RAPD: Robust and adaptive passive human detection using PHY layer information

2017 IEEE 2nd Advanced Information Technology, Electronic and Automation Control Conference (IAEAC) Pub Date : 2017-03-01 DOI:10.1109/IAEAC.2017.8054258

Huafeng Mei, Xinhua Liu, Caiyun Xia, Hao Ren

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Abstract

Wireless device-free passive human detection is an essential primitive for a broad range of applications including asset security, emergency responses, privacy-preserving children and elderly monitoring, etc. Previous works have studied the Channel State Information (CSI) to detect moving humans by comparing static profiles and abnormal profiles, however, few of these profiles have been considered to adaptively updated to accommodate the movement of the mobile devices and day-to-day signal calibration. Moreover, the multi-antennas in MIMO systems has not further exploited to improve the detection accuracy. In this paper, we propose a robust and adaptive passive human detection system (RAPD) using a semi-supervised approach to construct signal profiles, and the profiles can be adaptively update to accommodate the movement of the mobile devices and day-to-day signal calibration. Experimental evaluation in two different scenarios demonstrates that our approach can achieve great performance improvement in spite of environment changes.

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RAPD:稳健和自适应被动人体检测利用物理层信息

无线无设备被动人体检测是广泛应用的基本要素，包括资产安全、应急响应、保护儿童和老年人的隐私监测等。以前的工作已经研究了通道状态信息(CSI)，通过比较静态配置文件和异常配置文件来检测移动的人，然而，这些配置文件很少被认为是自适应更新以适应移动设备的运动和日常信号校准。此外，MIMO系统中的多天线在提高检测精度方面还没有得到进一步的开发。在本文中，我们提出了一种鲁棒和自适应被动人体检测系统(RAPD)，该系统使用半监督方法构建信号剖面，并且该剖面可以自适应更新以适应移动设备的运动和日常信号校准。在两种不同场景下的实验评估表明，尽管环境发生变化，我们的方法仍能取得很大的性能提升。

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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2017 IEEE 2nd Advanced Information Technology, Electronic and Automation Control Conference (IAEAC)

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