory E. BottomleyYi-Pin Eric Wang
    • Tracy FulghumGregory E. BottomleyYi-Pin Eric Wang
    • H04B1/00
    • H04L25/03133H04B1/7103H04B1/712H04B17/327H04B2201/709727
    • In one of its aspects, the technology concerns a method of processing a signal which includes physical data channels which have been channelized using spreading codes. The method comprises (1) despreading unoccupied spreading codes (e.g., codes which are essentially unobscured by traffic data) included in the signal to obtain unoccupied code despread values, (2) using the unoccupied code despread values to form an impairment covariance matrix; and (3) using the impairment covariance matrix along with a channel estimate to form a processing parameter. The processing parameter can be one of combining sets and a signal quality estimate. In another of its aspects, the technology concerns a coherent, linear equalizer apparatus configured to process a signal which includes physical data channels which have been channelized using spreading codes. The equalizer apparatus comprises plural delay fingers (32) configured to despread unoccupied spreading codes included in the signal to obtain unoccupied code despread values, and a generator (60) configured to use the unoccupied code despread values to form an impairment covariance matrix.
    • 在其一个方面,该技术涉及一种处理信号的方法,该信号包括已经使用扩展码被信道化的物理数据信道。 该方法包括:(1)解扩所述信号中包含的未被占用的扩展码(例如,业务数据本质上不被遮挡的代码),以获得未占用的码解扩值,(2)使用未占用码解扩值形成损害协方差矩阵; 和(3)使用损伤协方差矩阵以及信道估计来形成处理参数。 处理参数可以是组合集合和信号质量估计之一。 在另一方面,该技术涉及一种相干的线性均衡器装置,其被配置为处理包括已经使用扩展码被信道化的物理数据信道的信号。 均衡器装置包括:多个延迟指(32),被配置为对包括在信号中的未占用的扩展码进行解扩以获得未占用的码去扩展值;以及生成器(60),被配置为使用未占用的码去扩展值来形成损害协方差矩阵。
    • 8. 发明申请
    • METHOD AND APPARATUS FOR EFFICIENT AMLD MATRIX COMPUTATIONS
    • 用于有效的AMLD矩阵计算的方法和装置
    • US20110129000A1
    • 2011-06-02
    • US12628341
    • 2009-12-01
    • Douglas A. CairnsGregory E. BottomleyElias Jonsson
    • Douglas A. CairnsGregory E. BottomleyElias Jonsson
    • H04B1/707H04L27/06
    • H04L25/03006H04B1/71057H04B2201/709727H04L25/03178H04L25/03203H04L25/03331H04L2025/03426
    • The computation of code-specific channel matrices for an Assisted Maximum Likelihood Detection (AMLD) receiver comprises separately computing high rate matrices that change each symbol period, and a low rate matrix that is substantially constant over a plurality of symbol periods. The high and low rate matrices are combined to generate a code-specific channel matrix for each receiver stage. The high rate matrices include scrambling and spreading code information, and the low rate matrices include information on the net channel response and combining weights. The low rate matrices are efficiently computed by a linear convolution in the frequency domain of the net channel response and combining weights (with zero padding to avoid circular convolution), then transforming the convolution to the time domain and extracting matrix elements. Where the combining weights are constant across stages, a common code-specific channel matrix may be computed and used in multiple AMLD receiver stages.
