A decoding method complemented by Maximum Likelihood (ML) detection for V-BLAST (Verti- cal Bell Labs Layered Space-Time) system is presented. The ranked layers are divided into several groups. ML decoding is performe...A decoding method complemented by Maximum Likelihood (ML) detection for V-BLAST (Verti- cal Bell Labs Layered Space-Time) system is presented. The ranked layers are divided into several groups. ML decoding is performed jointly for the layers within the same group while the Decision Feedback Equalization (DFE) is performed for groups. Based on the assumption of QPSK modulation and the quasi-static flat fading channel, simulations are made to testify the performance of the proposed algorithm. The results show that the algorithm outperforms the original V-BLAST detection dramatically in Symbol Error Probability (SEP) per- formance. Specifically, Signal-to-Noise Ratio (SNR) improvement of 3.4dB is obtained for SEP of 10?2 (4×4 case), with a reasonable complexity maintained.展开更多
为降低信道均衡算法的复杂度,提出了一种适于LDPC(Low—Density Parity—Check)编码MIMO(Multi—Input Multi,Output)信道的基于迭代式概率数据辅助(PDA:Probabilistie Data Association)的次优软输出判决反馈均衡算法。滑动窗...为降低信道均衡算法的复杂度,提出了一种适于LDPC(Low—Density Parity—Check)编码MIMO(Multi—Input Multi,Output)信道的基于迭代式概率数据辅助(PDA:Probabilistie Data Association)的次优软输出判决反馈均衡算法。滑动窗PDA检测器输出外信息作为软输入软输出LDPC信道解码器的先验信息,实现信道均衡与信道解码的联合信息更新,克服传统判决反馈均衡器误差传播的缺陷。仿真表明,泼均衡算法性能要比V—BLAST迫零检测算法提高1—2dB,当Eb/No为3dB时,误比特率达到10^-5且算法复杂度仪为O(N^3),可获得较为满意的码间干扰消除效果。展开更多
We propose an efficient low bit error rate(BER) and low complexity multiple-input multiple-output(MIMO) multiuser detection(MUD) method for use with multiuser MIMO orthogonal frequency division multiplexing(OFDM) syst...We propose an efficient low bit error rate(BER) and low complexity multiple-input multiple-output(MIMO) multiuser detection(MUD) method for use with multiuser MIMO orthogonal frequency division multiplexing(OFDM) systems.It is a hybrid method combining a multiuser-interference-cancellation-based decision feedback equalizer using error feedback filter(MIMO MIC DFE-EFF) and a differential algorithm.The proposed method,termed 'MIMO MIC DFE-EFF with a differential algorithm' for short,has a multiuser feedback structure.We describe the schemes of MIMO MIC DFE-EFF and MIMO MIC DFE-EFF with a differential algorithm,and compare their minimum mean square error(MMSE) performance and computational complexity.Simulation results show that a significant performance gain can be achieved by employing the MIMO MIC DFE-EFF detection algorithm in the context of a multiuser MIMO-OFDM system over frequency selective Rayleigh channel.MIMO MIC DFE-EFF with the differential algorithm improves both computational efficiency and BER performance in a multistage structure relative to conventional DFE-EFF,though there is a small reduction in system performance compared with MIMO MIC DFE-EFF without the differential algorithm.展开更多
We propose the configuration of signal multiplexing with four polarization states and investigate its transmission performance over single-mode fiber links.Using coherent detection and digital signal processing,a demo...We propose the configuration of signal multiplexing with four polarization states and investigate its transmission performance over single-mode fiber links.Using coherent detection and digital signal processing,a demodulation scheme for four-polarization-multiplexed(4PM)system is presented.We discuss the impact of crosstalk from polarization mode dispersion and polarization beam splitter misalignment on the proposed 4PM system.Furthermore,the transmission distance could be doubled to*50 km by employing feedback decision equalizers.展开更多
基金Supported by the National Natural Science Foundation of China (No.60172029).
文摘A decoding method complemented by Maximum Likelihood (ML) detection for V-BLAST (Verti- cal Bell Labs Layered Space-Time) system is presented. The ranked layers are divided into several groups. ML decoding is performed jointly for the layers within the same group while the Decision Feedback Equalization (DFE) is performed for groups. Based on the assumption of QPSK modulation and the quasi-static flat fading channel, simulations are made to testify the performance of the proposed algorithm. The results show that the algorithm outperforms the original V-BLAST detection dramatically in Symbol Error Probability (SEP) per- formance. Specifically, Signal-to-Noise Ratio (SNR) improvement of 3.4dB is obtained for SEP of 10?2 (4×4 case), with a reasonable complexity maintained.
文摘为降低信道均衡算法的复杂度,提出了一种适于LDPC(Low—Density Parity—Check)编码MIMO(Multi—Input Multi,Output)信道的基于迭代式概率数据辅助(PDA:Probabilistie Data Association)的次优软输出判决反馈均衡算法。滑动窗PDA检测器输出外信息作为软输入软输出LDPC信道解码器的先验信息,实现信道均衡与信道解码的联合信息更新,克服传统判决反馈均衡器误差传播的缺陷。仿真表明,泼均衡算法性能要比V—BLAST迫零检测算法提高1—2dB,当Eb/No为3dB时,误比特率达到10^-5且算法复杂度仪为O(N^3),可获得较为满意的码间干扰消除效果。
基金supported by the National Science and Technology Pillar Program (Nos 2008BAH30B12 and 2008BAH30B09)the Important National Science and Technology Specific Projects (Nos 2008ZX 03003-004, 2009ZX03003-008, 2009ZX03003-009, and 2009ZX 03002-009)+1 种基金the National Natural Science Foundation of China (No 60802009)the National High-Tech R & D Program (863) of China (Nos 2008AA01Z204 and 2009AA01Z205)
文摘We propose an efficient low bit error rate(BER) and low complexity multiple-input multiple-output(MIMO) multiuser detection(MUD) method for use with multiuser MIMO orthogonal frequency division multiplexing(OFDM) systems.It is a hybrid method combining a multiuser-interference-cancellation-based decision feedback equalizer using error feedback filter(MIMO MIC DFE-EFF) and a differential algorithm.The proposed method,termed 'MIMO MIC DFE-EFF with a differential algorithm' for short,has a multiuser feedback structure.We describe the schemes of MIMO MIC DFE-EFF and MIMO MIC DFE-EFF with a differential algorithm,and compare their minimum mean square error(MMSE) performance and computational complexity.Simulation results show that a significant performance gain can be achieved by employing the MIMO MIC DFE-EFF detection algorithm in the context of a multiuser MIMO-OFDM system over frequency selective Rayleigh channel.MIMO MIC DFE-EFF with the differential algorithm improves both computational efficiency and BER performance in a multistage structure relative to conventional DFE-EFF,though there is a small reduction in system performance compared with MIMO MIC DFE-EFF without the differential algorithm.
基金supported by the National Basic Research Program of China(‘‘973’’Program)(2012CB315704)the National Natural Science Foundation of China(61275068,61111140390)
文摘We propose the configuration of signal multiplexing with four polarization states and investigate its transmission performance over single-mode fiber links.Using coherent detection and digital signal processing,a demodulation scheme for four-polarization-multiplexed(4PM)system is presented.We discuss the impact of crosstalk from polarization mode dispersion and polarization beam splitter misalignment on the proposed 4PM system.Furthermore,the transmission distance could be doubled to*50 km by employing feedback decision equalizers.