Evolving a "Nose" for a Robot (2000) [2 citations — 1 self]

Download:
http://ls11-www.informatik.uni-dortmund.de/people/
CACHED:

by Jens Ziegler , Wolfgang Banzhaf

In Workshop Proceedings of the Genetic and Evolutionary Computation Conference (GECCO-2000

Add To MetaCart

Popular Tags

No tags have been applied to this document.

BibTeX | Add To MetaCart

@INPROCEEDINGS{Ziegler00evolvinga,
    author = {Jens Ziegler and Wolfgang Banzhaf},
    title = {Evolving a "Nose" for a Robot},
    booktitle = {In Workshop Proceedings of the Genetic and Evolutionary Computation Conference (GECCO-2000},
    year = {2000},
    publisher = {Morgan Kaufmann}
}

Bookmarks

OpenURL

Abstract:

The evolution of metabolisms that act as control programms for a small robot leads to the selection of most relevant sensory information. The underlying artificial chemistry evolves efficient information processing pathways with most benefit for the desired task, robot navigation. The results show certain relations to biological systems like motile bacteria.

Citations

206	Genetic Programming : An Introduction : On the Automatic Evolution of Computer Programs and Its Applications – Banzhaf, Nordin, et al. - 1998
67	Algorithmic chemistry – Fontana - 1991
46	Spontaneous Emergence of a Metabolism – Bagley, Farmer - 1991
43	Emergent Computation – Forrest - 1991
42	Emergent Computation: Self-Organizing, Collective, and Cooperative Computing Networks – Forrest - 1990
27	Coherent behavior from many adaptive processes – Brooks - 1994
26	Evolution of a metabolism – Bagley, Farmer, et al. - 1992
23	The “molecular” traveling salesman – Banzhaf - 1990
23	Chemical implementation of neural networks and Turing machines – Hjelmfelt, Weinberger, et al. - 1991
19	Computational Functions in Biochemical Reaction Networks, Biophys – Arkin, Ross - 1994
18	Evolving robot behaviours with diffusing gas networks – Husbands - 1998
15	Emergent computation by catalytic reactions – Banzhaf, Dittrich, et al. - 1996
14	Computational metabolism: Towards biological geometries for computing – Lugowski - 1989
11	Evolving catalytic reaction sets using genetic algorithms – Lohn, Colombano, et al. - 1998
10	Einfuhrung in evolutionare Algorithmen – Nissen - 1997
9	Interconnection-free biomolecular computing – Aoki, Kameyama, et al. - 1992
9	Development of evolution of neural networks in an artificial chemistry – Astor, Adami - 1998
9	A computational architecture based on cellular processing – Shackleton, Winter - 1998
8	Conformation-driven computing: A comparison of designs based – Conrad, Zauner - 1998
7	Conformation-driven computing: Simulating the contextconformation-action loop. Supramolecular Science – Zauner, Conrad - 1998
6	Molecular computing: The key-lock paradigm – Conrad - 1992
6	Simulating the interplay of structure, kinetics, and dynamics in complex biochemical networks – Zauner, Conrad - 1996
5	Edges and computation in excitable media – Adamatzky, Holland - 1998
5	Information processing of neural network system composed of 'biochemical neuron': Recognition of pattern similarity in time-variant external analog signals – Okamoto, Tanaka, et al. - 1995
4	Wet artificial brains: Towards the chemical control of robot motion by reaction-diffusion and exitable media – Adamatzky, Holland, et al. - 1999
4	Molecular image-processing devices based on chemical reaction systems. 6. processing half-tone images and neural network architecture of excitable media. Advanced Materials for Optics and Electronics – Rambidi, Maximychev - 1997
4	Towards a metabolic robot control system – Ziegler, Dittrich, et al. - 1998
3	Computational metabolism – Lugowski - 1986
3	Does e. coli have a nose – Parkinson, Blair - 1993
1	Information-processingcapabilities of chemical reaction-diffusion systems. i. belousov-zhabotinsky media in hydrogel matrices and on solid support. Advanced Materials for Optics and Electronics – Rambidi, Kuular, et al. - 1999

View or Download | Add to My Collection | Correct Errors