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    • 1. 发明授权
    • Non-coherent space-time trellis-coded modulations for network-coded wireless relay communications
    • 用于网络编码的无线中继通信的非相干空时网格编码调制
    • US08553792B2
    • 2013-10-08
    • US13007523
    • 2011-01-14
    • Toshiaki Koike-AkinoPhilip V. Orlik
    • Toshiaki Koike-AkinoPhilip V. Orlik
    • H04L23/02
    • H04L1/0034H04L1/0038H04L1/006H04L1/0077H04L1/0625H04L2001/0097
    • This invention provides a method for jointly optimizing network coding, channel coding, and signal constellations in non-coherent wireless multiple-input multiple-output (MIMO) wireless relay networks for the case when transceivers cannot obtain any knowledge of channel state information (CSI) due to high-speed mobility of the transceivers. In the relay networks, two terminal transceivers simultaneously transmit data to an intermediate relaying transceiver, which in turn broadcasts mixed data using physical-layer network coding to both terminals. The embodiments of this invention exploit different blind space-time trellis-coded modulations (ST-TCM) for each user, whose codebook is jointly generated over a Grassmannian manifold. The method is provided by exponential mapping with affine-lattice convolution for joint optimization of channel coding, modulations, and network coding. The method is designed for fast fading channels with and without interleaving. The method significantly improves performance in non-coherent bidirectional relaying MIMO networks.
    • 本发明提供了一种用于在收发机不能获得信道状态信息(CSI)的任何知识的情况下联合优化非相干无线多输入多输出(MIMO)无线中继网络中的网络编码,信道编码和信号星座的方法, 由于收发器的高速移动性。 在中继网络中,两个终端收发器同时向中间中继收发器发送数据,中继中继收发机又将物理层网络编码的混合数据广播到两个终端。 本发明的实施例针对每个用户利用不同的盲时空网格编码调制(ST-TCM),其码本通过Grassmannian流形共同生成。 该方法通过用仿射网格卷积的指数映射提供,用于信道编码,调制和网络编码的联合优化。 该方法设计用于具有和不具有交织的快速衰落信道。 该方法显着提高了非相干双向中继MIMO网络中的性能。
    • 4. 发明授权
    • Adaptive cross-polarization modulation cancellers for coherent optical communication systems
    • 用于相干光通信系统的自适应交叉极化调制消除器
    • US08472809B2
    • 2013-06-25
    • US13085715
    • 2011-04-13
    • Toshiaki Koike-AkinoCheng LiuKieran Parsons
    • Toshiaki Koike-AkinoCheng LiuKieran Parsons
    • H04B10/00
    • H04L25/03292H04B10/6162H04B10/6163H04L25/024
    • For coherent fiber optic communications, the nonlinear XPolM impairment is the most important issue to realize over-100 Gbps high-speed transmissions. A method provides a way to cancel time-varying XPolM crosstalk by introducing multi-stage adaptive mechanism. In the method, a low-complexity adaptive filtering based on recursive least-squares (RLS) first tracks the time-varying crosstalk along with the per-survivor trellis-state decoding. The estimated channel and the decoded data are then used to calculate the empirical covariance, which is in turn exploited to obtain more accurate channel estimates by means of optimal-weighted least-squares. This is performed with a low-complexity processing over frequency domain with fast Fourier transform. The performance is significantly improved with turbo principle decoding, more specifically, iterative decoding and iterative estimation over a block.
    • 对于相干光纤通信,非线性XPolM损伤是实现超过100 Gbps高速传输的最重要问题。 一种方法提供了一种通过引入多级自适应机制来消除时变XPolM串扰的方法。 在该方法中,基于递归最小二乘法(RLS)的低复杂度自适应滤波首先跟踪随时间变化的串扰以及每个幸存者网格状态解码。 然后将估计的信道和解码的数据用于计算经验协方差,其经过利用最佳加权最小二乘法获得更准确的信道估计。 这是通过具有快速傅立叶变换的频域上的低复杂度处理来执行的。 通过turbo原理解码,更具体地说,在块上迭代解码和迭代估计,性能得到显着提高。
    • 7. 发明申请
    • Non-Coherent Space-Time Trellis-Coded Modulations for Network-Coded Wireless Relay Communications
    • 用于网络编码无线中继通信的非相干空时网格编码调制
    • US20120183020A1
    • 2012-07-19
    • US13007523
    • 2011-01-14
    • Toshiaki Koike-AkinoPhilip V. Orlik
    • Toshiaki Koike-AkinoPhilip V. Orlik
    • H04W40/00
    • H04L1/0034H04L1/0038H04L1/006H04L1/0077H04L1/0625H04L2001/0097
    • This invention provides a method for jointly optimizing network coding, channel coding, and signal constellations in non-coherent wireless multiple-input multiple-output (MIMO) wireless relay networks for the case when transceivers cannot obtain any knowledge of channel state information (CSI) due to high-speed mobility of the transceivers. In the relay networks, two terminal transceivers simultaneously transmit data to an intermediate relaying transceiver, which in turn broadcasts mixed data using physical-layer network coding to both terminals. The embodiments of this invention exploit different blind space-time trellis-coded modulations (ST-TCM) for each user, whose codebook is jointly generated over a Grassmannian manifold. The method is provided by exponential mapping with affine-lattice convolution for joint optimization of channel coding, modulations, and network coding. The method is designed for fast fading channels with and without interleaving. The method significantly improves performance in non-coherent bidirectional relaying MIMO networks.
    • 本发明提供了一种用于在收发机不能获得信道状态信息(CSI)的任何知识的情况下联合优化非相干无线多输入多输出(MIMO)无线中继网络中的网络编码,信道编码和信号星座的方法, 由于收发器的高速移动性。 在中继网络中,两个终端收发器同时向中间中继收发器发送数据,中继中继收发机又将物理层网络编码的混合数据广播到两个终端。 本发明的实施例针对每个用户利用不同的盲时空网格编码调制(ST-TCM),其码本通过Grassmannian流形共同生成。 该方法通过用仿射网格卷积的指数映射提供,用于信道编码,调制和网络编码的联合优化。 该方法设计用于具有和不具有交织的快速衰落信道。 该方法显着提高了非相干双向中继MIMO网络中的性能。