Marker-Less Monitoring Protocol to Analyze Biomechanical Joint Metrics During Pedaling

Marker-less systems are becoming popular to detect a human skeleton in an image automatically. However, these systems have difficulties in tracking points when part of the body is hidden, or there is an artifact that does not belong to the subject (e.g., a bicycle). We present a low-cost tracking sy...

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Published in	IEEE access Vol. 8; pp. 122782 - 122790
Main Authors	Serrancoli, Gil, Bogatikov, Peter, Huix, Joana Pales, Barbera, Ainoa Forcada, Egea, Antonio J. Sanchez, Ribe, Jordi Torner, Kanaan-Izquierdo, Samir, Susin, Antoni
Format	Journal Article
Language	English
Published	Piscataway IEEE 2020 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Artificial neural networks Bicycles Biomechanical engineering Biomechanics Convolution cycling joint moments cycling joint power Foot Inverse dynamics Joints (anatomy) Kinematics Knee Legged locomotion Low cost Marker-less Markers Mathematical analysis motion capture Pedals Sensors Skeleton Tracking systems Trajectory Webcams
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ISSN	2169-3536 2169-3536
DOI	10.1109/ACCESS.2020.3006423

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Abstract	Marker-less systems are becoming popular to detect a human skeleton in an image automatically. However, these systems have difficulties in tracking points when part of the body is hidden, or there is an artifact that does not belong to the subject (e.g., a bicycle). We present a low-cost tracking system combined with economic force-measurement sensors that allows the calculation of individual joint moments and powers affordable for anybody. The system integrates OpenPose (deep-learning based C++ library to detect human skeletons in an image) in a system of two webcams, to record videos of a cyclist, and seven resistive sensors to measure forces at the pedals and the saddle. OpenPose identifies the skeleton candidate using a convolution neural network. A corrective algorithm was written to automatically detect the hip, knee, ankle, metatarsal and heel points from webcam-recorded motions, which overcomes the limitations of the marker-less system. Then, with the information of external forces, an inverse dynamics analysis is applied in OpenSim to calculate the joint moments and powers at the hip, knee, and ankle joints. The results show that the obtained moments have similar shapes and trends compared to the literature values. Therefore, this represents a low-cost method that could be used to estimate relevant joint kinematics and dynamics, and consequently follow up or improve cycling training plans.
AbstractList	Marker-less systems are becoming popular to detect a human skeleton in an image automatically. However, these systems have difficulties in tracking points when part of the body is hidden, or there is an artifact that does not belong to the subject (e.g., a bicycle). We present a low-cost tracking system combined with economic force-measurement sensors that allows the calculation of individual joint moments and powers affordable for anybody. The system integrates OpenPose (deep-learning based C++ library to detect human skeletons in an image) in a system of two webcams, to record videos of a cyclist, and seven resistive sensors to measure forces at the pedals and the saddle. OpenPose identifies the skeleton candidate using a convolution neural network. A corrective algorithm was written to automatically detect the hip, knee, ankle, metatarsal and heel points from webcam-recorded motions, which overcomes the limitations of the marker-less system. Then, with the information of external forces, an inverse dynamics analysis is applied in OpenSim to calculate the joint moments and powers at the hip, knee, and ankle joints. The results show that the obtained moments have similar shapes and trends compared to the literature values. Therefore, this represents a low-cost method that could be used to estimate relevant joint kinematics and dynamics, and consequently follow up or improve cycling training plans.
Author	Susin, Antoni Barbera, Ainoa Forcada Huix, Joana Pales Egea, Antonio J. Sanchez Bogatikov, Peter Ribe, Jordi Torner Serrancoli, Gil Kanaan-Izquierdo, Samir
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SubjectTerms	Algorithms Artificial neural networks Bicycles Biomechanical engineering Biomechanics Convolution cycling joint moments cycling joint power Foot Inverse dynamics Joints (anatomy) Kinematics Knee Legged locomotion Low cost Marker-less Markers Mathematical analysis motion capture Pedals Sensors Skeleton Tracking systems Trajectory Webcams
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Title	Marker-Less Monitoring Protocol to Analyze Biomechanical Joint Metrics During Pedaling
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