Two-way relaying with distributed role selection

2014 IEEE/CIC International Conference on Communications in China (ICCC) Pub Date : 2014-10-01 DOI:10.1109/ICCCHINA.2014.7008361

Haiyang Ding, D. B. D. Costa, Wu-Lin Liu, J. Ge, F. Gong

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Abstract

It is well known that for classical analog network coding (ANC) protocol, the maximum achievable diversity gain is one according to previous investigations. Nonetheless, the pursuit of higher diversity gain, as an eternal topic in the field of cooperative diversity, calls for cooperative strategies with a higher diversity order. In this paper, we attempt to break this durance by designing cooperative strategies with an improved diversity gain. Specifically, assuming a two-way relaying scenario, we incorporate an opportunistic role decision mechanism into ANC protocol and propose a distributed role selection (ROSE) strategy (a.k.a. d-ROSE) to designate the cooperative role of each node in a fully dynamic manner. It is proved that the proposed d-ROSE strategy can make exactly the same role decision with the counterpart of the optimal ROSE strategy, achieving therefore the outage-optimal transmission robustness. In particular, both theoretical analysis and numerical results demonstrate that besides maintaining a low signaling overhead to make role decision, the d-ROSE strategy can achieve a diversity order of two, i.e., one order higher than that of classical ANC protocol.

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具有分布式角色选择的双向中继

众所周知，对于经典的模拟网络编码(ANC)协议，根据以往的研究，最大可实现的分集增益为1。然而，追求更高的多样性收益作为合作多样性领域的永恒主题，需要更高多样性秩序的合作策略。在本文中，我们试图通过设计具有提高多样性增益的合作策略来打破这种持久性。具体而言，在双向中继场景下，我们将机会主义角色决策机制引入到ANC协议中，提出了一种分布式角色选择(ROSE)策略，以完全动态的方式指定各节点的合作角色。证明了所提出的d-ROSE策略能够与最优ROSE策略完全相同的角色决策，从而实现了中断最优传输的鲁棒性。具体而言，理论分析和数值结果都表明，d-ROSE策略除了保持较低的信令开销来进行角色决策外，还可以实现2阶的多样性，即比经典的ANC协议高一个阶。

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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2014 IEEE/CIC International Conference on Communications in China (ICCC)

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