Kozma, Robert
Neurodynamics of Cognition and Consciousness
1. Neurodynamics of Cognition and Consciousness
Leonid I. Perlovsky, Robert Kozma
Part I. Neurocognition and Human Consciousness
2. Proposed Cortical “Shutter” Mechanism in Cinematographic Perception
Walter J. Freeman
3. Toward a Complementary Neuroscience: Metastable Coordination Dynamics of the Brain
J. A. Scott Kelso, Emmanuelle Tognoli
4. The Formation of Global Neurocognitive State
Steven L. Bressler
5. Neural Dynamic Logic of Consciousness: the Knowledge Instinct
Leonid I. Perlovsky
6. Using ADP to Understand and Replicate Brain Intelligence: The Next Level Design?
Paul J. Werbos
7. Neurodynamics of Intentional Behavior Generation
Robert Kozma
8. How Does the Brain Create, Change, and Selectively Override its Rules of Conduct?
Daniel S. Levine
Part II. Cognitive Computing for Sensory Perception
9. Shape Recognition Through Dynamic Motor Representations
Navendu Misra, Yoonsuck Choe
10. A Biologically Inspired Dynamic Model for Object Recognition
Khan M. Iftekharuddin, Yaqin Li, Faraz Siddiqui
11. A Brain-Inspired Model for Recognizing Human Emotional States from Facial Expression
Jia-Jun Wong, Siu Yeung Cho
12. Engineering Applications of Olfactory Model from Pattern Recognition to Artificial Olfaction
Guang Li, Jin Zhang, Walter J. Freeman
13. Recursive Nodes with Rich Dynamics as Modeling Tools for Cognitive Functions
Emilio Del-Moral-Hernandez
14. Giving Meaning to Cycles to Go Beyond the Limitations of Fixed Point Attractors
Colin Molter, Utku Salihoglu, Hugues Bersini
15. Complex Biological Memory Conceptualized as an Abstract Communication System–Human Long Term Memories Grow in Complexity during Sleep and Undergo Selection while Awake
Bruce G. Charlton, Peter Andras
16. Nonlinear High-Order Model for Dynamic Synapse with Multiple Vesicle Pools
Bing Lu, Walter M. Yamada, Theodore W. Berger
Keywords: Engineering, Appl.Mathematics/Computational Methods of Engineering, Complexity, Artificial Intelligence (incl. Robotics)
- Author(s)
- Kozma, Robert
- Perlovsky, Leonid I.
- Publisher
- Springer
- Publication year
- 2007
- Language
- en
- Edition
- 1
- Series
- Understanding Complex Systems
- Page amount
- 377 pages
- Category
- Technology, Energy, Traffic
- Format
- Ebook
- eISBN (PDF)
- 9783540732679