Publication Files – Page 3 – The Eric P. and Evelyn E. Newman Laboratory for Biomechanics and Human Rehabilitation

1984-adaptive-control-of-mechanical-impedance-by-coactivation-of-antagonist-muscles

1984-adaptive-control-of-mechanical-impedance-by-coactivation-of-antagonist-muscles

1985-the-mechanics-of-multi-joint-posture-and-movement-control

1985-the-mechanics-of-multi-joint-posture-and-movement-control

1985-the-coordination-of-arm-movements-an experimentally-confirmed-mathematical-model

1985-the-coordination-of-arm-movements-an experimentally-confirmed-mathematical-model

1985-neural-mechanical-and-geometric-factors-subserving-arm-posture-in-humans

1985-neural-mechanical-and-geometric-factors-subserving-arm-posture-in-humans

1985-impedance-control-an-approach-to-manipulation-part-I-theory

1985-impedance-control-an-approach-to-manipulation-part-I-theory

1985-impedance-control-an-approach-to-manipulation-part-II-implementation

1985-impedance-control-an-approach-to-manipulation-part-II-implementation

1985-impedance-control-an-approach-to-manipulation-part-III-applications

1985-impedance-control-an-approach-to-manipulation-part-III-applications

1985-control-strategies-for-complex-movements-derived-from-physical-systems-theory

1985-control-strategies-for-complex-movements-derived-from-physical-systems-theory

Park, S.W., Marino, H., Charles, S. Sternad, D., & Hogan, N. (2017). Moving slowly is hard for humans: Limitations of dynamic primitives. Journal of Neurophysiology, 118(1), 69-83.

Park, S.W., Marino, H., Charles, S. Sternad, D., & Hogan, N. (2017). Moving slowly is hard for humans: Limitations of dynamic primitives. Journal of Neurophysiology, 118(1), 69-83.

2015-a-novel-interactive-exoskeletal-robot-for-overground-locomotion-studies-in-rats

2015-a-novel-interactive-exoskeletal-robot-for-overground-locomotion-studies-in-rats