室内穿墙被动人体目标检测与WiFi

Xiaolong Yang, Shiming Wu, Mu Zhou, Liangbo Xie, Jiacheng Wang, Wei-jun He
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引用次数: 3

摘要

被动人体目标检测在安防监控、智能家居、人机交互等领域有着广阔的应用前景。在穿墙场景中,由于墙壁对信号的严重衰减,目标反射信号的能量明显下降,淹没在收发器的直接信号和室内静态物体的反射信号中,难以提取。因此,现有的WiFi传感系统在穿墙场景中存在一定的局限性,特别是在检测静止的人体目标和运动的人体目标数量方面。针对上述问题,本文提出了一种基于多维信号特征的TWMD检测系统。首先,对接收到的信道状态信息(CSI)数据进行预处理,消除相位误差和幅度噪声;然后,利用CSI的时间相关和子载波相关,从相关系数矩阵中充分提取出多维特征;最后,利用BP神经网络建立特征与检测结果之间的映射关系。实验结果表明,在玻璃墙、砖墙和混凝土墙环境下,TWMD的识别精度分别在0.980、0.900、0.850以上。与现有的基于单信号特征的检测系统相比,对运动目标数量的检测提高了0.450左右。
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Indoor Through-the-Wall Passive Human Target Detection with WiFi
Passive human target detection has a broad application prospect in security monitoring, intelligent home and humancomputer interaction. In through-the-wall scenario, due to the serious attenuation of signals caused by wall, the energy of target reflection signal decreases significantly and is submerged in the direct signal of the transceiver and the reflection signal of indoor static objects, making it difficult to be extracted. Therefore, the existing WiFi sensing system has some limitations in throughthe-wall scene, especially in detection of the stationary human target and the number of moving human targets. According to the above problem, we propose a detection system TWMD based on multidimensional signal features in this paper. Firstly, the received Channel State Information (CSI) data is preprocessed to eliminate the phase error and amplitude noise. Then, the multidimensional features are fully extracted from the correlation coefficient matrix by using time correlation and subcarrier correlation of CSI. Finally, the mapping between features and detection results is established by Back Propagation (BP) neural network. Our experimental results show that the recognition accuracy of TWMD in the environment with glass wall, brick wall and concrete wall are above 0.980, 0.900, 0.850, respectively. Compared with the existing detection system based on single signal feature, it improves about 0.450 in the detection of the number of moving targets.
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