Variability in Locomotor Dynamics Reveals the Critical Role of Feedback in Task Control


Meeting Abstract

6-5  Saturday, Jan. 4 09:00 – 09:15  Variability in Locomotor Dynamics Reveals the Critical Role of Feedback in Task Control UYANIK, I; SEFATI, S; STAMPER, S A; CHO, K; ANKARALI, M M; FORTUNE, E S*; COWAN, N J; Hacettepe University, Ankara, Turkey; Johns Hopkins University, Baltimore, MD; Johns Hopkins University, Baltimore, MD; Johns Hopkins University, Baltimore, MD; Middle East Technical University, Ankara, Turkey; New Jersey Institute of Technology, Newark, New Jersey; Johns Hopkins University,Baltimore, MD ncowan@jhu.edu http://limbs.lcsr.jhu.edu/

Animals vary considerably in size, shape, and physiological features across individuals, but yet achieve behavioral performances that are virtually indistinguishable between conspecifics. We examined how animals compensate for morphophysiological variation by measuring the system dynamics of individual knifefish (Eigenmannia virescens) in a refuge tracking task. Kinematic measurements of Eigenmanniawere used to generate individualized estimates of each fish’s locomotor plant and controller revealing substantial variability between fish. To test the impact of this variability on behavioral performance, these models were used to perform simulated `brain transplants’—computationally swapping controllers and plants between individuals. We found that simulated closed-loop performance was robust to mismatch between plant and controller. This suggests that animals rely on feedback rather than precisely tuned neural controllers to compensate for morphophysiological variability.

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