Science & technology trends in cognitive radar concept

Sistemi obrobki informatsiyi Pub Date : 2021-09-24 DOI:10.30748/soi.2021.166.02

А.С. Дудуш, І.І. Сачук, Сальман Оваід, А.К. Бідун

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Abstract

Currently, human operators provide cognition in a radar system. However, advances in the “digitization” of radar front-ends, including digital arbitrary waveform generators (AWG) and advanced high performance embedded computing (HPEC) make it possible to vary all key radar parameters (power, pulse length, number of pulses, pulse repetition frequency (PRF), modulation, frequency, polarization) on a pulse-by-pulse basis within ns or ms and over a wide operating range. This timescale is much faster than the decision-making ability of a human operator. The cognitive-inspired techniques in radar, that are intensively developing last years, mimic elements of human cognition and the use of external knowledge to use the available system resources in an optimal way for the current goal and environment. Radar systems based on the perception-action cycle of cognition that senses the environment, learns relevant information from it about the target and the background and then adapts the radar to optimally satisfy the needs of the mission according to a desired goal are called cognitive radars. In the article, recent ideas and applications of cognitive radars were analyzed.

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认知雷达概念的科技发展趋势

目前，在雷达系统中，人类操作员提供认知。然而，雷达前端“数字化”的进步，包括数字任意波形发生器(AWG)和先进的高性能嵌入式计算(HPEC)，使所有关键雷达参数(功率、脉冲长度、脉冲数、脉冲重复频率(PRF)、调制、频率、极化)在ns或ms的脉冲基础上，在很宽的工作范围内改变成为可能。这个时间尺度比人类操作员的决策能力要快得多。雷达中的认知启发技术，近年来得到了广泛的发展，它模拟了人类认知的元素，并利用外部知识以当前目标和环境的最佳方式使用可用的系统资源。基于感知-行动周期的雷达系统，即感知环境，从中学习目标和背景的相关信息，然后根据期望目标对雷达进行调整，使其最优地满足任务的需要，称为认知雷达。本文分析了认知雷达的最新思想和应用。

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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Sistemi obrobki informatsiyi

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审稿时长

6 weeks