A multi-scale analysis and compressive sensing based energy aware fall detection system

2013 8th IEEE Design and Test Symposium Pub Date : 2013-12-01 DOI:10.1109/IDT.2013.6727125

M. Neggazi, L. Hamami, A. Amira

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引用次数: 3

Abstract

In this paper, an energy aware real-time wireless fall detection system based on the multi-scale analysis is proposed. Furthermore, an efficient feature extraction and compression algorithm for high accuracy fall recognition is presented. The proposed algorithm is carried out on the low-power Shimmer sensing platform. The developed method aims to reduce the amount of 3D acceleration data for energy efficiency improvement of the energy-hungry wireless links. Interestingly, our results show an average power consumption of less than 60% on the Shimmer Bluetooth link. In addition, the average of the 3D acceleration data rate savings is about 87.5%. Moreover, the proposed energy-aware fall detection system has been proven to distinguish among falls and activities of daily living, and the accuracy has been evaluated in terms of specificity and sensitivity and has shown excellent results. The sparsity degree for an efficient representation of 3D acceleration signal and high fall detection accuracy rate is also studied. The percent error between the original and reconstruted 3D acceleration signal of 7% after applying compressive sensing would yield a space savings of 56%, for a sparsity S=77 and signal length N=512.

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基于多尺度分析和压缩感知的能量感知跌落检测系统

本文提出了一种基于多尺度分析的能量感知实时无线跌倒检测系统。在此基础上，提出了一种高效的特征提取和压缩算法，用于高精度的跌落识别。该算法在低功耗微光传感平台上实现。所开发的方法旨在减少3D加速数据量，以提高高能耗无线链路的能效。有趣的是，我们的结果显示，微光蓝牙链路的平均功耗低于60%。此外，3D加速数据率的平均节省约为87.5%。此外，所提出的能量感知跌倒检测系统已被证明能够区分跌倒和日常生活活动，并从特异性和敏感性两方面对其准确性进行了评估，并显示出良好的效果。研究了稀疏度对三维加速度信号的有效表示和高跌落检测准确率的影响。在稀疏度S=77、信号长度N=512的情况下，应用压缩感知后，原始和重建的3D加速度信号之间的误差为7%，可以节省56%的空间。

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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2013 8th IEEE Design and Test Symposium

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