Can cooperation reduce the average transmitted power per participating user?

2013 IEEE Global Communications Conference (GLOBECOM) Pub Date : 2013-12-01 DOI:10.1109/GLOCOM.2013.6831679

D. Michalopoulos, R. Schober

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引用次数: 2

Abstract

The answer is (in general) affirmative: For a given target bit error rate (BER), cooperation reduces the average transmitted power per user when partners are appropriately selected. The more cooperating users are available and the larger the propagation exponent, the larger the reduction on transmitted power per user. This conclusion is drawn from a preliminary study which considers a community of users located randomly along a straight line. The users communicate with a Base Station (BS) located at the end of this line, and the transmission is subject to path loss. The communication is established either directly (Direct Mode), or via another member of the community (Relaying Mode). We show that the total power needed to achieve a certain BER at the BS is on average lower for the Relaying Mode than for the Direct Mode, even without exploiting any receive diversity benefit. There exist cases, however, where the Relaying Mode is not beneficial. This is true for environments with a propagation exponent smaller than two (δ <; 2). For δ = 2, the Relaying Mode performs identical to the Direct Mode.

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合作能降低每个参与用户的平均传输功率吗?

答案(通常)是肯定的:对于给定的目标误码率(BER)，当合作伙伴选择适当时，合作会降低每个用户的平均传输功率。可用的合作用户越多，传播指数越大，每个用户的传输功率降低越大。这一结论来自于一项初步研究，该研究考虑了沿直线随机分布的用户社区。用户与位于该线路末端的基站(BS)通信，传输受到路径损耗的影响。通信可以直接建立(直接模式)，也可以通过社区的另一个成员建立(中继模式)。我们表明，即使没有利用任何接收分集的好处，中继模式在BS上达到一定的误码率所需的总功率平均低于直接模式。然而，在某些情况下，中继模式并不是有益的。对于传播指数小于2 (δ <;2).当δ = 2时，继电模式执行与直接模式相同。

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 Global Communications Conference (GLOBECOM)

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