Clutter evalution of unmanned surface vehicles for maritime traffic monitoring

Bulletin of Electrical Engineering and Informatics Pub Date : 2024-06-01 DOI:10.11591/eei.v13i3.6836

Muhammad Nadiy Zaiaami, N. E. Abd Rashid, Nor Najwa Ismail, I. P. Ibrahim, S. A. Enche Ab Rahim, Nor Ayu Zalina Zakaria

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Abstract

A traditional maritime radar system is utilized for ship detection and tracking through onshore transmitters and receivers. However, it faces challenges when it comes to detecting small boats. In contrast, unmanned surface vehicles (USVs) have been designed to monitor maritime traffic. They excel in detecting vessels of various sizes and enhance the capabilities and resolution of maritime radar systems. Nevertheless, just like conventional radar systems, USVs encounter difficulties due to environmental interference and clutter, affecting the accuracy of target signal detection. This research proposes a comprehensive numerical assessment to tackle the clutter issue associated with USVs. This involves gathering clutter signal data, performing numerical analysis, and employing distribution fitting techniques that leverage mathematical distributions to unravel data complexity. The root mean square error (RMSE) is applied in this analysis to validate the efficacy of the distribution model. The results of this study aim to formulate a clutter model that can enhance radar performance in detecting small vessels within cluttered environments.

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用于海上交通监控的无人水面飞行器杂波评估

传统的海事雷达系统通过陆上发射机和接收机对船只进行探测和跟踪。然而，该系统在探测小型船只方面面临挑战。相比之下，无人水面航行器（USV）则是专为监测海上交通而设计的。它们擅长探测各种大小的船只，并能提高海事雷达系统的能力和分辨率。然而，与传统雷达系统一样，USV 也会遇到环境干扰和杂波等困难，影响目标信号探测的准确性。本研究提出了一种综合数值评估方法，以解决与 USV 相关的杂波问题。这包括收集杂波信号数据，进行数值分析，并采用分布拟合技术，利用数学分布揭示数据的复杂性。本分析采用均方根误差 (RMSE) 来验证分布模型的有效性。这项研究的结果旨在制定一个杂波模型，以提高雷达在杂波环境中探测小型船只的性能。

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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Bulletin of Electrical Engineering and Informatics

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