BER analysis of MPSK space-time code with differential detection over correlated block-fading Rayleigh channel 被引量：1

BER analysis of MPSK space-time code with differential detection over correlated block-fading Rayleigh channel

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摘要 MIMO technology proposed in recent years can effectively combat the multipath fading of wireless channel and can considerably enlarge the channel capacity, which has been investigated widely by researchers. However, its performance analysis over correlated block-fading Rayleigh channel is still an open and challenging objective. In this article, an analytic expression of bit error rate （BER） is presented for multiple phase shift keying （MPSK） space-time code, with differential detection over correlated block-fading Rayleigh channel. Through theoretical analysis of BER, it can be found that the differential space-time scheme without the need for channel state information （CSI） at receiver achieves distinct performance gain compared with the traditional nonspace-time system. And then, the system simulation is complimented to verify the above result, showing that the diversity system based on the differential space-time block coding （DSTBC） outperforms the traditional nonspacetime system with diversity gain in terms of BER. Furthermore, the numerical results also demonstrate that the error floor of the differential space-time system is much lower than that of the differential nonspace-time system. MIMO technology proposed in recent years can effectively combat the multipath fading of wireless channel and can considerably enlarge the channel capacity, which has been investigated widely by researchers. However, its performance analysis over correlated block-fading Rayleigh channel is still an open and challenging objective. In this article, an analytic expression of bit error rate （BER） is presented for multiple phase shift keying （MPSK） space-time code, with differential detection over correlated block-fading Rayleigh channel. Through theoretical analysis of BER, it can be found that the differential space-time scheme without the need for channel state information （CSI） at receiver achieves distinct performance gain compared with the traditional nonspace-time system. And then, the system simulation is complimented to verify the above result, showing that the diversity system based on the differential space-time block coding （DSTBC） outperforms the traditional nonspacetime system with diversity gain in terms of BER. Furthermore, the numerical results also demonstrate that the error floor of the differential space-time system is much lower than that of the differential nonspace-time system.

作者 ZOU Yu-long ZHENG Bao-yu

机构地区 Institute of Signal Processing and Transmission

出处《The Journal of China Universities of Posts and Telecommunications》 EI CSCD 2008年第2期18-25,共8页 中国邮电高校学报（英文版）

关键词 differential space-time block code correlated blockfading Rayleigh channel CSI error floor differential space-time block code, correlated blockfading Rayleigh channel, CSI, error floor

分类号 TN929.5 [电子电信—通信与信息系统]

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The Journal of China Universities of Posts and Telecommunications

2008年第2期

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