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Enaction, Embodiment, Evolutionary Robotics: Simulation Models for a Post-Cognitivist Science of Mind (Atlantis Thinking Machines) Hardcover - 2010
by Rohde, Marieke
- Used
- Good
- Hardcover
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Details
- Title Enaction, Embodiment, Evolutionary Robotics: Simulation Models for a Post-Cognitivist Science of Mind (Atlantis Thinking Machines)
- Author Rohde, Marieke
- Binding Hardcover
- Condition Used - Good
- Pages 264
- Volumes 1
- Language ENG
- Publisher Atlantis Press / World Scientific
- Date 2010-03
- Illustrated Yes
- Features Bibliography, Illustrated, Index
- Bookseller's Inventory # 9078677236.G
- ISBN 9789078677239 / 9078677236
- Weight 1.5 lbs (0.68 kg)
- Dimensions 9.8 x 6.7 x 0.7 in (24.89 x 17.02 x 1.78 cm)
-
Themes
- Aspects (Academic): Science/Technology Aspects
- Library of Congress subjects Cognitive neuroscience - Computer simulation, Evolutionary robotics - Computer simulation
- Library of Congress Catalog Number 2011377231
- Dewey Decimal Code 629.892
From the jacket flap
The book "Enaction, Embodiment, Evolutionary Robotics" proposes how a particular kind of simulation model, i.e. Evolutionary Robotics simulations, can help to solve several problems in Cognitive Science. Examples discussed in the book ranges from motor control, neuroscientific theory, social contingency and time perception. It is argued that methodological minimalism can be a merit, not a shortcoming, even when studying something as complex as the human mind. The book concludes by proposing a new minimalist interdisciplinary framework for the study of perception, combining simulation modeling, experimental methods and accounts of subjective experience.
This book endorses an enactive and constructivist view on the human mind, in opposition to the traditional information-processing view. Furthermore, the book discusses and presents the enactive approach, clarifies the assets of this view and how it differs from other proposed alternatives to the computationalist paradigm in AI and Cognitive Science, crucial and missing in the ongoing "embodied turn." The book also presents new experimental results on a number of topics and points out connections between them. Finally, the book proposes a novel framework for the study of perception that combines a number of methods, including computational modeling, in a previously unseen and promising way.
