Title :
A dynamic 3-D model of ocular motion
Author :
Lockwood-Cooke, Pamela ; Martin, Clyde E. ; Schovanec, Lawrence
Author_Institution :
Dept. of Math., West Texas A & M Univ., USA
Abstract :
Eye movement systems are ideal for studying human control of movement, since they are of relatively low dimension and easier to control than other neuromuscular systems. This paper presents a model for the dynamics of 3D eye rotation. The system that is presented incorporates muscle mass, general nonlinear musculotendon dynamics and activation dynamics that couple neural controls that are appropriate for saccadic movements to the muscle mechanics. The approach taken in this paper emphasizes a forward or direct dynamic approach that results in a natural flow of neural-to-muscular-to-movement events while utilizing physiologically realistic models of the musculotendon actuators. Numerical simulations illustrate that the model successfully simulates saccadic movements and accurately depicts eye position, velocity and muscle tension
Keywords :
actuators; biocybernetics; biomechanics; eye; neuromuscular stimulation; nonlinear dynamical systems; numerical analysis; physiological models; 3D eye rotation; activation dynamics; direct dynamic approach; dynamic 3D model; eye movement systems; eye muscle tension; eye position; eye velocity; forward dynamic approach; human control; movement events; muscle mass; muscle mechanics; muscular events; musculotendon actuators; neural controls; neural events; neuromuscular systems; nonlinear musculotendon dynamics; numerical simulations; ocular motion; physiologically realistic models; saccadic movements; Actuators; Control systems; Couplings; Humans; Muscles; Neuromuscular; Nonlinear control systems; Nonlinear dynamical systems; Numerical simulation; Weight control;
Conference_Titel :
Decision and Control, 1999. Proceedings of the 38th IEEE Conference on
Conference_Location :
Phoenix, AZ
Print_ISBN :
0-7803-5250-5
DOI :
10.1109/CDC.1999.832810
