Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection

Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection

Continuous monitoring of complex activities is valuable for understanding human behavior and providing activity-aware services. At the same time, recognizing these activities requires both movement and location information that can quickly drain batteries on wearable devices. In this paper, we intro...

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Main Authors: Cristian Culman, Samaneh Aminikhanghahi, Diane J. Cook
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Sensors
Subjects:
time series analysis
machine learning
mobile computing
statistical methods
energy reduction
Online Access:https://www.mdpi.com/1424-8220/20/1/310
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spelling doaj-fda97940f0dd4846bae699a32793a3842020-11-25T02:20:44ZengMDPI AGSensors1424-82202020-01-0120131010.3390/s20010310s20010310Easing Power Consumption of Wearable Activity Monitoring with Change Point DetectionCristian Culman0Samaneh Aminikhanghahi1Diane J. Cook2School of Electrical Engineering and Computer Science, Washington State University, Pullman, WA 99164-2752, USASchool of Electrical Engineering and Computer Science, Washington State University, Pullman, WA 99164-2752, USASchool of Electrical Engineering and Computer Science, Washington State University, Pullman, WA 99164-2752, USAContinuous monitoring of complex activities is valuable for understanding human behavior and providing activity-aware services. At the same time, recognizing these activities requires both movement and location information that can quickly drain batteries on wearable devices. In this paper, we introduce Change Point-based Activity Monitoring (CPAM), an energy-efficient strategy for recognizing and monitoring a range of simple and complex activities in real time. CPAM employs unsupervised change point detection to detect likely activity transition times. By adapting the sampling rate at each change point, CPAM reduces energy consumption by 74.64% while retaining the activity recognition performance of continuous sampling. We validate our approach using smartwatch data collected and labeled by 66 subjects. Results indicate that change point detection techniques can be effective for reducing the energy footprint of sensor-based mobile applications and that automated activity labels can be used to estimate sensor values between sampling periods.https://www.mdpi.com/1424-8220/20/1/310time series analysismachine learningmobile computingstatistical methodsenergy reduction
collection DOAJ
language English
format Article
sources DOAJ
author Cristian Culman
Samaneh Aminikhanghahi
Diane J. Cook
spellingShingle Cristian Culman
Samaneh Aminikhanghahi
Diane J. Cook
Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection
Sensors
time series analysis
machine learning
mobile computing
statistical methods
energy reduction
author_facet Cristian Culman
Samaneh Aminikhanghahi
Diane J. Cook
author_sort Cristian Culman
title Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection
title_short Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection
title_full Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection
title_fullStr Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection
title_full_unstemmed Easing Power Consumption of Wearable Activity Monitoring with Change Point Detection
title_sort easing power consumption of wearable activity monitoring with change point detection
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2020-01-01
description Continuous monitoring of complex activities is valuable for understanding human behavior and providing activity-aware services. At the same time, recognizing these activities requires both movement and location information that can quickly drain batteries on wearable devices. In this paper, we introduce Change Point-based Activity Monitoring (CPAM), an energy-efficient strategy for recognizing and monitoring a range of simple and complex activities in real time. CPAM employs unsupervised change point detection to detect likely activity transition times. By adapting the sampling rate at each change point, CPAM reduces energy consumption by 74.64% while retaining the activity recognition performance of continuous sampling. We validate our approach using smartwatch data collected and labeled by 66 subjects. Results indicate that change point detection techniques can be effective for reducing the energy footprint of sensor-based mobile applications and that automated activity labels can be used to estimate sensor values between sampling periods.
topic time series analysis
machine learning
mobile computing
statistical methods
energy reduction
url https://www.mdpi.com/1424-8220/20/1/310
work_keys_str_mv AT cristianculman easingpowerconsumptionofwearableactivitymonitoringwithchangepointdetection
AT samanehaminikhanghahi easingpowerconsumptionofwearableactivitymonitoringwithchangepointdetection
AT dianejcook easingpowerconsumptionofwearableactivitymonitoringwithchangepointdetection
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