The operational capacity of Gaussian MIMO channels with memory was obtained by Brandenburg and Wyner in [9] under certain mild assumptions on the channel impulse response and its noise covariance matrix, which essentuially require channel memory to be not too strong. This channel was also considered by Tsybakov in [10] and its information capacity was obtained in some cases. It was further conjectured, based on numerical evidence, that these capacities are the same in all cases. This conjecture is proved here. An explicit closed-form expression for the optimal input power spectral density matrix is also given. The obtained result is further extended to the case of joint constraints, including per-antenna and interference power constraints as well as energy harvesting constraints. These results imply the information-theoretic optimality of OFDM-type transmission systems for such channels with memory.
翻译:Brandenburg和Wyner于[9]年在对频道的脉冲反应及其噪音共变矩阵的某些轻度假设下获得了高斯山MIMO频道的内存操作能力[9],这些假设原则上要求频道内存不太强,Tsybakov在[10]年也考虑了该频道,在某些情况下还获得了该频道的信息能力;根据数字证据,进一步推测这些能力在所有情况下都是相同的;这一假设在这里得到证明;还给出了最佳输入能量光谱密度矩阵的明确的封闭式表达;所获得的结果进一步扩大到联合制约,包括人均电脉冲和干扰力限制以及能源采集限制;这些结果意味着这类频道的DM型传输系统在信息理论上具有记忆性的最佳性。
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