A Novel Self-Exploration Scheme for Learning Optimal Policies against Dynamic Jamming Attacks in Cognitive Radio Networks

IF 1.2 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Cybernetics and Information Technologies Pub Date : 2023-11-01 DOI:10.2478/cait-2023-0040

Y. Sudha, V. Sarasvathi

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Abstract

Abstract Cognitive Radio Networks (CRNs) present a compelling possibility to enable secondary users to take advantage of unused frequency bands in constrained spectrum resources. However, the network is vulnerable to a wide range of jamming attacks, which adversely affect its performance. Several countermeasures proposed in the literature require prior knowledge of the communication network and jamming strategy that are computationally intensive. These solutions may not be suitable for many real-world critical applications of the Internet of Things (IoT). Therefore, a novel self-exploration approach based on deep reinforcement learning is proposed to learn an optimal policy against dynamic attacks in CRN-based IoT applications. This method reduces computational complexity, without prior knowledge of the communication network or jamming strategy. A simulation of the proposed scheme eliminates interference effectively, consumes less power, and has a better Signal-to-Noise Ratio (SNR) than other algorithms. A platform-agnostic and efficient anti-jamming solution is provided to improve CRN’s performance when jamming occurs.

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认知无线电网络中针对动态干扰攻击学习最优策略的新型自我探索方案

摘要认知无线电网络（CRN）为次级用户利用有限频谱资源中的闲置频段提供了令人信服的可能性。然而，这种网络容易受到各种干扰攻击，对其性能产生不利影响。文献中提出的一些对策需要事先了解通信网络和干扰策略，计算量很大。这些解决方案可能不适合物联网（IoT）在现实世界中的许多关键应用。因此，我们提出了一种基于深度强化学习的新型自我探索方法，用于在基于 CRN 的物联网应用中学习对抗动态攻击的最优策略。这种方法降低了计算复杂度，无需事先了解通信网络或干扰策略。对所提方案进行了仿真，与其他算法相比，该方案能有效消除干扰，功耗更低，信噪比（SNR）更好。该方案提供了一种与平台无关的高效抗干扰解决方案，可在发生干扰时提高 CRN 的性能。

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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