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Autori principali: Shikanai, Reo, Ohzeki, Masayuki, Tanaka, Kazuyuki
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2308.14462
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author Shikanai, Reo
Ohzeki, Masayuki
Tanaka, Kazuyuki
author_facet Shikanai, Reo
Ohzeki, Masayuki
Tanaka, Kazuyuki
contents The D-Wave quantum annealing machine can quickly find the optimal solution for quadratic unconstrained binary optimization (QUBO). One of the applications where the use of quantum annealing is desired is in problems requiring rapid calculations. One such application is the traffic signal optimization. Several studies have used quantum annealing; however, they are formulated in relatively unrealistic settings, such as only crossroads on a map. We propose a different formulation of QUBO that can also deal with T-junctions and multi-forked roads. The simulation of urban mobility (SUMO) was used to validate the efficiency of our approach and verify the feasibility of real-time control using geographical information data that were very similar to the real world. Our model could reduce the waiting time at red lights for vehicles. In addition, we compared our results with those of the Gurobi Optimizer to confirm whether the D-Wave machine could find the ground state. Unfortunately, our results show that the D-Wave machine could not find the optimal solution and was slower than the Gurobi Optimizer in computation time.
format Preprint
id arxiv_https___arxiv_org_abs_2308_14462
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Quadratic Unconstrained Binary Formulation for Traffic Signal Optimization on Real-World Maps
Shikanai, Reo
Ohzeki, Masayuki
Tanaka, Kazuyuki
Quantum Physics
The D-Wave quantum annealing machine can quickly find the optimal solution for quadratic unconstrained binary optimization (QUBO). One of the applications where the use of quantum annealing is desired is in problems requiring rapid calculations. One such application is the traffic signal optimization. Several studies have used quantum annealing; however, they are formulated in relatively unrealistic settings, such as only crossroads on a map. We propose a different formulation of QUBO that can also deal with T-junctions and multi-forked roads. The simulation of urban mobility (SUMO) was used to validate the efficiency of our approach and verify the feasibility of real-time control using geographical information data that were very similar to the real world. Our model could reduce the waiting time at red lights for vehicles. In addition, we compared our results with those of the Gurobi Optimizer to confirm whether the D-Wave machine could find the ground state. Unfortunately, our results show that the D-Wave machine could not find the optimal solution and was slower than the Gurobi Optimizer in computation time.
title Quadratic Unconstrained Binary Formulation for Traffic Signal Optimization on Real-World Maps
topic Quantum Physics
url https://arxiv.org/abs/2308.14462