Evolvable Systems: From Biology to Hardware : Second International Conference, ICES 98 Lausanne, Switzerland, September 23-25, 1998 Proceedings / edited by Moshe Sipper, Daniel Mange, Andres Perez-Uribe.

Format:

Book

Contributor:

Sipper, Moshe, editor.

Mange, Daniel, 1940- editor.

Pérez-Uribe, Andrés, editor.

SpringerLink (Online service)

Series:

Computer Science (Springer-11645)

Lecture notes in computer science 0302-9743 ; 1478.

Lecture Notes in Computer Science, 0302-9743 ; 1478

Language:

English

Subjects (All):

Computer architecture.

Artificial intelligence.

Logic design.

Computers.

Computer simulation.

Bioinformatics.

Computational biology.

Computer System Implementation.

Artificial Intelligence.

Logic Design.

Computation by Abstract Devices.

Simulation and Modeling.

Computer Appl. in Life Sciences.

Local Subjects:

Computer System Implementation.

Artificial Intelligence.

Logic Design.

Computation by Abstract Devices.

Simulation and Modeling.

Computer Appl. in Life Sciences.

Physical Description:

1 online resource (IX, 382 pages) : 139 illustrations.

Edition:

First edition 1998.

Contained In:

Springer eBooks

Place of Publication:

Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 1998.

System Details:

text file PDF

Summary:

This book constitutes the refereed proceedings of the Second International Conference on Evolvable Systems: From Biology to Hardware, ICES '98, held in Lausanne, Switzerland in September 1998. The 38 revised papers presented were carefully selected for inclusion in the book from numerous submissions. The papers are organized in topical sections on evaluation of digital systems, evolution of analog systems, embryonic electronics, bio-inspired systems, artifical neural networks, adaptive robotics, adaptive hardware platforms, and molecular computing.

Contents:

A gate-level EHW chip: Implementing GA operations and reconfigurable hardware on a single LSI

On the automatic design of robust electronics through artificial evolution

Aspects of digital evolution: Geometry and learning

Evolutionary design of hashing function circuits using an FPGA

A new research tool for intrinsic hardware evolution

A divide-and-conquer approach to Evolvable Hardware

Evolution of astable multivibrators in silico

Some aspects of an evolvable hardware approach for multiple-valued combinational circuit design

Adaptation in co-evolving non-uniform cellular automata

Synthesis of synchronous sequential logic circuits from partial input/output sequences

Data compression for digital color electrophotographic printer with Evolvable Hardware

Comparison of evolutionary methods for smoother evolution

Automated analog circuit synthesis using a linear representation

Analogue EHW chip for intermediate frequency filters

Intrinsic circuit evolution using programmable analogue arrays

Analog circuits evolution in extrinsic and intrinsic modes

Evolvable hardware for space applications

Embryonics: A macroscopic view of the cellular architecture

Embryonics: A microscopic view of the molecular architecture

Modeling cellular development using L-systems

MUXTREE revisited: Embryonics as a reconfiguration strategy in fault-tolerant processor arrays

Building complex systems using developmental process: An engineering approach

Evolving batlike pinnae for target localisation by an echolocator

A biologically inspired object tracking system

The "modeling clay" approach to bio-inspired electronic hardware

A "Spike Interval Information Coding" representation for ATR's CAM-Brain Machine (CBM)

Learning in genetic algorithms

Back-propagation learning of autonomous behavior: A mobile robot Khepera took a lesson from the future consequences

SPIKE_4096: A neural integrated circuit for image segmentation

Analysis of the scenery perceived by a real mobile robot Khepera

Evolution of a control architecture for a mobile robot

Field programmable processor arrays

General purpose computer architecture based on fully programmable logic

Palmo: Field programmable analogue and mixed-signal VLSI for evolvable hardware

Feasible evolutionary and self-repairing hardware by means of the dynamic reconfiguration capabilities of the FIPSOC devices

Fault tolerance of a large-scale MIMD architecture using a genetic algorithm

Hardware evolution with a massively parallel dynamicaly reconfigurable computer: POLYP

Molecular inference via unidirectional chemical reactions.

Other Format:

Printed edition:

ISBN:

978-3-540-49916-9

9783540499169

Access Restriction:

Restricted for use by site license.