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Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
by Lee, Jung Keun , Lee, Chang June
in Biomechanical Phenomena / inertial motion capture / inverse dynamics / joint kinetics / Kinematics / Kinetics / Machine learning / Mechanical Phenomena / Methods / Motion / Motion capture / Sensors / Systematic Review / Variables / Wearable Electronic Devices / wearable system
2022
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Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
by Lee, Jung Keun , Lee, Chang June
in Biomechanical Phenomena / inertial motion capture / inverse dynamics / joint kinetics / Kinematics / Kinetics / Machine learning / Mechanical Phenomena / Methods / Motion / Motion capture / Sensors / Systematic Review / Variables / Wearable Electronic Devices / wearable system
2022
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Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
by Lee, Jung Keun , Lee, Chang June
in Biomechanical Phenomena / inertial motion capture / inverse dynamics / joint kinetics / Kinematics / Kinetics / Machine learning / Mechanical Phenomena / Methods / Motion / Motion capture / Sensors / Systematic Review / Variables / Wearable Electronic Devices / wearable system
2022

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Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review
Journal Article

Inertial Motion Capture-Based Wearable Systems for Estimation of Joint Kinetics: A Systematic Review

Lee, Jung Keun,
Lee, Chang June
2022
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Overview
In biomechanics, joint kinetics has an important role in evaluating the mechanical load of the joint and understanding its motor function. Although an optical motion capture (OMC) system has mainly been used to evaluate joint kinetics in combination with force plates, inertial motion capture (IMC) systems have recently been emerging in joint kinetic analysis due to their wearability and ubiquitous measurement capability. In this regard, numerous studies have been conducted to estimate joint kinetics using IMC-based wearable systems. However, these have not been comprehensively addressed yet. Thus, the aim of this review is to explore the methodology of the current studies on estimating joint kinetic variables by means of an IMC system. From a systematic search of the literature, 48 studies were selected. This paper summarizes the content of the selected literature in terms of the (i) study characteristics, (ii) methodologies, and (iii) study results. The estimation methods of the selected studies are categorized into two types: the inverse dynamics-based method and the machine learning-based method. While these two methods presented different characteristics in estimating the kinetic variables, it was demonstrated in the literature that both methods could be applied with good performance for the kinetic analysis of joints in different daily activities.
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Publisher
MDPI AG,MDPI
Subject

Biomechanical Phenomena

/ inertial motion capture

/ inverse dynamics

/ joint kinetics

/ Kinematics

/ Kinetics

/ Machine learning

/ Mechanical Phenomena

/ Methods

/ Motion

/ Motion capture

/ Sensors

/ Systematic Review

/ Variables

/ Wearable Electronic Devices

/ wearable system

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