Accessible capacity of secondary users over the Gaussian interference channel

2011 IEEE International Symposium on Information Theory Proceedings Pub Date : 2011-10-03 DOI:10.1109/ISIT.2011.6034248

Xiujie Huang, Xiao Ma, Lei Lin, B. Bai

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引用次数: 3

Abstract

A new problem formulation is presented for the Gaussian interference channels (GIFC) with two pairs of users, which are distinguished as primary users and secondary users, respectively. The primary users employ a pair of encoder and decoder that were originally designed to satisfy a given error performance requirement (EPR) under the assumption that no interference exists. In the case when the secondary users attempt to access the same medium, we are interested in the maximum transmission rate (defined as accessible capacity) at which secondary users can communicate reliably without affecting the EPR under the constraint that the primary encoder (not the decoder) is kept unchanged. The relation of the accessible capacity to the capacity region of the GIFC is revealed. By modeling the primary encoder as a generalized trellis code (GTC), we are able to treat the secondary links as finite state channels. Then upper and lower bounds on the accessible capacity are derived and computed by using the BCJR algorithm. The numerical results show us either expected or interesting facts.

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高斯干扰信道上辅助用户的可访问容量

提出了一种新的高斯干涉信道(gfc)的问题公式，其中有两对用户，分别被区分为主用户和次用户。主要用户使用一对编码器和解码器，这对编码器和解码器最初设计是为了满足给定的错误性能要求(EPR)，假设不存在干扰。在次要用户尝试访问同一介质的情况下，我们感兴趣的是最大传输速率(定义为可访问容量)，在主编码器(而不是解码器)保持不变的约束下，次要用户可以在不影响EPR的情况下可靠地通信。揭示了gfc的可达容量与容量区域的关系。通过将主编码器建模为广义网格码(GTC)，我们能够将次要链路视为有限状态通道。然后利用BCJR算法推导并计算了可访问容量的上下界。数值结果向我们展示了预期的或有趣的事实。

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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2011 IEEE International Symposium on Information Theory Proceedings

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