Delay in cooperative communications: Higher multiplexing gain in Gaussian interference channels with full-duplex transmitters

A. Haghi, Neda Mohammadizadeh, A. Khandani
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引用次数: 2

Abstract

Delay, guaranteeing causality, is inevitable in cooperative communication systems. Traditionally, delay granularity has been limited to one symbol; however, channel delay is in fact governed by channel memory and can be shorter. For example, the delay requirement in orthogonal frequency-division multiplexing (OFDM), captured in the cyclic prefix, is typically much shorter than the OFDM symbol itself. This perspective is used to study the two-user Gaussian interference channel with full-duplex transmitters. By superimposing the signal from the other node on its own signal, each transmitter cancels the interference at its receiver. Among other results, it is shown that under a mild condition, the maximum multiplexing gain of this channel is in fact two, rather than the limit of one, previously proved under the traditional constraint of causal delay [1]. Further, the optimal power allocation among orthogonal sub-carriers, which maximizes the achievable sum-rate, is shown to be a generalization of the well-known water filling.
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协作通信中的延迟:全双工发射机高斯干扰信道中更高的多路复用增益
在协作通信系统中,延迟是不可避免的,它保证了因果关系。传统上,延迟粒度仅限于一个符号;然而,信道延迟实际上是由信道内存控制的,可以更短。例如,在正交频分复用(OFDM)中,在循环前缀中捕获的延迟要求通常比OFDM符号本身短得多。用这一视角研究了全双工发射机的双用户高斯干扰信道。通过将来自另一个节点的信号叠加到自己的信号上,每个发射机都抵消了来自其接收器的干扰。结果表明,在温和条件下,该信道的最大复用增益实际上是2,而不是之前在传统因果延迟约束下证明的1的极限[1]。此外,正交子载波之间的最优功率分配,使可实现的和速率最大化,被证明是众所周知的水填充的推广。
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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