高斯并行中继网络的转发策略

I. Marić, R. Yates
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引用次数: 106

摘要

对于允许正交传输的并行中继网络中的可靠转发和不可靠转发,我们在所有节点的总功率约束下最大化可达到的速率。在这种网络中,每信息比特的能量成本[S]。Verdu, 1990]期间的可靠转发在宽带状态下是最小的。对于宽带解码转发(DF)策略,我们证明了最佳并行中继解决方案是通过处于“最佳”位置的一个中继发送数据。另一方面,正如[B.E.。Schein, 2001],不可靠的放大-前向(AF)策略的好处在宽带制度下减少。我们描述了自动对焦的最佳带宽,并表明在最佳带宽下传输允许网络在线性范围内运行,其中实现的速率随发射功率线性增加。我们确定了AF中继节点的最佳子集,并描述了中继之间每个维度的最佳功率分配。
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Forwarding strategies for Gaussian parallel-relay networks
For reliable and unreliable forwarding in a parallel-relay network that allows orthogonal transmissions, we maximize the achievable rate under the total power constraint over all nodes. In such a network, the energy cost per information bit [S. Verdu, 1990] during the reliable forwarding is minimized in the wideband regime. For the wideband decode-and-forward (DF) strategy, we show that the optimum parallel-relay solution is to send the data through one relay that is in the "best" position. On the other hand, as observed in [B.E. Schein, 2001], the benefit of unreliable amplify-and-forward (AF) strategy diminishes in the wideband regime. We characterize the optimum bandwidth for AF and show that transmitting in the optimum bandwidth allows the network to operate in the linear regime where the achieved rate increases linearly with transmit power. We identify the best subset of AF relay nodes and characterize the optimum power allocation per dimension among relays.
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