    • 用于辅助最大似然检测(AMLD)接收机的代码特定信道矩阵的计算包括分别计算改变每个符号周期的高速率矩阵和在多个符号周期上基本上恒定的低速率矩阵。 组合高速和低速率矩阵以为每个接收机级生成代码特定的信道矩阵。 高速率矩阵包括加扰和扩展码信息,低速率矩阵包括关于网络信道响应和组合权重的信息。 低速率矩阵通过网络通道响应的频域中的线性卷积和组合权重(零填充以避免循环卷积)有效地计算,然后将卷积变换到时域并提取矩阵元素。 在组合权重跨越阶段恒定的情况下,可以在多个AMLD接收机阶段中计算和使用公共的特定码通道矩阵。
    • 9. 发明申请
    • METHOD AND APPARATUS FOR GENERATING SOFT BIT VALUES
    • 用于生成软位值的方法和装置
    • US20110075769A1
    • 2011-03-31
    • US12572703
    • 2009-10-02
    • Gregory E. Bottomley
    • Gregory E. Bottomley
    • H03D1/00
    • H04L25/03318H04L25/03184H04L25/0321H04L25/03229H04L25/03331H04L25/067H04L2025/03401H04L2025/03414H04L2025/03426
    • Teachings presented herein offer reduced and stable computational complexity for symbol block detection using multi-stage assistance, and also provide for the generation of soft bit values. A demodulator generates these soft bit values by forming from a set of candidate symbol combinations, for each group of symbols in a symbol block, a subset of candidate symbol combinations for that group. The demodulator selects from the set the most likely combination, at least one combination that has a complementary bit value for a respective bit value in the most likely combination, and as many of the next most likely combinations not already selected as are needed for the size of the subset to conform to a pre-determined size. The demodulator generates soft bit values by limiting the candidate combinations of symbols considered for a symbol block according to the subsets formed for the groups of symbols in that symbol block.
    • 本文提出的教学为使用多级协助的符号块检测提供了降低和稳定的计算复杂度,并且还提供了生成软比特值。 解调器通过从符号块中的每个符号组的一组候选符号组合形成该组的候选符号组合的子集来生成这些软比特值。 解调器从集合中选择最可能的组合,对于最可能的组合中的相应位值具有互补位值的至少一个组合,以及未被选择的许多下一个最可能的组合对于尺寸是必需的 的子集以符合预定的大小。 解调器通过根据为该符号块中的符号组形成的子集限制符号块所考虑的符号的候选组合来产生软比特值。
    • 10. 发明授权
    • Method and apparatus for resource reuse in a communication system
    • 通信系统中资源重用的方法和装置
    • US07899015B2
    • 2011-03-01
    • US11681302
    • 2007-03-02
    • Gregory E. BottomleyJung-fu ChengHavish KoorapatyRajaram Ramesh
    • Gregory E. BottomleyJung-fu ChengHavish KoorapatyRajaram Ramesh
    • H04B7/216
    • H04W72/0406H04B2201/709727H04W4/18H04W48/08H04W72/082
    • Method and apparatuses taught herein enable link adaptation feedback to be determined in advance for future transmit intervals, based on one or more data sending units sending indications of future transmit resource allocations, and receiving corresponding link adaptation feedback from data receiving units. Knowledge of the future transmit resource allocations enable individual data sending units to predict interference conditions for the future transmit interval, and thereby compute link adaptation feedback that takes advantage of low-interference conditions. Individual data sending units receive link adaptation feedback for the future transmit interval from the data receiving units they are supporting, and make corresponding link adaptations for the future transmit interval. Such operations are, in one or more embodiments, carried out in a Wideband Code Division Multiple Access (WCDMA), Long Term Evolution LTE), or WiMAX network, wherein the data sending units comprise radio base stations, and the data receiving units comprise wireless communication devices.
    • 基于一个或多个数据发送单元发送未来发送资源分配的指示,以及从数据接收单元接收相应的链路适配反馈,本文教导的方法和装置使能够针对未来的发射间隔预先确定链路自适应反馈。 对未来发送资源分配的了解使各个数据发送单元能够预测未来发射间隔的干扰条件,从而计算利用低干扰条件的链路自适应反馈。 单个数据发送单元从其所支持的数据接收单元接收将来发送间隔的链路自适应反馈,并对未来发送间隔进行相应的链路适配。 在一个或多个实施例中,这样的操作在宽带码分多址(WCDMA),长期演进LTE)或WiMAX网络中进行,其中数据发送单元包括无线电基站,并且数据接收单元包括无线 通讯设备。