Physical Activity Classification for Elderly People in Free-Living Conditions

Awais, Muhammad; Chiari, Lorenzo; Ihlen, Espen Alexander F.; Helbostad, Jorunn L.; Palmerini, Luca

doi:10.1109/jbhi.2018.2820179

Cited by 64 publications

(64 citation statements)

References 30 publications

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“…Although the change (increase or decrease) in the performance was not quite significant as compared with the performances achieved through the whole feature set, the number of features was significantly reduced from 561 to 150 using the CFS approach (over 70% reduction in several features). The number of features has implications on the computational complexity of the system [35,37]. A large number of features increases the computational complexity of the system and makes the systems infeasible to operate in real-time scenarios.…”

Section: Using All Feature Setmentioning

confidence: 99%

Performance Analysis of Boosting Classifiers in Recognizing Activities of Daily Living

Rahman

Irfan

Raza

et al. 2020

IJERPH

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Physical activity is essential for physical and mental health, and its absence is highly associated with severe health conditions and disorders. Therefore, tracking activities of daily living can help promote quality of life. Wearable sensors in this regard can provide a reliable and economical means of tracking such activities, and such sensors are readily available in smartphones and watches. This study is the first of its kind to develop a wearable sensor-based physical activity classification system using a special class of supervised machine learning approaches called boosting algorithms. The study presents the performance analysis of several boosting algorithms (extreme gradient boosting—XGB, light gradient boosting machine—LGBM, gradient boosting—GB, cat boosting—CB and AdaBoost) in a fair and unbiased performance way using uniform dataset, feature set, feature selection method, performance metric and cross-validation techniques. The study utilizes the Smartphone-based dataset of thirty individuals. The results showed that the proposed method could accurately classify the activities of daily living with very high performance (above 90%). These findings suggest the strength of the proposed system in classifying activity of daily living using only the smartphone sensor’s data and can assist in reducing the physical inactivity patterns to promote a healthier lifestyle and wellbeing.

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Section: Using All Feature Setmentioning

confidence: 99%

Performance Analysis of Boosting Classifiers in Recognizing Activities of Daily Living

Rahman

Irfan

Raza

et al. 2020

IJERPH

Self Cite

View full text Add to dashboard Cite

show abstract

“…Indeed, there are two types of environments: those that are familiar to the subject and those that are unfamiliar. Concerning articles using familiar environments, some studies in FLEs are limited to the habitats of the participants [ 6 , 17 , 27 , 37 , 38 , 41 , 69 , 72 , 73 , 79 , 80 , 83 , 84 , 91 ]. While others include all the environments frequented daily by the participant like library, gym, university, etc.…”

Section: Protocolsmentioning

confidence: 99%

“…In addition, some studies have highlighted the difficulties of transposing high-performance algorithms intended for controlled environments to free-living conditions, in particular because of the greater complexity of movements and their associations [ 33 ]. Nevertheless, these challenges have been, and are still being, met today through studies allowing interesting and reliable quantitative feedback using inertial sensors of the movements carried out in free-living settings [ 37 , 38 , 39 , 40 ]. The increasing use of machine learning and efficient algorithms also contributed to this effort, by allowing the processing of complex data and allowing to transpose protocols from laboratory to natural conditions.…”

Section: Introductionmentioning

confidence: 99%

The Use of Inertial Measurement Units for the Study of Free Living Environment Activity Assessment: A Literature Review

Jung

Michaud

Oudre

et al. 2020

Sensors

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This article presents an overview of fifty-eight articles dedicated to the evaluation of physical activity in free-living conditions using wearable motion sensors. This review provides a comprehensive summary of the technical aspects linked to sensors (types, number, body positions, and technical characteristics) as well as a deep discussion on the protocols implemented in free-living conditions (environment, duration, instructions, activities, and annotation). Finally, it presents a description and a comparison of the main algorithms and processing tools used for assessing physical activity from raw signals.

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“…There are numerous PAL estimation methods depending on the locations of the devices in the physical activity research field [35]. The methods used in this study were based on the implementation of the four methods proposed by Freedson et al [39], Troiano et al [40], and Crouter et al [41], which are four of the most adopted PAL estimation methods included as a comparative experiment of physical activity [38]. The methods from Freedson et al [39] and Troiano et al [40] were designed for hip placement.…”

Section: Introductionmentioning

confidence: 99%

Improving Heart Rate Estimation on Consumer Grade Wrist-Worn Device Using Post-Calibration Approach

et al. 2020

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The technological advancement in wireless health monitoring allows the development of light-weight wrist-worn wearable devices to be equipped with different sensors. Although the equipped photoplethysmography (PPG) sensors can measure the changes in the blood volume directly through the contact with skin, the motion artifact (MA) is possible to occur during an intense exercise. In this study, we attempted to perform heart rate (HR) estimation by proposing a post-calibration approach during the three possible states of average daily activity (resting, sleeping, and intense treadmill activity states) in 29 participants (130 minutes/person) on four popular wearable devices: Fitbit Charge HR, Apple Watch Series 4, TicWatch Pro, and Empatica E4. In comparison to the HR provided by Fitbit Charge HR (HR Fitbit ) with the highest error of 3.26 ± 0.34 bpm in resting, 2.33 ± 0.23 bpm in sleeping, 9.53 ± 1.47 bpm in intense treadmill activity states, and 5.02 ± 0.64 bpm in all states combined, our improving HR estimation model with rolling windows as feature reduced the mean absolute error (MAE) for 33.44% in resting, 15.88% in sleeping, 9.55% in intense treadmill activity states, and 18.73% in all states combined. Four machine learning (ML) algorithms (support vector regression (SVR), random forest (RF), Gaussian process (GP), and artificial neural network (ANN)) were formulated and trained with the tuned hyperparameters. This demonstrates the feasibility of our proposed methods in order to correct and provide HR monitoring post-calibrated with high accuracy, raising further awareness of individual fitness in the daily application.

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Physical Activity Classification for Elderly People in Free-Living Conditions

Cited by 64 publications

References 30 publications

Performance Analysis of Boosting Classifiers in Recognizing Activities of Daily Living

Performance Analysis of Boosting Classifiers in Recognizing Activities of Daily Living

The Use of Inertial Measurement Units for the Study of Free Living Environment Activity Assessment: A Literature Review

Improving Heart Rate Estimation on Consumer Grade Wrist-Worn Device Using Post-Calibration Approach

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