毫米波雷达与卷积神经网络同时跟踪识别无人机目标

IF 3.8 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Suhare Solaiman, Emad Alsuwat, Rajwa Alharthi
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引用次数: 0

摘要

本文提出了一种使用低成本、小型毫米波雷达同时跟踪和识别无人机目标的框架。该雷达收集视野中多个目标的反射信号,包括无人机和非无人机目标。对接收信号的分析允许区分多个目标,因为它们的反射模式不同。该框架由四个过程组成:信号处理、浊点聚类、目标跟踪和目标识别。信号处理将原始采集的信号转换为备用浊点。这些点被合并成几个聚类,每个聚类表示三维空间中的单个目标。目标跟踪估计每个检测到的目标的新位置。设计了一种新的卷积神经网络模型来提取和识别无人机和非无人机目标的特征。对于性能评估,使用德州仪器公司的IWR6843ISK毫米波传感器收集的数据集来训练和测试卷积神经网络。所提出的识别模型对一个和两个目标的准确率分别为98.4%和98.1%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simultaneous Tracking and Recognizing Drone Targets with Millimeter-Wave Radar and Convolutional Neural Network
In this paper, a framework for simultaneous tracking and recognizing drone targets using a low-cost and small-sized millimeter-wave radar is presented. The radar collects the reflected signals of multiple targets in the field of view, including drone and non-drone targets. The analysis of the received signals allows multiple targets to be distinguished because of their different reflection patterns. The proposed framework consists of four processes: signal processing, cloud point clustering, target tracking, and target recognition. Signal processing translates the raw collected signals into spare cloud points. These points are merged into several clusters, each representing a single target in three-dimensional space. Target tracking estimates the new location of each detected target. A novel convolutional neural network model was designed to extract and recognize the features of drone and non-drone targets. For the performance evaluation, a dataset collected with an IWR6843ISK mmWave sensor by Texas Instruments was used for training and testing the convolutional neural network. The proposed recognition model achieved accuracies of 98.4% and 98.1% for one and two targets, respectively.
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来源期刊
Applied System Innovation
Applied System Innovation Mathematics-Applied Mathematics
CiteScore
7.90
自引率
5.30%
发文量
102
审稿时长
11 weeks
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