Adaptive velocity-based six degree of freedom load control for real-time unconstrained biomechanical testing |
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| Authors: | I.M. Lawless B. Ding B.S. Cazzolato J.J. Costi |
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| Affiliation: | 1. Biomechanics and Implants Research Group, Medical Device Research Institute, School of Computer Science, Engineering and Mathematics, Flinders University, Australia;2. School of Mechanical Engineering, University of Adelaide, Australia |
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| Abstract: | Robotic biomechanics is a powerful tool for further developing our understanding of biological joints, tissues and their repair. Both velocity-based and hybrid force control methods have been applied to biomechanics but the complex and non-linear properties of joints have limited these to slow or stepwise loading, which may not capture the real-time behaviour of joints. This paper presents a novel force control scheme combining stiffness and velocity based methods aimed at achieving six degree of freedom unconstrained force control at physiological loading rates. |
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| Keywords: | Spine Biomechanics Load control Adaptive stiffness matrix Hexapod robot |
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