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Goswani Ed. Mussa-Ivaldi, F. Neural, mechanical, and geometric factors subserving arm posture in humans.
Journal of Neuroscience, 5 , — Stroeve, S. Impedance characteristics of neuromusculoskeletal model of the human arm, I. Posture control. Biological Cybernetics, 81 , — Rosenbaum, D. Posture-based motion planning: Applications to grasping.
- Kinematics and dynamics analysis of the main motion system of reciprocating machine tools!
- Oxfords Misfits (Oxfords Blues Trilofy Book 3).
- Lesson Plan I, Claudius by Robert Graves?
Psychological Review, , — Suggs, C. Modelling of the dynamic characteristic of the hand—arm system. Taylor Ed. London: Academic Press. Roth, N. Mechanical impedance control in the human arm while manually transporting an open-top fluid filled dish. Applied Bionics and Biomechanics, 8 , — Elastic and damping response of the human leg to in vivo impact forces.
Ozguven, H. An experimental and analytical study of impact forces during human jumping. Journal of Biomechanics, 21 , — Kim, W. Modeling of heel strike transients during running. Human Movement Science, 13 , — McMahon, T. The influence of track compliance on running. Journal of Biomechanics, 12 , — Rapoport, S. Constant and variable impedance of the leg joints in human hopping. Greene, P. Farley, C.
Problems & Exercises
Leg stiffness and stride frequency in human running. Journal of Biomechanics, 29 , — Leg stiffness primarily depends on ankle stiffness during human hopping.
Journal of Biomechanics, 32 , — Spagele, T. Modeling, simulation and optimization of a human vertical jump. Biomechanics of balance. Dvir Ed.
New York: Churchill Livingstone. An iterative model for estimation of the trajectory of center of gravity from bi-lateral reactive force measurements in standing sway.
Gait Posture, 4 , 89— Standing sway: Iterative estimation of the kinematics and dynamics of the lower extremities from forceplate measurements. Biological Cybernetics, 78 , — Isakov, E. Is balance impaired by recurrent sprained ankle? British Journal of Sports Medicine, 31 , 65— Bilateral simultaneous measurement of standing ground reaction forces in hemiparetics, below-knee amputees and healthy adults. Basic and Applied Myology, 7 , 97— Balance recovery pattern in recent hemiplegics.
Europa Medicophysica, 34 , 5—9. Firestone, F. The mobility and classical impedance analyses. In American Institute of Physics handbook pp. Kim, S. Leg stiffness increases with speed to modulate gait frequency and propulsion energy. Journal of Biomechanics, 44 , — Hogan, N. Schouten, A. Design of a torque-controlled manipulator to analyse the admittance of the wrist joint.
A-level Physics/Forces and Motion/Dynamics
Journal of Neuroscience Methods, , — Nikooyan, A. Mass—spring—damper modelling of the human body to study running and hopping—An overview. Amirouche, F. Modeling of human reactions to whole body vibrations.
Boileau, P. Whole-body vertical biodynamic response characteristics of the seated vehicle driver: Measurement and model development. International Journal of Industrial Ergonomics, 22 , — Patil, M.
Engineering System in Motion: Dynamics of Particles and Bodies in 2D Motion | GTPE
Response of human body to tractor vibrations and its minimization by provision of relaxation suspensions to both wheels and seat at the plane of centre of gravity. Medical and Biological Engineering and Computing, 18 , — Zong, Z. Biodynamic response of shipboard sitting subject to ship shock motion. Journal of Biomechanics, 35 , 35— Qassem, W. Model prediction of vibration effects on human subject seated on various cushions.
Mechanical Impedance and Its Relations to Motor Control, Limb Dynamics, and Motion Biomechanics
Medical Engineering and Physics, 18 , — Vibration effects on setting pregnant woven-subjects of various masses. Pavec, D. Rosen, J. Toward, M.
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