Adaptive charting genetic programming for dynamic flexible job shop scheduling
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @InProceedings{Nguyen:2018:GECCOb,
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author = "Su Nguyen and Mengjie Zhang and Kay Chen Tan",
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title = "Adaptive charting genetic programming for dynamic
flexible job shop scheduling",
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booktitle = "GECCO '18: Proceedings of the Genetic and Evolutionary
Computation Conference",
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year = "2018",
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editor = "Hernan Aguirre and Keiki Takadama and
Hisashi Handa and Arnaud Liefooghe and Tomohiro Yoshikawa and
Andrew M. Sutton and Satoshi Ono and Francisco Chicano and
Shinichi Shirakawa and Zdenek Vasicek and
Roderich Gross and Andries Engelbrecht and Emma Hart and
Sebastian Risi and Ekart Aniko and Julian Togelius and
Sebastien Verel and Christian Blum and Will Browne and
Yusuke Nojima and Tea Tusar and Qingfu Zhang and
Nikolaus Hansen and Jose Antonio Lozano and
Dirk Thierens and Tian-Li Yu and Juergen Branke and
Yaochu Jin and Sara Silva and Hitoshi Iba and
Anna I Esparcia-Alcazar and Thomas Bartz-Beielstein and
Federica Sarro and Giuliano Antoniol and Anne Auger and
Per Kristian Lehre",
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isbn13 = "978-1-4503-5618-3",
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pages = "1159--1166",
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address = "Kyoto, Japan",
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DOI = "doi:10.1145/3205455.3205531",
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publisher = "ACM",
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publisher_address = "New York, NY, USA",
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month = "15-19 " # jul,
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organisation = "SIGEVO",
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keywords = "genetic algorithms, genetic programming",
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abstract = "Genetic programming has been considered as a powerful
approach to automated design of production scheduling
heuristics in recent years. Flexible and variable
representations allow genetic programming to discover
very competitive scheduling heuristics to cope with a
wide range of dynamic production environments. However,
evolving sophisticated heuristics to handle multiple
scheduling decisions can greatly increase the search
space and poses a great challenge for genetic
programming. To tackle this challenge, a new genetic
programming algorithm is proposed to incrementally
construct the map of explored areas in the search space
and adaptively guide the search towards potential
heuristics. In the proposed algorithm, growing neural
gas and principal component analysis are applied to
efficiently generate and update the map of explored
areas based on the phenotypic characteristics of
evolved heuristics. Based on the obtained map, a
surrogate assisted model will help genetic programming
determine which heuristics to be explored in the next
generation. When applied to evolve scheduling
heuristics for dynamic flexible job shop scheduling
problems, the proposed algorithm shows superior
performance as compared to the standard genetic
programming algorithm. The analyses also show that the
proposed algorithm can balance its exploration and
exploitation better than the existing
surrogate-assisted algorithm.",
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notes = "Also known as \cite{3205531} GECCO-2018 A
Recombination of the 27th International Conference on
Genetic Algorithms (ICGA-2018) and the 23rd Annual
Genetic Programming Conference (GP-2018)",
- }
Genetic Programming entries for
Su Nguyen
Mengjie Zhang
Kay Chen Tan
Citations