Capacity Region of the Gaussian Arbitrarily-Varying Broadcast Channel

2020 IEEE International Symposium on Information Theory (ISIT) Pub Date : 2020-06-01 DOI:10.1109/ISIT44484.2020.9174108

Fatemeh Hosseinigoki, O. Kosut

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引用次数: 1

Abstract

This paper considers the two-user Gaussian arbitrarily-varying broadcast channel, wherein a power-limited transmitter wishes to send a message to each of two receivers. Each receiver sees a superposition of the transmitter's sequence, Gaussian noise, and a signal from a power-limited malicious jammer. The jammer is assumed to know the code, but is oblivious to real-time transmissions. The exact capacity region of this setting is determined to be the capacity region of the standard Gaussian broadcast channel, but with the noise variance increased by the power of the jammer, as long as the received power of the jammer at each receiver is less than that of the legitimate transmitter. A key aspect of the achievable scheme involves sharing randomness from the transmitter to the receivers by breaking the transmitted sequence into segments, and either transmitting at full power in a segment, or sending zero. By coding over the on/off signal, a small shared randomness can be established without corruption by the jammer, and without interfering with the standard superposition coding strategy for the Gaussian broadcast channel.

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高斯任意变广播信道的容量区域

本文考虑了两用户高斯任意变化广播信道，其中功率有限的发射机希望向两个接收机中的每一个发送消息。每个接收器都看到发射器序列、高斯噪声和来自功率有限的恶意干扰机的信号的叠加。干扰机被认为知道密码，但对实时传输一无所知。该设置的准确容量区域确定为标准高斯广播信道的容量区域，但噪声方差随干扰机功率的增加而增加，只要每个接收机的干扰机接收功率小于合法发射机的接收功率即可。可实现方案的一个关键方面是通过将传输序列分成段，或者在一段中以全功率发送，或者零发送，从发送端到接收端共享随机性。通过对开/关信号进行编码，可以在不受干扰器破坏的情况下建立一个小的共享随机性，并且不会干扰高斯广播信道的标准叠加编码策略。

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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2020 IEEE International Symposium on Information Theory (ISIT)

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