An analytical framework for quantifying muscular action during human movement

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Pandy, Marcus G.

An analytical framework for quantifying muscular action during human movement

Multiple Muscle Systems: Biomechanics and Movement Organization

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DOI: 10.1007/978-1-4613-9030-5_42

Cited Works (10)

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Cited By (9)

Year	Entry
2001	Pandy MG. Computer modeling and simulation of human movement. Annu Rev Biomed Eng. 2001;3:245-273.
1993	Zajac FE. Muscle coordination of movement: a perspective. J Biomech. 1993;26(suppl 1):109-124.
2006	Scovil CY, Ronsky JL. Sensitivity of a Hill-based muscle model to perturbations in model parameters. J Biomech. 2006;39(11):2055-2063.
1997	Vint PF. Interlimb Coupling, Coordinative Structures and the Expression of Maximum Voluntary Muscular Force [PhD thesis]. Arizona State University; May 1997.
1998	Patton JL. Global Modeling of Adaptive, Dynamic Balance Control [PhD thesis]. Evanston, IL: Northwestern University; December 1998.
1993	Fregly BJ. The Significance of Crank Load Dynamics to Steady-State Pedaling Biomechanics: An Experimental and Computer Modeling Study [PhD thesis]. Stanford University; March 1993.
2004	Scovil CY. The Viability of a 3D Forward Dynamic Model of Walking as a Research Tool to Enhance Clinical Understanding of Gait Abnormalities [PhD thesis]. Calgary, AB: University of Calgary; March 2004.
2009	Hettinga BA. Development of a Forward Simulation Model of the Speed Skating Push-Off for the Optimization of Subject Specific Klapskate Design [PhD thesis]. Calgary, AB: University of Calgary; September 2009.
1994	Ziegler JM. A Dynamic Computational Model of the Human Knee Joint With Implementation in Two Optimal Control Models [PhD thesis]. University of Texas at Austin; August 1994.