Self-Organization, Emerging Properties, and Learning [E-Book] / edited by Agnessa Babloyantz
This volume contains the proceedings of the workshop held in March 1990 at Austin, Texas on Self-Organization, Emerging Properties and Learning. The workshop was co-sponsored by NATO Scientific Affairs Division, Solvay Institutes of Physics and Chemistry, the University of Texas at Austin and IC2 In...
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Full text |
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Personal Name(s): | Babloyantz, Agnessa, editor |
Imprint: |
Boston, MA :
Springer,
1991
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Physical Description: |
XIX, 300 p. online resource |
Note: |
englisch |
ISBN: |
9781461537786 |
DOI: |
10.1007/978-1-4615-3778-6 |
Series Title: |
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NATO ASI Series, Series B: Physics ;
260 |
Subject (LOC): |
- Spatio-Temporal Patterns and Network Computation
- Application of Synergetics to Pattern Information and Pattern Recognition
- Coupled Map Lattices : Abstract Dynamics and Models for Physical Systems
- The Self-Organized Phase Attractive Dynamics of Coordination
- Possible Neural Mechanisms of Feature Linking in the Visual System : Stimulus-Locked and Stimulus-Induced Synchronizations
- A Model for Synchronous Activity in the Visual Cortex
- Some Collective Phenomena in the Hippocampus In Vitro
- Information Theory and Early Visual Information Processing
- Deterministic Chaos in a Model of the Thalamo-cortical System
- Chaos and Information Processing: Multifractal Attractors Mediating Perception and Cognition
- Spontaneous Activity in a Large Neural Net: Between Chaos and Noise
- Neural Learning Algorithms and their Applications in Robotics
- Self-Organization of Spatial Representation and Arm Trajectory Controllers by Vector Associative Maps Energized by Cyclic Random Generators
- Neural Darwinism and Selective Recognition Automata: How Selection Shapes Perceptual Categories
- Asymptotic Behaviour of Neural Networks and Image Processing
- Entropy and Learning
- Molecular Evolution as a Complex Optimization Problem
- A Nonthermodynamic Formalism for Biological Information Systems: Hierarchical Lacunarity in Partition Size of Intermittency
- Collectively Self-Solving Problems
- Imitation, Learning, and Communication: Central or Polarized Patterns in Collective Actions
- Spectral Entropy as a Measure of Self-Organization in Transition Flows
- Contributors.