SAFER: An IoT-based perpetual safe community awareness and alerting network

2017 Eighth International Green and Sustainable Computing Conference (IGSC) Pub Date : 2017-10-01 DOI:10.1109/IGCC.2017.8323585

N. Alhassoun, Md Yusuf Sarwar Uddin, N. Venkatasubramanian

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引用次数: 4

Abstract

Perpetual awareness systems are sensing systems characterized by continuous monitoring and ubiquitous sensing; they are essential to many safety and mission-critical applications, e.g. assisted living, healthcare and public safety. In this paper, we present SAFER, a perpetual heterogeneous IoT system; deployed in homes to detect critical events (injury, hazardous-environment) that must trigger immediate action and response. A key challenge here is the energy consumption associated with perpetual operations. We propose a novel energy-aware perpetual home IoT system where battery-operated and wall-powered IoT devices co-execute to ensure safety of occupants. We use a semantic approach that extracts activities-of-daily-living from device data to drive energy-optimized sensor activations. To validate our approach, we developed an elderly fall detection system using multi-personal and in-situ sensing devices. Using initial measurements to drive larger simulations, we show that our Cost-Function-Gradient algorithm can achieve greater than 4X reductions in energy dissipation without loss of sensing accuracy.

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SAFER:基于物联网的永久安全社区意识和警报网络

永久感知系统是指以连续监测和无所不在感知为特征的传感系统;它们对于许多安全和关键任务应用至关重要，例如辅助生活、医疗保健和公共安全。在本文中，我们提出了SAFER，一个永久异构物联网系统;部署在家庭中，用于检测必须立即采取行动和响应的关键事件(伤害、危险环境)。这里的一个关键挑战是与永久操作相关的能源消耗。我们提出了一种新型的能源感知永久家庭物联网系统，其中电池供电和墙壁供电的物联网设备共同执行，以确保居住者的安全。我们使用语义方法，从设备数据中提取日常生活活动，以驱动能量优化的传感器激活。为了验证我们的方法，我们开发了一个使用多人和原位传感装置的老年人跌倒检测系统。使用初始测量来驱动更大的模拟，我们表明我们的成本函数梯度算法可以在不损失传感精度的情况下将能量耗散降低4倍以上。

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 Eighth International Green and Sustainable Computing Conference (IGSC)

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