| General Introduction | |
| The Mechanical Mind | p. 5 |
| Esthetic Analysis of Works of Art | p. 15 |
| More is Different | p. 21 |
| What is Computational Neuroscience? | p. 25 |
| Life, Thermodynamics, and Cybernetics | p. 37 |
| Physics, Biological Computation, and Complementarity | p. 52 |
| Evolution and Tinkering | p. 72 |
| Physics and Antiphysics | p. 78 |
| Manifesto of Brain Science | p. 82 |
| The Logical Structure of the Nervous System; Nature of the System of Notations Employed: Not Digital But Statistical; The Language of the Brain Not the Language of Mathematics | p. 89 |
| Probability, Philosophy and Science: A Briefing for Bayesians | p. 98 |
| Two Revolutions - Cognitive and Probabilistic; Is the Mind a Bayesian? | p. 108 |
| Perception | p. 125 |
| Understanding Images in the Brain | p. 136 |
| Concerning Imagery | p. 168 |
| Mental Rotation of Three-Dimensional Objects | p. 180 |
| Mental Rotation of the Neuronal Population Vector | p. 183 |
| Whatever Happened to Information Theory? | p. 188 |
| Some Informational Aspects of Visual Perception | p. 196 |
| The Magical Number Seven, Plus or Minus Two: Some Limits on Our Capacity for Processing Information | p. 207 |
| Single Units and Sensation: A Neuron Doctrine for Perceptual Psychology? | p. 224 |
| Conditions for Versatile Learning, Helmholtz's Unconscious Inference, and the Task of Perception | p. 248 |
| Reading the Structure of Brains | p. 260 |
| Axonal Trees and Cortical Architecture | p. 271 |
| Antibodies and Learning; Selection Versus Instruction | p. 278 |
| Early Vision and Focal Attention | p. 284 |
| Neuropsychology and the Nature of Consciousness | p. 322 |
| Collective Processing and Neural States | p. 341 |
| The Space of Interactions in Neural Network Models | p. 361 |
| Optimization by Simulated Annealing | p. 376 |
| An Analogue Approach to the Travelling Salesman Problem using an Elastic Net Method | p. 386 |
| Large Automatic Learning, Rule Extraction, and Generalization | p. 391 |
| Confronting Neural Network and Human Behavior in a Quasiregular Environment | p. 437 |
| Statistical Mechanics of Learning from Examples | p. 447 |
| On the Classification of Learning Machines | p. 483 |
| Perceptual Neural Organization: Some Approaches Based on Network Models and Information Theory | p. 492 |
| An Information-Theoretic View of Analog Representation in Striate Cortex | p. 517 |
| What Does the Retina Know About Natural Scenes? | p. 538 |
| Finding Minimum Entropy Codes | p. 554 |
| Reading a Neural Code | p. 566 |
| Spike Arrival Times: A Highly Efficient Coding Scheme for Neural Networks | p. 570 |
| Deciphering the Brain's Codes | p. 578 |
| Segregation of Form, Color, Movement, and Depth: Anatomy, Physiology, and Perception | p. 596 |
| Separate Visual Pathways for Perception and Action | p. 606 |
| Behavioral Neurophysiology: Insights into Seeing and Grasping | p. 612 |
| A Back-Propagation Programmed Network that Simulates Response Properties of a Subset of Posterior Parietal Neurons | p. 618 |
| Neuronal Correlates of a Perceptual Decision | p. 625 |
| Subjective Contours - Bridging the Gap Between Psychophysics and Physiology | p. 627 |
| Reciprocal Links of the Corpus Striatum with the Cerebral Cortex and Limbic System: A Common Substrate for Movement and Thought? | p. 636 |
| The Cerebellar Network. Attempt at a Formalization of Its Structure | p. 657 |
| Hippocampal Synaptic Enhancement and Information Storage Within a Distributed Memory System | p. 665 |
| The Updating of the Representation of Visual Space in Parietal Cortex by Intended Eye Movements | p. 675 |
| On Listing's Law | p. 678 |
| Two- Rather Than Three-Dimensional Representation of Saccades in Monkey Superior Colliculus | p. 686 |
| Temporal Coding in the Visual Cortex: New Vistas on Integration in the Nervous System | p. 690 |
| Opening the Grey Box | p. 702 |
| In Defence of Single Electrode Recordings | p. 710 |
| Function of the Thalamic Reticular Complex: The Searchlight Hypothesis | p. 718 |
| Functions of Neural Networks in the Hippocampus and Neocortex in Memory | p. 723 |
| The Brain Binds Entities and Events by Multiregional Activation from Convergence Zones | p. 749 |
| On the Computational Architecture of the Neocortex: I - The Role of the Thalamo-Cortical Loop | p. 759 |
| On the Computational Architecture of the Neocortex: II - The Role of the Cortico-Cortical Loops | p. 770 |
| Shifter Circuits: A Computational Strategy for Dynamic Aspects of Visual Processing | p. 783 |
| Olfactory Computation and Object Perception | p. 788 |
| A Theory of How the Brain Might Work | p. 793 |
| Intelligence, Guesswork, Language | p. 806 |
| The Biological Role of Consciousness | p. 817 |
| The Problem of Consciousness and Introspection | p. 831 |
| Index | p. 847 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
