Emergence of Human Oculomotor Behavior in a Cable-Driven Biomimetic Robotic Eye Using Optimal Control

Emergence of Human Oculomotor Behavior in a Cable-Driven Biomimetic Robotic Eye Using Optimal Control

This article explores the application of model-based optimal control principles in understanding stereotyped human oculomotor behaviors. Using a realistic model of the human eye with a six-muscle cable-driven actuation system, we tackle the novel challenges of addressing a system with six degrees of...

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Veröffentlicht in:IEEE transactions on cognitive and developmental systems 2024-08, Vol.16 (4), p.1546-1560
Hauptverfasser: Javanmard Alitappeh, Reza, John, Akhil, Dias, Bernardo, van Opstal, A. John, Bernardino, Alexandre
Format: Artikel
Sprache:eng
Schlagworte:
Biological system modeling
Biologically inspired robots
cable pretension
cable-driven robot
Kinematics
Listing's law
Muscles
oculomotor system
Optimal control
optimization and optimal control
recurrent neural network
Robot kinematics
Robots
saccadic eye movements
Three-dimensional displays
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Zusammenfassung:This article explores the application of model-based optimal control principles in understanding stereotyped human oculomotor behaviors. Using a realistic model of the human eye with a six-muscle cable-driven actuation system, we tackle the novel challenges of addressing a system with six degrees of freedom. We apply nonlinear optimal control techniques to optimize accuracy, energy, and duration of eye-movement trajectories. Employing a recurrent neural network to emulate system dynamics, we focus on generating rapid, unconstrained saccadic eye-movements. Remarkably, our model replicates realistic 3-D rotational kinematics and dynamics observed in human saccades, with the six cables organizing themselves into appropriate antagonistic muscle pairs, resembling the primate oculomotor system.
ISSN:2379-8920
2379-8939
DOI:10.1109/TCDS.2024.3376072