River Edge, NJ, : World Scientific, c2001

981-281-148-6

1-281-86955-4

9786611869557

1 online resource (141 p.)

612.846

Eye - Movements - Mathematical models

Control theory

Biomedical engineering

Inglese

Description based upon print version of record.

Includes bibliographical references (p. 113-123) and index.

Acknowledgements; Preface; Contents; Introduction; Basic Anatomy and Physiology of Eye Movements; Basic Measurement Terms; Basic Control System Concepts; Eye Movement Measurement Techniques; Static Analysis Techniques; Accommodation System; Vergence System; Linear Analysis of Relationship Between AC and ACG; Nonlinear Analysis of AC/A Using the Phoria and Fixation Disparity Methods; Proximal Model; Sensitivity Analysis of Accommodation and Vergence Interactions; Dynamic Analysis Techniques; Main Sequence; Accommodation System - Root Locus Analysis; Vergence Dual-Mode Dynamic Model

Accommodative Dual-Mode Dynamic CharacteristicsAdaptation Model of Accommodation and Vergence; Nearwork-Induced Transient Myopia (NITM) Model; Refractive Error Development Model; Saccade-Vergence Interactions Dynamic Model; Summary Remarks; References; Index

This monograph is a structured review of models of oculomotor control systems that is geared toward biomedical engineers, vision scientists, and optometry students. It aims to provide the biomedical engineer with a thorough understanding of how various engineering control principles are applied to oculomotor systems, and the non-engineer with knowledge of how various physiological and clinical concepts can be represented quantitatively and efficiently by control system models.

Basic control system concepts and oculomotor physiology are first introduced, along with a glossary, to provide backgro