基于WiFi信号的人体活动识别理解与建模

Proceedings of the 21st Annual International Conference on Mobile Computing and Networking Pub Date : 2015-09-07 DOI:10.1145/2789168.2790093

Wen Wang, A. Liu, Muhammad Shahzad, Kang Ling, Sanglu Lu

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引用次数: 826

摘要

一些基于WiFi信号的人类活动识别系统已经被提出。他们的主要局限性在于缺乏一种可以定量关联CSI动态和人类活动的模型。本文提出了一种基于CSI的人体活动识别与监测系统CARM。CARM有两个理论基础:CSI-速度模型(CSI-speed model)和CSI-活动模型(CSI-activity model)，前者量化CSI值动态与人体运动速度之间的相关性，后者量化人体不同部位的运动速度与特定人类活动之间的相关性。通过这两个模型，我们定量地建立了CSI值动态与特定人类活动之间的相关性。CARM使用这种相关性作为分析机制，并通过将给定的活动与最合适的配置文件相匹配来识别给定的活动。我们使用商用WiFi设备实现了CARM，并在几个不同的环境中对其进行了评估。结果表明，CARM的平均准确率大于96%。

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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Understanding and Modeling of WiFi Signal Based Human Activity Recognition

Some pioneer WiFi signal based human activity recognition systems have been proposed. Their key limitation lies in the lack of a model that can quantitatively correlate CSI dynamics and human activities. In this paper, we propose CARM, a CSI based human Activity Recognition and Monitoring system. CARM has two theoretical underpinnings: a CSI-speed model, which quantifies the correlation between CSI value dynamics and human movement speeds, and a CSI-activity model, which quantifies the correlation between the movement speeds of different human body parts and a specific human activity. By these two models, we quantitatively build the correlation between CSI value dynamics and a specific human activity. CARM uses this correlation as the profiling mechanism and recognizes a given activity by matching it to the best-fit profile. We implemented CARM using commercial WiFi devices and evaluated it in several different environments. Our results show that CARM achieves an average accuracy of greater than 96%.

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Proceedings of the 21st Annual International Conference on Mobile Computing and Networking

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