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Effect of Handedness on Learned Controllers and Sensorimotor Noise During Trajectory-Tracking

Momona Yamagami, Lauren N. Peterson, Darrin Howell, Eatai Roth, Samuel A. Burden

2021IEEE Transactions on Cybernetics12 citationsDOI

Abstract

In human-in-the-loop control systems, operators can learn to manually control dynamic machines with either hand using a combination of reactive (feedback) and predictive (feedforward) control. This article studies the effect of handedness on learned controllers and performance during a trajectory-tracking task. In an experiment with 18 participants, subjects perform an assay of unimanual trajectory-tracking and disturbance-rejection tasks through second-order machine dynamics, first with one hand then the other. To assess how hand preference (or dominance) affects learned controllers, we extend, validate, and apply a nonparametric modeling method to estimate the concurrent feedback and feedforward controllers. We find that performance improves because feedback adapts, regardless of the hand used. We do not detect statistically significant differences in performance or learned controllers between hands. Adaptation to reject disturbances arising exogenously (i.e., applied by the experimenter) and endogenously (i.e., generated by sensorimotor noise) explains observed performance improvements.

Topics & Concepts

Feed forwardTrajectoryComputer scienceControl theory (sociology)Noise (video)Task (project management)Feedback loopControl (management)Artificial intelligenceControl engineeringEngineeringImage (mathematics)Systems engineeringComputer securityPhysicsAstronomyMotor Control and AdaptationHuman-Automation Interaction and SafetySports Performance and Training
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