Hill-type parameter values measured in experiments on single muscles show large across-muscle variation. Using individual-muscle specific values instead of the more standard approach of across-muscle means might therefore improve muscle model performance. We show here that using mean values increased simulation normalized RMS error in all tested motor nerve stimulation paradigms in both isotonic and isometric conditions, doubling mean simulation error from 9 to 18 (different at p < 0.0001). These data suggest muscle-specific measurement of Hill-type model parameters is necessary in work requiring highly accurate muscle model construction. Maximum muscle force (F (max)) showed large (fourfold) across-muscle variation. To test the role of F (...
Musculoskeletal modelling is an important platform on which to study the biomechanics of morphologic...
Understanding the sources of error is critical before models of the musculoskeletal system can be us...
Subject-specific musculoskeletal (MS) models of the lower extremity are essential for applications s...
Models built using mean data can represent only a very small percentage, or none, of the population ...
Characterizing muscle requires measuring such properties as force-length, force-activation, and forc...
We review here the use and reliability of Hill-type muscle models to predict muscle performance unde...
International audienceThe study of muscle coordination requires knowledge of the force produced by i...
Buchanan, Thomas S.Higginson, Jill S.Experimental gait analysis was developed to analyze and calcula...
Neuromuscular physiology is a vibrant research field that has recently seen exciting advances. Previ...
Abstract Background Mathematical muscle models may be useful for the determination of appropriate mu...
This study presents a model-based sensitivity analysis of the strength of voluntary muscle contracti...
Hill-type muscle models are often used in muscle simulation studies and also in the designand virtua...
AbstractMuscles contain a collection of motor units that can have different mechanical properties. I...
Table S1. Model parameters for the primary model used to generate the results (12 DoF, 18 Muscles: 1...
Muscles consists of multiple motor units (MUs) that produce the force required for our movements. Mo...
Musculoskeletal modelling is an important platform on which to study the biomechanics of morphologic...
Understanding the sources of error is critical before models of the musculoskeletal system can be us...
Subject-specific musculoskeletal (MS) models of the lower extremity are essential for applications s...
Models built using mean data can represent only a very small percentage, or none, of the population ...
Characterizing muscle requires measuring such properties as force-length, force-activation, and forc...
We review here the use and reliability of Hill-type muscle models to predict muscle performance unde...
International audienceThe study of muscle coordination requires knowledge of the force produced by i...
Buchanan, Thomas S.Higginson, Jill S.Experimental gait analysis was developed to analyze and calcula...
Neuromuscular physiology is a vibrant research field that has recently seen exciting advances. Previ...
Abstract Background Mathematical muscle models may be useful for the determination of appropriate mu...
This study presents a model-based sensitivity analysis of the strength of voluntary muscle contracti...
Hill-type muscle models are often used in muscle simulation studies and also in the designand virtua...
AbstractMuscles contain a collection of motor units that can have different mechanical properties. I...
Table S1. Model parameters for the primary model used to generate the results (12 DoF, 18 Muscles: 1...
Muscles consists of multiple motor units (MUs) that produce the force required for our movements. Mo...
Musculoskeletal modelling is an important platform on which to study the biomechanics of morphologic...
Understanding the sources of error is critical before models of the musculoskeletal system can be us...
Subject-specific musculoskeletal (MS) models of the lower extremity are essential for applications s...