| Authors: |
Kisung Seo
and Erik D. Goodman
and Ronald C. Rosenberg
|
| Editors: |
Hans-Georg Beyer
and Una-May O'Reilly
and Dirk V. Arnold
and Wolfgang Banzhaf
and Christian Blum
and Eric W. Bonabeau
and Erick Cantu-Paz
and Dipankar Dasgupta
and Kalyanmoy Deb
and James A. Foster
and Edwin D. {de Jong}
and Hod Lipson
and Xavier Llora
and Spiros Mancoridis
and Martin Pelikan
and Guenther R. Raidl
and Terence Soule
and Andy M. Tyrrell
and Jean-Paul Watson
and Eckart Zitzler
|
| URL: |
http://doi.acm.org/10.1145/1068009.1068381 |
| Tags: |
Applications,
Poster,
Real
World
air
algorithms,
automated
bond
design
design,
genetic
graph,
programming,
pump,
|
| Abstract: |
a redesign method for an air pump system using bond
graphs and genetic programming to maximise outflow
subject to a constraint specifying maximum power
consumption. The redesign process can alter the
topological connections among components and can
introduce additional components. The air pump system is
a mixed-domain system that includes electromagnetic,
mechanical and pneumatic elements. Bond graphs are
domain independent, allow free composition, and are
efficient for classification and analysis of models.
Genetic programming is well recognised as a powerful
tool for open ended search. The combination of these
two powerful methods, BG/GP, was applied for redesign
of an air pump system. |
@inproceedings{1068381,
title = {Design of air pump system using bond graph and genetic
programming method},
address = {Washington DC, USA},
author = {Kisung Seo and Erik D. Goodman and Ronald C. Rosenberg},
booktitle = {{GECCO 2005}: Proceedings of the 2005 conference on
Genetic and evolutionary computation},
editor = {Hans-Georg Beyer and Una-May O'Reilly and Dirk V. Arnold and Wolfgang Banzhaf and Christian Blum and Eric W. Bonabeau and Erick Cantu-Paz and Dipankar Dasgupta and Kalyanmoy Deb and James A. Foster and Edwin D. {de
Jong} and Hod Lipson and Xavier Llora and Spiros Mancoridis and Martin Pelikan and Guenther R. Raidl and Terence Soule and Andy M. Tyrrell and Jean-Paul Watson and Eckart Zitzler},
month = {25-29 June},
pages = {2215--2216},
publisher = {ACM Press},
url = {http://doi.acm.org/10.1145/1068009.1068381},
volume = {2},
year = {2005},
abstract = {a redesign method for an air pump system using bond
graphs and genetic programming to maximise outflow
subject to a constraint specifying maximum power
consumption. The redesign process can alter the
topological connections among components and can
introduce additional components. The air pump system is
a mixed-domain system that includes electromagnetic,
mechanical and pneumatic elements. Bond graphs are
domain independent, allow free composition, and are
efficient for classification and analysis of models.
Genetic programming is well recognised as a powerful
tool for open ended search. The combination of these
two powerful methods, BG/GP, was applied for redesign
of an air pump system.},
organisation = {ACM SIGEVO (formerly ISGEC)}, publisher_address = {New York, NY, 10286-1405, USA}, isbn = {1-59593-010-8}, notes = {GECCO-2005 A joint meeting of the fourteenth
international conference on genetic algorithms
(ICGA-2005) and the tenth annual genetic programming
conference (GP-2005).
ACM Order Number 910052
Embryo supplied by (human) designer},
keywords = {Applications, Poster, Real World air algorithms, automated bond design design, genetic graph, programming, pump, }
}
::