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Literature DB >> 24612719

Hill-type muscle model with serial damping and eccentric force-velocity relation.

D F B Haeufle¹, M Günther², A Bayer³, S Schmitt⁴.

Abstract

Hill-type muscle models are commonly used in biomechanical simulations to predict passive and active muscle forces. Here, a model is presented which consists of four elements: a contractile element with force-length and force-velocity relations for concentric and eccentric contractions, a parallel elastic element, a series elastic element, and a serial damping element. With this, it combines previously published effects relevant for muscular contraction, i.e. serial damping and eccentric force-velocity relation. The model is exemplarily applied to arm movements. The more realistic representation of the eccentric force-velocity relation results in human-like elbow-joint flexion. The model is provided as ready to use Matlab and Simulink code.

Entities: Species

Keywords: Eccentric contraction; Force–velocity relation; Model; Multi-body simulation; Muscle; Serial damping

Mesh：

Year: 2014 PMID： 24612719 DOI： 10.1016/j.jbiomech.2014.02.009

Source DB: PubMed Journal: J Biomech ISSN： 0021-9290 Impact factor: 2.712

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Cited

17 in total

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Journal: J Exp Biol Date: 2017-02-15 Impact factor: 3.312

3. Muscle Imbalances: Testing and Training Functional Eccentric Hamstring Strength in Athletic Populations.

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Review 5. A geometry- and muscle-based control architecture for synthesising biological movement.

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Review 6. The Need for Eccentric Speed: A Narrative Review of the Effects of Accelerated Eccentric Actions During Resistance-Based Training.

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Journal: Sports Med Date: 2022-05-10 Impact factor: 11.928

10. Implementation and validation of the extended Hill-type muscle model with robust routing capabilities in LS-DYNA for active human body models.

Authors: Christian Kleinbach; Oleksandr Martynenko; Janik Promies; Daniel F B Haeufle; Jörg Fehr; Syn Schmitt
Journal: Biomed Eng Online Date: 2017-09-02 Impact factor: 2.819