Simulation of Cognitive Electronic Warfare System With Sine and Square Waves

Pub Date : 2023-07-11 DOI:10.14429/dsj.73.18539
Krishna K Naik
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Abstract

Today’s Electronic Warfare (EW) receivers need advanced technology to achieve real-time surveillance operations. Dynamic and intelligent systems are required for UAVs and other airborne applications. The airborne Electronic Warfare systems must be knowledge-based systems, learning from the threat scenario with highly integrated capabilities to detect, react, and adapt to radar threats in real-time. Artificial intelligence is a machine-dependent process, by adapting certain rules and logic supported by human intelligence, AI can be used for cognitive processing. Cognitive signal processing is required for making the system autonomous and dynamic in nature. Military action on radar signatures requires a set of commands to be executed dynamically with the help of the proposed EW system. It is proposed to design and develop a cognitive EW architecture and simulation of machine learning that combines neural network architecture with the help of sine and square waves as input. This paper presents the Cognitive signal processing for EW systems with Neural Network, Recurrent Neural Network (RNN), Machine learning (ML), and Deep learning (DL) techniques with their simulation with sine and square waves.
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利用正弦波和方波模拟认知电子战系统
当今的电子战(EW)接收机需要先进的技术来实现实时监控操作。无人机和其他机载应用需要动态智能系统。机载电子战系统必须是以知识为基础的系统,从威胁场景中学习,具有高度集成的能力,能够实时探测、反应和适应雷达威胁。人工智能是一个依赖于机器的过程,通过调整人类智能支持的某些规则和逻辑,人工智能可用于认知处理。要使系统具有自主性和动态性,就需要进行认知信号处理。针对雷达信号的军事行动需要借助拟议的预警系统动态执行一系列命令。本文建议设计和开发一种认知预警系统架构,并模拟机器学习,将神经网络架构与正弦波和方波输入相结合。本文介绍了利用神经网络、循环神经网络(RNN)、机器学习(ML)和深度学习(DL)技术对电子战系统进行认知信号处理,并利用正弦波和方波对其进行了仿真。
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