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Computer Methods in Biomechanics and Biomedical Engineering Volume 16, 2013 - Issue sup1
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Abstract

EMG-based validation of musculo-skeletal models for gait analysis

M. GirouxUniversité de Lyon, F-69622, France;IFSTTAR, LBMC, UMR_T9406, Bron, France;Université Lyon 1, Villeurbanne, France
,
F. MoissenetCNRFR – Rehazenter, Laboratoire d'Analyse du Mouvement, et de la Posture, L-2674, Luxembourg, Luxembourg
&
R. DumasUniversité de Lyon, F-69622, France;IFSTTAR, LBMC, UMR_T9406, Bron, France;Université Lyon 1, Villeurbanne, FranceCorrespondence[email protected]
Pages 152-154 | Published online: 07 Aug 2013

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F. Moissenet, M. Giroux, L. Chèze & R. Dumas. (2015) Validity of a musculoskeletal model using two different geometries for estimating hip contact forces during normal walking. Computer Methods in Biomechanics and Biomedical Engineering 18:sup1, pages 2000-2001.
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F. Moissenet, L. Chèze & R. Dumas. (2014) Introduction of a set of EMG-based muscular activations in a multi-objective optimisation when solving the muscular redundancy problem during gait. Computer Methods in Biomechanics and Biomedical Engineering 17:sup1, pages 132-133.
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Articles from other publishers (12)

Yunhee Chang, Jungsun Kang, Bora Jeong, Gyoosuk Kim, Bokman Lim, Byungjune Choi & Younbaek Lee. (2023) Verification of Industrial Worker Walking Efficiency with Wearable Hip Exoskeleton. Applied Sciences 13:23, pages 12609.
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Jihye Kim, Hwang-Jae Lee, Su-Hyun Lee, Jungsoo Lee, Won Hyuk Chang, Gyu-Ha Ryu & Yun-Hee Kim. (2021) Correlation between cardiopulmonary metabolic energy cost and lower-limb muscle activity during inclined treadmill gait in older adults. BMC Geriatrics 21:1.
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Ali Zeighami, Raphael Dumas & Rachid Aissaoui. (2021) Knee loading in OA subjects is correlated to flexion and adduction moments and to contact point locations. Scientific Reports 11:1.
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Ali Mamdouh Mohamed & Ronglei Sun. (2021) A Valid Model for Prediction Tibiofemoral Force for Healthy People Based on Static Optimization. IEEE Access 9, pages 88467-88477.
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Raphael Dumas, Arnaud Barré, Florent Moissenet & Rachid Aissaoui. (2019) Can a reduction approach predict reliable joint contact and musculo-tendon forces?. Journal of Biomechanics 95, pages 109329.
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Florent Moissenet, Colombe Bélaise, Elodie Piche, Benjamin Michaud & Mickaël Begon. (2019) An Optimization Method Tracking EMG, Ground Reactions Forces, and Marker Trajectories for Musculo-Tendon Forces Estimation in Equinus Gait. Frontiers in Neurorobotics 13.
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Ziyun Ding, Nur Liyana Azmi & Anthony M. J. Bull. (2019) Validation and Use of a Musculoskeletal Gait Model to Study the Role of Functional Electrical Stimulation. IEEE Transactions on Biomedical Engineering 66:3, pages 892-897.
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Su-Hyun Lee, Hwang-Jae Lee, Won Hyuk Chang, Byung-Ok Choi, Jusuk Lee, Jeonghun Kim, Gyu-Ha Ryu & Yun-Hee Kim. (2017) Gait performance and foot pressure distribution during wearable robot-assisted gait in elderly adults. Journal of NeuroEngineering and Rehabilitation 14:1.
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F. Moissenet, L. Chèze & R. Dumas. (2017) Individual muscle contributions to ground reaction and to joint contact, ligament and bone forces during normal gait. Multibody System Dynamics 40:2, pages 193-211.
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Hwang-Jae Lee, Suhyun Lee, Won Hyuk Chang, Keehong Seo, Youngbo Shim, Byung-Ok Choi, Gyu-Ha Ryu & Yun-Hee Kim. (2017) A Wearable Hip Assist Robot Can Improve Gait Function and Cardiopulmonary Metabolic Efficiency in Elderly Adults. IEEE Transactions on Neural Systems and Rehabilitation Engineering, pages 1-1.
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Ziyun Ding, Daniel Nolte, Chui Kit Tsang, Daniel J. Cleather, Angela E. Kedgley & Anthony M. J. Bull. (2016) In Vivo Knee Contact Force Prediction Using Patient-Specific Musculoskeletal Geometry in a Segment-Based Computational Model. Journal of Biomechanical Engineering 138:2.
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Florent Moissenet, Laurence Chèze & Raphaël Dumas. (2014) A 3D lower limb musculoskeletal model for simultaneous estimation of musculo-tendon, joint contact, ligament and bone forces during gait. Journal of Biomechanics 47:1, pages 50-58.
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