Lightweight accurate trigger to reduce power consumption in sensor-based continuous human activity recognition

IF 3 3区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Pervasive and Mobile Computing Pub Date : 2023-10-05 DOI:10.1016/j.pmcj.2023.101848

Emanuele Lattanzi, Lorenzo Calisti, Paolo Capellacci

引用次数: 0

Abstract

Wearable devices have become increasingly popular in recent years, and they offer a great opportunity for sensor-based continuous human activity recognition in real-world scenarios. However, one of the major challenges is their limited battery life. In this study, we propose an energy-aware human activity recognition framework for wearable devices based on a lightweight accurate trigger. The trigger acts as a binary classifier capable of recognizing, with maximum accuracy, the presence or absence of one of the interesting activities in the real-time input signal and it is responsible for starting the energy-intensive classification procedure only when needed. The measurement results conducted on a real wearable device show that the proposed approach can reduce energy consumption by up to 95% in realistic case studies, with a cost of performance deterioration of at most 1% or 2% compared to the traditional energy-intensive classification strategy.

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轻量化的精确触发器，以减少功耗传感器为基础的连续人体活动识别

近年来，可穿戴设备越来越受欢迎，它们为在现实世界场景中基于传感器的连续人类活动识别提供了巨大的机会。然而，其中一个主要挑战是它们的电池寿命有限。在这项研究中，我们提出了一个基于轻量级精确触发器的可穿戴设备能量感知人类活动识别框架。触发器充当二进制分类器，能够以最大准确度识别实时输入信号中感兴趣的活动之一的存在或不存在，并且仅在需要时才负责启动能量密集型分类过程。在实际可穿戴设备上进行的测量结果表明，在实际案例研究中，所提出的方法可以将能耗降低95%，与传统的能源密集型分类策略相比，性能恶化的成本最多为1%或2%。

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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来源期刊

Pervasive and Mobile Computing COMPUTER SCIENCE, INFORMATION SYSTEMS-TELECOMMUNICATIONS

CiteScore

7.70

自引率

2.30%

发文量

审稿时长

68 days

期刊介绍： As envisioned by Mark Weiser as early as 1991, pervasive computing systems and services have truly become integral parts of our daily lives. Tremendous developments in a multitude of technologies ranging from personalized and embedded smart devices (e.g., smartphones, sensors, wearables, IoTs, etc.) to ubiquitous connectivity, via a variety of wireless mobile communications and cognitive networking infrastructures, to advanced computing techniques (including edge, fog and cloud) and user-friendly middleware services and platforms have significantly contributed to the unprecedented advances in pervasive and mobile computing. Cutting-edge applications and paradigms have evolved, such as cyber-physical systems and smart environments (e.g., smart city, smart energy, smart transportation, smart healthcare, etc.) that also involve human in the loop through social interactions and participatory and/or mobile crowd sensing, for example. The goal of pervasive computing systems is to improve human experience and quality of life, without explicit awareness of the underlying communications and computing technologies. The Pervasive and Mobile Computing Journal (PMC) is a high-impact, peer-reviewed technical journal that publishes high-quality scientific articles spanning theory and practice, and covering all aspects of pervasive and mobile computing and systems.