Superposition coding for wireless Butterfly Network with partial Network Side-Information

2013 IEEE Wireless Communications and Networking Conference Workshops (WCNCW) Pub Date : 2013-04-07 DOI:10.1109/WCNCW.2013.6533331

T. Uricar, J. Sýkora, Bin Qian, W. Mow

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引用次数: 7

Abstract

Although the 2-source wireless Butterfly Network (BN) represents a natural extension of the well-known 2-Way Relay Channel (2-WRC) scenario, a direct implementation of conventional Wireless Network Coding (WNC)/Physical Layer Network Coding (PLNC) principles in this network is not straightforward. While the information necessary for decoding of the desired data from WNC-coded data at each destination is naturally available in 2-WRC, in the BN the destinations can obtain such information only by overhearing the wireless transmission from the unintended source. Since the amount of such received “Network” Side-Information (N-SI) would be limited by the quality of the corresponding source-destination link, the assumption of perfect side-information is no longer valid in BN, rising many novel research challenges for the design of WNC-based BN. In this paper we propose the Superposition Coding (SC) based scheme as a feasible strategy for relaying in BN. We will show that by a proper optimization of its parameters (rates & power allocation of underlying SC messages), SC is able to achieve the upper bound of two-way rate in BN for both the zero and perfect N-SI case and moreover, it represents a viable solution even for the case where only partial N-SI is available at both destinations.

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具有部分网络侧信息的无线蝴蝶网络的叠加编码

尽管双源无线蝴蝶网络(BN)代表了众所周知的双向中继信道(2-WRC)场景的自然扩展，但在该网络中直接实现传统的无线网络编码(WNC)/物理层网络编码(PLNC)原则并不是直截了当的。虽然在2-WRC中，每个目的地从wnc编码数据中解码所需数据所需的信息自然是可用的，但在BN中，目的地只能通过侦听来自意外源的无线传输来获得这些信息。由于这种接收到的“网络”侧信息(N-SI)的数量会受到相应的源-目的链路质量的限制，因此BN中完美侧信息的假设不再有效，这为基于wnc的BN设计提出了许多新的研究挑战。本文提出了基于叠加编码(SC)的方案作为一种可行的网络中继策略。我们将证明，通过适当优化其参数(底层SC消息的速率和功率分配)，SC能够在零和完全N-SI情况下实现BN中双向速率的上界，而且，即使在两个目的地只有部分N-SI可用的情况下，它也代表了一个可行的解决方案。

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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2013 IEEE Wireless Communications and Networking Conference Workshops (WCNCW)

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