Initial component control in disparity vergence: A model-based study

The dual-mode theory for the control of disparity-vergence eye movements states that two components control the response to a step change in disparity, The initial component uses a motor preprogram to drive the eyes to an approximate final position, This initial component is followed by activation of a late component operating under visual feedback control that reduces residual disparity to within fusional limits, A quantitative model based on a pulse-step controller, similar to that postulated for saccadic eye movements, has been developed to represent the initial component, This model, an adaptation of one developed by Zee et al, [1], provides accurate simulations of isolated initial component movements and Is compatible with the known underlying neurophysiology and existing neurophysiological data, The model has been employed to investigate the difference in dynamics between convergent and divergent movements, Results indicate that the pulse-control component active in convergence is reduced or absent from the control signals of divergence movements, This suggests somewhat different control structures of convergence versus divergence, and is consistent with other directional asymmetries seen in horizontal vergence.