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A Simulation-Based Optimization Algorithm for Dynamic Large-Scale Urban Transportation Problems
by
Osorio, Carolina
, Chong, Linsen
in
Algorithms
/ Analysis
/ Computer simulation
/ Mathematical optimization
/ metamodel
/ Optimization algorithms
/ Route optimization
/ Simulation
/ simulation-based optimization
/ transient queueing theory
/ Transportation problem (Operations research)
/ Urban areas
/ Urban transportation
2018
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A Simulation-Based Optimization Algorithm for Dynamic Large-Scale Urban Transportation Problems
by
Osorio, Carolina
, Chong, Linsen
in
Algorithms
/ Analysis
/ Computer simulation
/ Mathematical optimization
/ metamodel
/ Optimization algorithms
/ Route optimization
/ Simulation
/ simulation-based optimization
/ transient queueing theory
/ Transportation problem (Operations research)
/ Urban areas
/ Urban transportation
2018
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Do you wish to request the book?
A Simulation-Based Optimization Algorithm for Dynamic Large-Scale Urban Transportation Problems
by
Osorio, Carolina
, Chong, Linsen
in
Algorithms
/ Analysis
/ Computer simulation
/ Mathematical optimization
/ metamodel
/ Optimization algorithms
/ Route optimization
/ Simulation
/ simulation-based optimization
/ transient queueing theory
/ Transportation problem (Operations research)
/ Urban areas
/ Urban transportation
2018
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A Simulation-Based Optimization Algorithm for Dynamic Large-Scale Urban Transportation Problems
Journal Article
A Simulation-Based Optimization Algorithm for Dynamic Large-Scale Urban Transportation Problems
2018
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Overview
This paper addresses large-scale urban transportation optimization problems with time-dependent continuous decision variables, a stochastic simulation-based objective function, and general analytical differentiable constraints. We propose a metamodel approach to address, in a computationally efficient way, these large-scale dynamic simulation-based optimization problems. We formulate an analytical dynamic network model that is used as part of the metamodel. The network model formulation combines ideas from transient queueing theory and traffic flow theory. The model is formulated as a system of equations. The model complexity is linear in the number of road links and is independent of the link space capacities. This makes it a scalable model suitable for the analysis of large-scale problems. The proposed dynamic metamodel approach is used to address a time-dependent large-scale traffic signal control problem for the city of Lausanne. Its performance is compared to that of a stationary metamodel approach. The proposed approach outperforms the stationary approach. This comparison illustrates the added value of providing the algorithm with analytical dynamic problem-specific structural information. The performance of a signal plan derived by the proposed approach is also compared to that of an existing signal plan for the city of Lausanne, and to that of a signal plan derived by a mainstream commercial signal control software. The proposed method can systematically identify signal plans with good performance.
The online appendix is available at
https://doi.org/10.1287/trsc.2016.0717
.
Publisher
INFORMS,Institute for Operations Research and the Management Sciences
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