Combined Interference and Communications Strategy as a Defense Mechanism in Cognitive Radio Military Networks

MILCOM 2019 - 2019 IEEE Military Communications Conference (MILCOM) Pub Date : 2019-11-01 DOI:10.1109/MILCOM47813.2019.9020787

Marcelo Camilo, D. Moura, R. Salles

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引用次数: 1

Abstract

Tactical wireless networks have different requirements and characteristics. Among these requirements, we can highlight physical layer security. An efficient way to increase the secrecy in wireless systems is to degrade the decoding capability of the eavesdroppers by introducing controlled interference or artificial noise. However, in tactical networks, there are situations in which the radio can not interfere, e.g. under severe power supply restrictions or if the enemy can detect radio position if it interferes. Moreover, there are also typical situations in which the radio does not need to interfere and therefore can save energy, e.g. transmission of low cruciality messages or radio usage in enemy-free areas. In this paper, we propose a Combined Interference and Communication strategy as defense against message interception in Cognitive Radio Military Networks. This strategy is grounded on interfering only under specific Cognitive Radio Military Networks requirements and characteristics. Numerical experiments show that we achieve a great energy saving in respect to [3] and [4] in several scenarios, reducing the receiver detection factor.

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认知无线电军事网络中联合干扰与通信策略的防御机制

战术无线网络具有不同的要求和特点。在这些需求中，我们可以强调物理层的安全性。提高无线系统保密性的有效途径是通过引入可控干扰或人工噪声来降低窃听者的解码能力。然而，在战术网络中，存在无线电不能干扰的情况，例如，在严重的电源限制下，或者如果敌人可以探测到无线电位置，如果它干扰。此外，还有无线电不需要干扰的典型情况，因此可以节省能源，例如传输低关键信息或在无敌人地区使用无线电。在认知无线电军事网络中，提出了一种抗干扰与通信相结合的防御信息截获策略。该策略仅基于特定的认知无线电军事网络要求和特征下的干扰。数值实验表明，在几种情况下，我们相对于[3]和[4]实现了很大的节能，降低了接收机检测因子。

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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MILCOM 2019 - 2019 IEEE Military Communications Conference (MILCOM)

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