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    • 1. 发明授权
    • Despreading of direct sequence spread spectrum communications signals
    • 直接序列扩频通信信号的解扩
    • US6005887A
    • 1999-12-21
    • US748755
    • 1996-11-14
    • Gregory E. BottomleyRajaram RameshPaul W. DentSandeep Chennakeshu
    • Gregory E. BottomleyRajaram RameshPaul W. DentSandeep Chennakeshu
    • H04B7/26H04B1/707H04B1/709H04B15/00H04K1/00H04L27/30
    • H04B1/709H04B1/707
    • The disclosure presents a number of reduced complexity architectures for despreading direct sequence spread spectrum communications signals. In a first despreading architecture for a sequence removal unit, received chip-spaced complex samples are negated in accordance with the processed phase of a complex spreading sequence. Furthermore, the in-phase and quadrature phase sample values are switched for each other in accordance with the processed phase. In a second despreading architecture, in a sequence removal unit, received chip-spaced complex samples are processed in the logarithmic domain, with the phase of the complex spreading sequence added to the detected phase, and the resulting complex signal then converted back to Cartesian coordinates. In a third despreading architecture for a correlator, sequence removal and correlation are performed in the logarithmic domain with the amplitudes and phases for the resulting complex signal arithmetically averaged and then converted back to Cartesian coordinates. architecture also for a correlator, sequence removal and correlation are performed in the logarithmic domain using circular averaging. In a fifth despreading architecture also for a correlator, wherein multiple component sequences are combined together to form an overall sequence, and wherein one of the multiple component sequences is shared by all channels, a common sequence removal is provided for removal of the shared sequence from all channels. The resulting signals are then sent to a plurality of individual correlators for removal of channel specific sequences.
    • 本公开提出了用于解扩直接序列扩频通信信号的许多降低的复杂度架构。 在用于序列去除单元的第一解扩架构中,根据复扩展序列的处理相位,接收的码片间隔复数样本被否定。 此外,同相和正交相位采样值根据处理相位彼此切换。 在第二解扩架构中,在序列去除单元中,在对数域中处理接收的码片间隔复数样本,其中复扩展序列的相位被加到检测相位,并且所得到的复信号然后转换回笛卡尔坐标 。 在用于相关器的第三解扩架构中,在对数域中执行序列去除和相关,其中所得复数信号的幅度和相位被算术平均,然后转换回笛卡尔坐标。 用于相关器的架构,使用循环平均在对数域中执行序列去除和相关。 在用于相关器的第五解扩架构中,其中将多个分量序列组合在一起以形成整个序列,并且其中所述多个分量序列之一由所有信道共享,提供共同的序列去除以从 所有频道 然后将所得到的信号发送到多个单独的相关器,以去除信道特定序列。
    • 6. 发明授权
    • Reduced complexity MLSE equalizer for M-ary modulated signals
    • 降低复杂度MLSE均衡器用于M-ary调制信号
    • US07099410B1
    • 2006-08-29
    • US09237356
    • 1999-01-26
    • Sandeep ChennakeshuKambiz ZangiGregory E. Bottomley
    • Sandeep ChennakeshuKambiz ZangiGregory E. Bottomley
    • H04L27/06
    • H04L25/03197H04L25/03299
    • The present invention involves demodulation of radio signals modulated with M-ary modulation in the presence of intersymbol interference distortion. The invention presents a method for reducing the number of multiplications needed to implement a maximum-likelihood-sequence-estimation (MLSE) equalizer for signals modulated with M-ary modulation. In exemplary embodiments of the present invention, the number of multiplications is reduced by pre-computing certain values needed for the determination of the branch metric and storing these pre-computed values in a product table. When a branch metric computation is to be made, whether it is an Euclidean branch metric computation or an Ungerboeck branch metric computation, certain multiplication operations are replaced by simple table look-up operations. As a result, the power efficiency and speed of the system are increased. Any receiver that demodulates signals that are modulated with M-ary modulation can be implemented using the present invention. The resulting demodulator will have a lower complexity than existing demodulators.
    • 本发明涉及在存在符号间干扰失真的情况下解调用M进制调制的无线电信号。 本发明提出了一种用于减少对用M-ary调制调制的信号实现最大似然序列估计(MLSE)均衡器所需的乘法次数的方法。 在本发明的示例性实施例中,通过预先计算确定分支度量所需的某些值并将这些预先计算的值存储在产品表中来减少乘法次数。 当进行分支度量计算时,无论是欧几里德分支度量计算还是Ungerboeck分支度量计算,某些乘法运算都被简单的表查找操作所取代。 结果,系统的功率效率和速度增加。 可以使用本发明来实现解调通过M进制调制调制的信号的任何接收机。 所产生的解调器将具有比现有解调器更低的复杂度。
    • 10. 发明授权
    • Method and apparatus for performing beam searching in a radio communication system
    • 在无线电通信系统中执行波束搜索的方法和装置
    • US06694154B1
    • 2004-02-17
    • US08971341
    • 1997-11-17
    • Karl J. MolnarGregory E. BottomleySandeep Chennakeshu
    • Karl J. MolnarGregory E. BottomleySandeep Chennakeshu
    • H04B138
    • H04W16/28H04B7/18532
    • A radio communication system includes a base station having a directional antenna for generating a plurality of beams. A first set of the beams is used to receive signals which are decoded at the base station. A second set of the beams is used for interrogating a cell to identify beams which should be added to the first set of beams (for example, in response to mobile terminals entering the cell). In one embodiment, the second set of beams comprises a plurality of searcher beams produced by a fixed-beam phased array antenna. In a second embodiment, the second set of beams comprises a single searcher beam which is scanned through the cell by an adaptive phased array antenna. The radio communication system can be used to communicate with indoor mobile terminals through a plurality of radio heads, and also can be used to communicate with orbiting satellites.
    • 无线电通信系统包括具有用于产生多个波束的定向天线的基站。 第一组光束用于接收在基站处解码的信号。 第二组波束用于询问小区以识别应该被添加到第一组波束(例如,响应于进入小区的移动终端)的波束。 在一个实施例中,第二组波束包括由固定波束相控阵天线产生的多个搜索器波束。 在第二实施例中,第二组波束包括通过自适应相控阵列天线扫描小区的单个搜索器波束。 无线电通信系统可以用于通过多个无线电头与室内移动终端通信,并且还可以用于与轨道卫星通信。