Ergodic capacity of cooperative networks using adaptive transmission and selection combining

2009 3rd International Conference on Signal Processing and Communication Systems Pub Date : 2009-10-30 DOI:10.1109/ICSPCS.2009.5306364

B. Q. Vo-Nguyen, T. Duong, N. N. Tran

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引用次数: 8

Abstract

Closed-form expressions for ergodic capacity of repetition-based cooperative networks under adaptive transmission with selection combining are derived. According to the changing channel conditions, the source adapts its rate and/or power level while the relays simply amplify and then forward the received signals. Specifically, three different adaptive techniques are investigated under the assumption of independent Rayleigh fading channels: optimal simultaneous power and rate adaptation (OPRA), constant power with optimal rate adaptation (OPA) and channel inversion with fixed rate (TIFR). Among them, for an arbitrary number of relays, TIFR gives the worst channel capacity; OPRA gives the best channel capacity and ORA has a channel capacity quality in between the others. The analysis results, based on the upper and lower bound of the end-to-end signal-to-noise ratio (SNR), agree very well with the simulated results and definitely show the impact of selection combining on the calculated channel capacity per unit bandwidth.

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基于自适应传输和选择组合的合作网络遍历容量研究

推导了自适应传输条件下基于重复的协同网络遍历能力的封闭表达式。根据不断变化的信道条件，源调整其速率和/或功率水平，而继电器只是放大然后转发接收到的信号。具体而言，在独立瑞利衰落信道假设下，研究了三种不同的自适应技术:最优同时功率和速率自适应(OPRA)、恒功率最优速率自适应(OPA)和固定速率信道反转(TIFR)。其中，对于任意数量的继电器，TIFR给出的信道容量最差;OPRA提供了最好的信道容量，而ORA具有介于两者之间的信道容量质量。基于端到端信噪比上界和下界的分析结果与仿真结果吻合较好，明确显示了选择组合对单位带宽信道容量计算的影响。

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2009 3rd International Conference on Signal Processing and Communication Systems

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