Justin Seipel, Ph.D.
Affiliations: | Princeton University, Princeton, NJ |
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"Justin Seipel"Mean distance: 16.63 (cluster 17)
Parents
Sign in to add mentorPhilip J. Holmes | grad student | 2006 | Princeton | |
(Actuated models of multi-legged locomotion.) |
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Publications
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Anand M, Seipel J. (2019) The rotary component of leg force during walking and running. Journal of the Royal Society, Interface. 16: 20190105 |
Ackerman J, Seipel J. (2019) Corrigendum to "A model of human walking energetics with an elastically-suspended load" [J. Biomech. 47 (2014) 1922-1927]. Journal of Biomechanics |
Shen Z, Seipel J. (2018) Effective Leg Stiffness of Animal Running and the Co-Optimization of Energetic Cost and Stability. Journal of Theoretical Biology |
Anand M, Seipel J, Rietdyk S. (2017) A modelling approach to the dynamics of gait initiation. Journal of the Royal Society, Interface. 14 |
Ackerman J, Potwar K, Seipel J. (2016) Suspending loads decreases load stability but may slightly improve body stability. Journal of Biomechanics |
Ackerman J, Seipel J. (2016) Effects of independently altering body weight and mass on the energetic cost of a human running model. Journal of Biomechanics |
Shen Z, Seipel J. (2016) A piecewise-linear approximation of the canonical spring-loaded inverted pendulum model of legged locomotion Journal of Computational and Nonlinear Dynamics. 11 |
Shen Z, Seipel J. (2015) The leg stiffnesses animals use may improve the stability of locomotion. Journal of Theoretical Biology. 377: 66-74 |
Ackerman J, Kelley K, Seipel J. (2015) Dynamics of carrying a load with a handle suspension. Journal of Biomechanics. 48: 1084-91 |
Shen Z, Seipel J. (2015) Animals prefer leg stiffness values that may reduce the energetic cost of locomotion. Journal of Theoretical Biology. 364: 433-8 |