
Cognitive Phase Transitions in the Cerebral Cortex - Enhancing the Neuron Doctrine by Modeling Neural Fields
Kurzinformation



inkl. MwSt. Versandinformationen
Artikel zZt. nicht lieferbar
Artikel zZt. nicht lieferbar

Beschreibung
This intriguing book was born out of the many discussions the authors had in the past 10 years about the role of scale-free structure and dynamics in producing intelligent behavior in brains. The microscopic dynamics of neural networks is well described by the prevailing paradigm based in a narrow interpretation of the neuron doctrine. This book broadens the doctrine by incorporating the dynamics of neural fields, as first revealed by modeling with differential equations (K-sets). The book broadens that approach by application of random graph theory (neuropercolation). The book concludes with diverse commentaries that exemplify the wide range of mathematical/conceptual approaches to neural fields. This book is intended for researchers, postdocs, and graduate students, who see the limitations of network theory and seek a beachhead from which to embark on mesoscopic and macroscopic neurodynamics. von Kozma, Robert und Freeman, Walter J.
Produktdetails

So garantieren wir Dir zu jeder Zeit Premiumqualität.
Über den Autor
- paperback
- 287 Seiten
- Erschienen 2023
- Independently published
- hardcover
- 486 Seiten
- Erschienen 1998
- Harvard University Press
- hardcover
- 120 Seiten
- Thieme
- hardcover
- 289 Seiten
- Erschienen 2012
- MIT Press
- Kartoniert
- 584 Seiten
- Erschienen 2016
- -
- Gebunden
- 2264 Seiten
- Erschienen 2012
- Springer
- hardcover
- 399 Seiten
- Erschienen 2009
- Springer
- paperback -
- Erschienen 1982
- Thieme
- Hardcover
- 299 Seiten
- Erschienen 2006
- Thieme
- Gebunden
- 278 Seiten
- Erschienen 2014
- Humana