R. Braojos, I. Beretta, J. Constantin, A. Burg, David Atienza Alonso
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引用次数: 12
Abstract
Activity recognition has been a research field of high interest over the last years, and it finds application in the medical domain, as well as personal healthcare monitoring during daily home- and sports-activities. With the aim of producing minimum discomfort while performing supervision of subjects, miniaturized networks of low-power wireless nodes are typically deployed on the body to gather and transmit physiological data, thus forming a Wireless Body Sensor Network (WBSN). In this work, we propose a WBSN for online activity monitoring, which combines the sensing capabilities of wearable nodes and the high computational resources of modern smart phones. The proposed solution provides different tradeoffs between classification accuracy and energy consumption, thanks to different workloads assigned to the nodes and to the mobile phone in different network configurations. In particular, our WBSN is able to achieve very high activity recognition accuracies (up to 97.2%) on multiple subjects, while significantly reducing the sampling frequency and the volume of transmitted data with respect to other state-of-the-art solutions.
在过去的几年里,活动识别一直是一个备受关注的研究领域,它在医疗领域以及日常家庭和体育活动中的个人健康监测中得到了应用。为了在对受试者进行监督时尽量减少不适,通常在身体上部署由低功耗无线节点组成的小型化网络来收集和传输生理数据,从而形成无线身体传感器网络(wireless body Sensor Network, WBSN)。在这项工作中,我们提出了一种用于在线活动监测的WBSN,它结合了可穿戴节点的传感能力和现代智能手机的高计算资源。由于在不同的网络配置中为节点和移动电话分配了不同的工作负载,所提出的解决方案在分类精度和能耗之间提供了不同的权衡。特别是,我们的WBSN能够在多个主题上实现非常高的活动识别准确率(高达97.2%),同时与其他最先进的解决方案相比,显著降低了采样频率和传输数据量。
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