A sensitivity analysis of the calculation of mechanical output through inverse dynamics: a computer simulation study

The purpose of this study was to systematically determine the effect of experimental errors on the work output calculated using two different methods of inverse dynamics during vertical jumping: (a) the conventional (rotational) method and (b) the translational method. A two-dimensional musculoskele...

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Published in:Journal of biomechanics 2000-10, Vol.33 (10), p.1313-1318
Main Authors: Nagano, Akinori, Gerritsen, Karin G.M., Fukashiro, Senshi
Format: Article
Language:English
Subjects:
Biomechanical Phenomena
Computer Simulation
Energy Metabolism
Humans
Inverse dynamics
Joints - physiology
Models, Biological
Motor Activity - physiology
Musculoskeletal System
Simulation
Vertical jumping
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cited_by cdi_FETCH-LOGICAL-c427t-e800928f78417a4a5e62635e4499226171eeb50368f65c6e08d4e0a2557754363
cites cdi_FETCH-LOGICAL-c427t-e800928f78417a4a5e62635e4499226171eeb50368f65c6e08d4e0a2557754363
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description The purpose of this study was to systematically determine the effect of experimental errors on the work output calculated using two different methods of inverse dynamics during vertical jumping: (a) the conventional (rotational) method and (b) the translational method. A two-dimensional musculoskeletal model was used to generate precisely known kinematics. Next, the location of each joint center (JC) and the location of each segment's center of mass (CM) were manipulated by ±10% of segment length to simulate errors in the location of joint centers (ΔJC) and errors in the location of segment's center of mass (ΔCM), respectively. Work output was subsequently calculated by applying the two methods of inverse dynamics to the manipulated kinematic data. The results showed that the translational method of inverse dynamics was less sensitive (up to 13% error in total work output) to ΔJC and ΔCM than the rotational method (up to 28% error in total work output). The rotational method of inverse dynamics was particularly sensitive to simulated errors in JC.
doi_str_mv 10.1016/S0021-9290(00)00086-5
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subjects Biomechanical Phenomena
Computer Simulation
Energy Metabolism
Humans
Inverse dynamics
Joints - physiology
Models, Biological
Motor Activity - physiology
Musculoskeletal System
Simulation
Vertical jumping
title A sensitivity analysis of the calculation of mechanical output through inverse dynamics: a computer simulation study
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