There is an old saying that you must walk a mile in someone’s shoes to truly understand them. This mini-review will synthesize and discuss recent research that attempts to make humans “walk a mile” in an artificial musculoskeletal system to gain insight into the principles governing human movement control. In this approach, electromyography (EMG) is used to sample human motor commands; these commands serve as inputs to mathematical models of muscular dynamics, which in turn act on a model of skeletal dynamics to produce a simulated motor action in real-time (i.e., the model’s state is updated fast enough produce smooth motion without noticeable transitions; Manal et al., 2002). In thismini-review, these are termedmyoelectricmusculoskeletalmodels (MMMs). After a brief overview of typical MMM design and operation principles, the review will highlight how MMMs have been used for understanding human sensorimotor control and learning by evoking apparent alterations in a user’s biomechanics, neural control, and sensory feedback experiences.
CITATION STYLE
Goodman, S. E., & Hasson, C. J. (2017, November 10). Elucidating sensorimotor control principles with myoelectric musculoskeletal models. Frontiers in Human Neuroscience. Frontiers Media S. A. https://doi.org/10.3389/fnhum.2017.00531
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