无线衰落信道中新的序列最大比组合的空间分集

2011 IEEE 12th International Workshop on Signal Processing Advances in Wireless Communications Pub Date : 2011-06-26 DOI:10.1109/SPAWC.2011.5990404

Y. Chau, K. Y. Huang

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引用次数: 3

摘要

提出并分析了一种新的序列最大比值组合空间多样性。在S-MRC系统中，增加分集支路，按顺序逐个组合，并使用截断顺序概率比检验(TSPRT)进行信号检测。通过依次增加单个分支进行合并，可以节省直接使用所有可用分支的功耗。S-MRC比传统的MRC或输出阈值MRC (OT-MRC)更省电。独立同分布(i.i.d)下BPSK信令误码率(BER)的数值计算结果给出了瑞利衰落信道，说明S-MRC的性能比OT-MRC好得多，如果使用合适的测试阈值，则与传统MRC的性能相同。此外，与传统的MRC相比，活跃分支机构的平均数量要少得多。

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Spatial diversity with a new sequential maximal ratio combining over wireless fading channels

A new spatial diversity with sequential maximal ratio combining (S-MRC) is proposed and analyzed. In the S-MRC system, the diversity branches are added for combining one-by-one in a sequential manner, and a truncated sequential probability ratio test (TSPRT) is used for signal detection. By sequentially adding individual branches for combining, the power consumption from directly using all available branches can be saved. The S-MRC is more power-saving than the traditional MRC or the output-threshold MRC (OT-MRC). Numerical results for the bit error rate (BER) of the BPSK signaling over the independently and identically distributed (i.i.d.) Rayleigh fading channels are presented to illustrate the performance of the S-MRC which is much better than the OT-MRC and is identical to that of the traditional MRC if a suitable test threshold is used. Furthermore, the average number of active branches is much smaller than that of the traditional MRC.

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2011 IEEE 12th International Workshop on Signal Processing Advances in Wireless Communications

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