Abstract
In daily life, humans must compensate for the resultant forces arising from interaction with the physical environment. Recent studies have shown that humans can acquire a neural representation of the relation between motor command and movement, i.e. learn an internal model of the environment dynamics. The present paper discusses the feedforward adaptation under a varying dynamical environment during reaching movements. Subjects first learned reaching movements in a position-dependent divergent force field (DF) and velocity-dependent force field (VF), and then in a switched force field SF1 (DFrarrVF) and SF2 (VFrarrDF). The experimental results show that the adaptation to the switched force fields has been achieved by combining the internal model-based control and the impedance control in a feedforward manner.
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