1.

Record Nr.

UNINA9910144148603321

Titolo

Advances in artificial life : 5th European Conference, ECAL'99, Lausanne, Switzerland, September 13-17, 1999 : proceedings / / Dario Floreano, Jean-Daniel Nicoud, Francesco Mondada

Pubbl/distr/stampa

Berlin ; ; Heidelberg : , : Springer, , [1999]

©1999

ISBN

3-540-48304-7

Edizione

[1st ed. 1999.]

Descrizione fisica

1 online resource (XVIII, 742 p.)

Collana

Lecture Notes in Artificial Intelligence ; ; 1674

Disciplina

570.113

Soggetti

Biological systems - Computer simulation

Biological systems - Simulation methods

Robotics

Artificial intelligence

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Includes 1 sheet errata.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Keynote Lectures -- Epistemology -- Evolutionary Dynamics -- Evolutionary Cybernetics -- Bio-inspired Robotics and Autonomous Agents -- Self-Replication, Self-Maintenance, and Gene Expression -- Societies and Collective Behaviour -- Communication and Language.

Sommario/riassunto

No matter what your perspective is, what your goals are, or how experienced you are, Artificial Life research is always a learning experience. The variety of phe­ nomena that the people who gathered in Lausanne reported and discussed for the fifth time since 1991 at the European Conference on Artificial Life (ECAL) has not been programmed, crafted, or assembled by analytic design. It has evolved, emerged, or appeared spontaneously from a process of artificial evolution, se- organisation, or development. Artificial Life is a field where biological and artificial sciences meet and blend together, where the dynamics of biological life are reproduced in the memory of computers, where machines evolve, behave, and communicate like living organ­ isms, where complex life-like entities are synthesised from electronic chromo­ somes and artificial chemistries. The impact of Artificial Life in science, phi­ losophy, and technology is



tremendous. Over the years the synthetic approach has established itself as a powerful method for investigating several complex phenomena of life. From a philosophical standpoint, the notion of life and of in­ telligence is continuously reformulated in relation to the dynamics of the system under observation and to the embedding environment, no longer a privilege of carbon-based entities with brains and eyes. At the same time, the possibility of engineering machines and software with life-like properties such as evolvability, self-repair, and self-maintainance is gradually becoming reality, bringing new perspectives in engineering and applications.