使用毫米波雷达的多视角、多穿戴下的稳定步态识别算法

IF 4.3 2区综合性期刊 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Sensors Journal Pub Date : 2024-09-23 DOI:10.1109/JSEN.2024.3454714

Minhao Ding;Ping Lv;Yiqun Peng;Guangxin Dongye;Yipeng Ding

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引用次数: 0

摘要

目前，人类步态识别已成为一种有效的人员识别解决方案。低成本的毫米波雷达具有非侵入性和高精度的特点，可以有效地应用于各种场景。然而，目前大多数研究主要集中在径向行走和有限样本的雷达数据集上，导致模型的可扩展性和鲁棒性较差。因此，本文介绍了一种稳定的步态识别算法，该算法在由 121 人组成的数据集中，跨越 8 个不同视角和 3 种服装变化，取得了值得称道的结果。所提出的模型将 ResNet18 与多尺度时间提取（MSTE）结构整合在一起，作为特征提取的骨干，有效捕捉了不同时间间隔内的步态特征。该模型采用步态损失、三重损失和中心损失的组合进行优化，大大提高了其稳定性。在实验中，所提出的算法在多视角和跨视角条件下的平均准确率分别达到了 87.9% 和 75.0%，超过了目前最先进的方法。

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A Stable Gait Recognition Algorithm Under Multiview and Multiwear Using Millimeter-Wave Radar

Currently, human gait recognition has emerged as an effective solution for person identification. Low-cost millimeter-wave radar, with its nonintrusive nature and high accuracy, can be effectively utilized in a wide range of scenarios. However, most current research primarily focuses on radar datasets with radial walking and limited samples, resulting in models with poor scalability and robustness. Therefore, this article introduces a stable gait recognition algorithm that achieves commendable results in a dataset comprising 121 individuals across eight different viewpoints and three clothing variations. The proposed model integrates ResNet18 with a multiscale temporal extraction (MSTE) structure as the backbone for feature extraction, effectively capturing gait characteristics over different time intervals. The model is optimized using a combination of gait loss, triplet loss, and center loss, significantly enhancing its stability. In the experiments, the proposed algorithm achieved an average accuracy of 87.9% and 75.0% under multiview and cross-view conditions, respectively, surpassing current state-of-the-art methods.

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来源期刊

IEEE Sensors Journal 工程技术-工程：电子与电气

CiteScore

7.70

自引率

14.00%

发文量

2058

审稿时长

5.2 months

期刊介绍： The fields of interest of the IEEE Sensors Journal are the theory, design , fabrication, manufacturing and applications of devices for sensing and transducing physical, chemical and biological phenomena, with emphasis on the electronics and physics aspect of sensors and integrated sensors-actuators. IEEE Sensors Journal deals with the following: -Sensor Phenomenology, Modelling, and Evaluation -Sensor Materials, Processing, and Fabrication -Chemical and Gas Sensors -Microfluidics and Biosensors -Optical Sensors -Physical Sensors: Temperature, Mechanical, Magnetic, and others -Acoustic and Ultrasonic Sensors -Sensor Packaging -Sensor Networks -Sensor Applications -Sensor Systems: Signals, Processing, and Interfaces -Actuators and Sensor Power Systems -Sensor Signal Processing for high precision and stability (amplification, filtering, linearization, modulation/demodulation) and under harsh conditions (EMC, radiation, humidity, temperature); energy consumption/harvesting -Sensor Data Processing (soft computing with sensor data, e.g., pattern recognition, machine learning, evolutionary computation; sensor data fusion, processing of wave e.g., electromagnetic and acoustic; and non-wave, e.g., chemical, gravity, particle, thermal, radiative and non-radiative sensor data, detection, estimation and classification based on sensor data) -Sensors in Industrial Practice