CapSense: Capacitor-based activity sensing for kinetic energy harvesting powered wearable devices

CapSense: Capacitor-based activity sensing for kinetic energy harvesting powered wearable devices

We propose a new activity sensing method, CapSense, which detects activities of daily living (ADL) by sampling the voltage of the kinetic energy harvesting (KEH) capacitor at an ultra low sampling rate. Unlike conventional sensors that generate only instantaneous motion information of the subject, K...

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Bibliographic Details
Main Authors: LAN, Guohao, MA, Dong, XU, Weitao, HASSAN, Mahbub, HU, Wen
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2017
Subjects:
Energy-effciency
Activity Recognition
Wearable Device
Artificial Intelligence and Robotics
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/6999
https://ink.library.smu.edu.sg/context/sis_research/article/8002/viewcontent/3144457.3144459.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:We propose a new activity sensing method, CapSense, which detects activities of daily living (ADL) by sampling the voltage of the kinetic energy harvesting (KEH) capacitor at an ultra low sampling rate. Unlike conventional sensors that generate only instantaneous motion information of the subject, KEH capacitors accumulate and store human generated energy over time. Given that humans produce kinetic energy at distinct rates for different ADL, the KEH capacitor can be sampled only once in a while to observe the energy generation rate and identify the current activity. Thus, with CapSense, it is possible to avoid collecting time series motion data at high frequency, which promises significant power saving for the sensing device. We prototype a shoe-mounted KEH-powered wearable device and conduct experiments with 10 subjects for detecting 5 different activities. Our results show that compared to the existing time-series-based activity recognition, CapSense reduces samplinginduced power consumption by 99% and the overall system power, after considering wireless transmissions, by 75%. CapSense recognizes activities with up to 90%.

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