This paper establishes the capacity of additive white Gaussian noise (AWGN) channels with phase-quantized output. We show that a rotated $2^b$-phase shift keying scheme is the capacity-achieving input distribution for a complex AWGN channel with $b$-bit phase quantization. The result is then used to establish the expression for the channel capacity as a function of average power constraint $P$ and quantization bits $b$. The outage performance of phase-quantized system is also investigated for the case of Rayleigh fading. Our findings suggest the existence of a threshold in the rate $R$, above which the decay exponent of the outage probability changes abruptly. In fact, this threshold effect in the decay exponent causes $2^b$-PSK to have suboptimal outage performance at high SNR.
翻译:本文用分量产出确定白高斯噪声(AWGN)添加渠道的容量。我们发现,一个旋转的2 ⁇ B$分档转换键式键盘计划是具有美元-位数分数的复合AWGN频道的容量实现输入分布。结果被用来确定频道容量的表达方式,这是平均功率限制的函数($P$)和四分位数的函数($b$)。对于Rayleile 的退出情况,也调查了分量系统的退出性能。我们的调查结果显示,在R$中存在一个阈值,超过这个阈值的衰减率会突变。事实上,衰变指数中的这一阈值效应导致2 ⁇ B$-PSK在高级SNR具有亚称性差效。