Performance analysis of a 2-stage groupwise successive interference cancellation scheme with groupwise power disparities in DS/CDMA systems

IEEE 54th Vehicular Technology Conference. VTC Fall 2001. Proceedings (Cat. No.01CH37211) Pub Date : 2001-10-07 DOI:10.1109/VTC.2001.956499

Chiho Lee, Gwangzeen Ko, Kiseon Kim

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引用次数: 1

Abstract

We propose a 2-stage GSIC scheme considering a strict delay constraint and analyze its BER performance in single and multi-cell DS/CDMA systems. Groupwise power disparity is applied in order to enhance the BER performance. We compare the BER performance, complexity and delay of the proposed 2-stage GSIC scheme with those of both conventional detection scheme and SIC scheme. Analysis results show that the capacity increase obtained by both 2-stage GSIC scheme and SIC scheme is smaller in a multicell model than in a single cell model. BER performance enhancement by the proposed 2-stage GSIC scheme is appropriate regarding the minimal increase in cancellation delay and computational complexity. For example, in a multicell DS/CDMA system, the proposed 2-stage GSIC scheme can enhance the user capacity about 21% at BER=10/sup -2/ with twice the cancellation delay and complexity compared with the conventional detection scheme, while the pure SIC scheme can enhance the user capacity 33% with K and K/sup 2/ times increase in delay and complexity, respectively, where K is the number of concurrent users.

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DS/CDMA系统中具有群功率差的2级群逐次干扰抵消方案的性能分析

提出了一种考虑严格延迟约束的两阶段GSIC方案，并分析了其在单小区和多小区DS/CDMA系统中的误码率性能。为了提高误码率性能，采用了分组功率差。我们将所提出的两阶段GSIC方案与传统检测方案和SIC方案的误码率性能、复杂度和延迟进行了比较。分析结果表明，两阶段GSIC方案和SIC方案在多池模型下获得的容量增量均小于单池模型。提出的两阶段GSIC方案在最小的取消延迟和计算复杂度增加方面对误码率性能的提高是适当的。例如，在多小区DS/CDMA系统中，本文提出的两阶段GSIC方案在BER=10/sup -2/时可将用户容量提高约21%，且取消延迟和复杂度是传统检测方案的两倍，而纯SIC方案在延迟和复杂度分别提高K和K/sup 2/倍时可将用户容量提高33%，其中K为并发用户数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE 54th Vehicular Technology Conference. VTC Fall 2001. Proceedings (Cat. No.01CH37211)

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