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Artificial chemistries /Wolfgang Banzhaf and Lidia Yamamoto.

By: Contributor(s): Material type: TextTextPublication details: Cambridge, MA : The MIT Press, (c)2015.Description: 1 online resource (xv, 555 pages) : illustrations (some color)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9780262329460
  • 9780262329477
Subject(s): Genre/Form: LOC classification:
  • QD415 .A785 2015
Online resources: Available additional physical forms:
Contents:
Introduction -- Basic concepts of artificial chemistries -- The matrix chemistry as an example -- Computing chemical reaction -- II. Life and evolution -- The chemistry of life -- The essence of life -- Evolution -- Complexity and open-ended evolution -- III. Approaches to artificial chemistries -- Rewriting systems -- Automata and machines -- Bio-inspired artificial chemistries -- IV. Order construction -- The structure of organizations -- The dynamics of organizations -- Self-organization and emergent phenomena -- Constructive dynamical systems -- V. Applications -- Applications of artificial chemistries -- Computing with artificial chemistries -- Modeling biological systems -- Wet artificial chemistries -- Beyond chemistry and biology -- VI. Conclusions -- Summary and perspectives.
Subject: The field of Artificial life (ALife) is now firmly established in the scientific world, but it has yet to achieve one of its original goals: an understanding of the emergence of life on Earth. The new field of artificial chemistries draws from chemistry, biology, computer science, mathematics, and other disciplines to work toward that goal. For if, as it has been argued, life emerged from pirmitive, prebiotic forms of self-organizations, then studying models of chemical reaction systems could bring ALife closer to understanding the origins of life. In artificial chemistries (ACs), the emphasis is on creating new interactions rather than new materials. The results can be found in both the virtual world, in certain multiagent systems, and in the physical world, in new (artificial) reaction systems. This book offers an introduction to the fundamental concepts of ACs, covering both theory and practical applications. After a general overview of the field and its methodology, the book reviews important aspects of biology, including basic mechanisms of evolution; discusses examples of ACs drawn from the literature; considers fundamental questions of how surveys a range of applications, which include computing, systems modeling in biology, and synthetic life. An appendix provides a Python toolkit for implementing ACs. --
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Item type Current library Collection Call number URL Status Date due Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) G. Allen Fleece Library ONLINE Non-fiction QD415 (Browse shelf(Opens below)) Link to resource Available ocn913742479

Includes bibliographies and index.

I. Foundations -- Introduction -- Basic concepts of artificial chemistries -- The matrix chemistry as an example -- Computing chemical reaction -- II. Life and evolution -- The chemistry of life -- The essence of life -- Evolution -- Complexity and open-ended evolution -- III. Approaches to artificial chemistries -- Rewriting systems -- Automata and machines -- Bio-inspired artificial chemistries -- IV. Order construction -- The structure of organizations -- The dynamics of organizations -- Self-organization and emergent phenomena -- Constructive dynamical systems -- V. Applications -- Applications of artificial chemistries -- Computing with artificial chemistries -- Modeling biological systems -- Wet artificial chemistries -- Beyond chemistry and biology -- VI. Conclusions -- Summary and perspectives.

The field of Artificial life (ALife) is now firmly established in the scientific world, but it has yet to achieve one of its original goals: an understanding of the emergence of life on Earth. The new field of artificial chemistries draws from chemistry, biology, computer science, mathematics, and other disciplines to work toward that goal. For if, as it has been argued, life emerged from pirmitive, prebiotic forms of self-organizations, then studying models of chemical reaction systems could bring ALife closer to understanding the origins of life. In artificial chemistries (ACs), the emphasis is on creating new interactions rather than new materials. The results can be found in both the virtual world, in certain multiagent systems, and in the physical world, in new (artificial) reaction systems. This book offers an introduction to the fundamental concepts of ACs, covering both theory and practical applications. After a general overview of the field and its methodology, the book reviews important aspects of biology, including basic mechanisms of evolution; discusses examples of ACs drawn from the literature; considers fundamental questions of how surveys a range of applications, which include computing, systems modeling in biology, and synthetic life. An appendix provides a Python toolkit for implementing ACs. --

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