| Preface |
| Vision, Brain and Cooperative Computation: An Overview |
| Visual Neurophysiology / I: |
| Why Visuomotor Systems Don't Like Negative Feedback and How They Avoid It / 1: |
| The Role of the Primate Superior Colliculus in Sensorimotor Integration / 2: |
| Depth and Detours: An Essay on Visually Guided Behavior / 3: |
| A Trace of Memory: An Evolutionary Perspective on the Visual System / 4: |
| Visual Psychophysics / II: |
| Visual Analysis during Motion / 5: |
| Figure-Ground Organization Affects the Early Visual Processing of Information / 6: |
| The Diversity of Perceptual Grouping / 7: |
| The Interdependence of Temporal and Spatial Information in Early Vision / 8: |
| Machine Vision and Robotics / III: |
| A Methodology for the Development of General Knowledge-Based Vision Systems / 9: |
| An Extremum Principle for Shape from Contour / 10: |
| Representational Axes and Temporal Cooperative Processes / 11: |
| Computational Techniques in Motion Processing / 12: |
| Schemas That Integrate Vision and Touch for Hand Control / 13: |
| Robot Tactile Sensing and Schema Control / 14: |
| Connectionism and Cooperative Computation / IV: |
| A Functional Model of Vision and Space / 15: |
| Cortical Connections and Parallel Processing: Structure and Function / 16: |
| Visual-Cognitive Neuronal Networks / 17: |
| An Approach to Learning Control Surfaces by Connectionist Systems / 18: |
| Separating Figure from Ground with a Boltzmann Machine / 19: |
| List of Contributors |
| Index |
| Preface |
| Vision, Brain and Cooperative Computation: An Overview |
| Visual Neurophysiology / I: |
| Why Visuomotor Systems Don't Like Negative Feedback and How They Avoid It / 1: |
| The Role of the Primate Superior Colliculus in Sensorimotor Integration / 2: |
| Depth and Detours: An Essay on Visually Guided Behavior / 3: |
