Uncertain Commuters Assignment Through Genetic Programming Hyper-Heuristic
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @Article{Liao:CSS,
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author = "Xiao-Cheng Liao and Ya-Hui Jia and Xiao-Min Hu and
Wei-Neng Chen",
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journal = "IEEE Transactions on Computational Social Systems",
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title = "Uncertain Commuters Assignment Through Genetic
Programming Hyper-Heuristic",
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year = "2024",
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volume = "11",
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number = "2",
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pages = "2606--2619",
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month = apr,
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note = "Early access",
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keywords = "genetic algorithms, genetic programming, Roads,
Transportation, Vehicle dynamics, Delays, Heuristic
algorithms, Real-time systems, Planning, routing,
traffic assignment",
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DOI = "doi:10.1109/TCSS.2023.3265727",
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ISSN = "2329-924X",
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abstract = "Traffic assignment problem (TAP) is of great
significance for promoting the development of smart
city and society. It usually focuses on the
deterministic or predictable traffic demand and the
vehicle traffic assignment. However, in the real world,
traffic demand is usually unpredictable, especially the
foot traffic assignment inside buildings such as
shopping malls and subway stations. In this work, we
consider the dynamic version of TAP, where uncertain
commuters keep entering the traffic network constantly.
These dynamically arriving commuters bring new
challenges to this problem where planning paths for
each commuter in advance is incompetent. To address
this problem, we propose a genetic programming (GP)
hyper-heuristic method to assign uncertain commuters in
real-time. Specifically, a low-level heuristic rule
called reactive assignment strategy (RAS) is proposed
and is evolved by the proposed method. All commuters
obey the same strategy to route themselves based on
their local observations in a traffic network. Through
training based on a designed heuristic template, all
commuters will have the ability to find their
appropriate paths in real-time to maximize the
throughput of the traffic network. This decentralized
control mechanism can address dynamically arriving
commuters more efficiently than centralized control
mechanisms. The experimental results show that our
method significantly outperforms the state-of-the-art
methods and the evolved RAS has a certain
generalisation ability.",
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notes = "Also known as \cite{10106053}",
- }
Genetic Programming entries for
Xiao-Cheng Liao
Ya-Hui Jia
Xiao-Min Hu
Wei-Neng Chen
Citations