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引用次数: 0
摘要
提出了一种新的瑞利衰落多址信道传输策略——时空主动旋转(STAR)。STAR是对传统空分多址(SDMA)策略的简单改进,它使连续取消(SC)解码器能够接近底层多址信道的中断概率。我们推导了具有SC解码的STAR系统的中断概率,并提出了一个最小化该中断概率的排序算法。我们给出了系统分集-复用折衷的上界。我们给出了一个4用户瑞利衰落多址信道,每个用户2个发射天线和8个接收天线的数值结果,表明采用SC解码的STAR策略仅比最佳中断概率低1.6 dB。当限于SC解码时,STAR比传统SDMA高出8.2 dB
An Improved Space-Division Multiple-Access Strategy for Rayleigh-Fading Channels
We propose a new transmission strategy for the Rayleigh-fading multiple-access channel called space-time active rotation (STAR). STAR is a simple enhancement of the traditional space-division multiple-access (SDMA) strategy that enables a successive-cancellation (SC) decoder to approach the outage probability of the underlying multiple-access channel. We derive the outage probability of a STAR system with SC decoding and propose an ordering algorithm that minimizes this outage probability. We derive an upper bound on the diversity-multiplexing tradeoff of the system. We present numerical results for a 4-user Rayleigh-fading multiple-access channel, with 2 transmit antennas per user and 8 receive antennas, which show that the STAR strategy with SC decoding falls only 1.6 dB short of the optimum outage probability. When restricted to SC decoding, STAR outperforms conventional SDMA by 8.2 dB
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