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Main Authors: Oberg, Lachlan, Corry, Paul, Ghadimi, Moji, Bhaskar, Ashish
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.11572
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author Oberg, Lachlan
Corry, Paul
Ghadimi, Moji
Bhaskar, Ashish
author_facet Oberg, Lachlan
Corry, Paul
Ghadimi, Moji
Bhaskar, Ashish
contents Transport engineering has significant potential to benefit from quantum computing. The rise of intelligent transport systems, autonomous vehicles, and the Internet of Things has created an unprecedented demand for efficient information processing and computational optimisation. Accordingly, transport engineers and scientists have explored the ever-improving capabilities of quantum computers in an effort to meet this demand. Motivated by this growing interest, this paper sets out four aims: (1) to introduce the fundamental aspects of quantum computing relevant to the transport domain, (2) to identify transport-related problems which are suitable for quantum acceleration, (3) to develop a pipeline for solving these problems, and (4) to provide a systematic review of the existing literature. For the latter, a systematic search of the Scopus database (and supplemented by additional citation sources) identified 103 studies for inclusion following PRISMA 2020 guidelines. While a diverse set of use cases have been proposed, we conclude that future research should prioritise problems where quantum computation offers a clear practical benefit. To this end, we suggest promising directions to guide further work in this burgeoning subfield.
format Preprint
id arxiv_https___arxiv_org_abs_2603_11572
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Quantum computing for transport research: an introduction, systematic review, and perspective
Oberg, Lachlan
Corry, Paul
Ghadimi, Moji
Bhaskar, Ashish
Quantum Physics
Transport engineering has significant potential to benefit from quantum computing. The rise of intelligent transport systems, autonomous vehicles, and the Internet of Things has created an unprecedented demand for efficient information processing and computational optimisation. Accordingly, transport engineers and scientists have explored the ever-improving capabilities of quantum computers in an effort to meet this demand. Motivated by this growing interest, this paper sets out four aims: (1) to introduce the fundamental aspects of quantum computing relevant to the transport domain, (2) to identify transport-related problems which are suitable for quantum acceleration, (3) to develop a pipeline for solving these problems, and (4) to provide a systematic review of the existing literature. For the latter, a systematic search of the Scopus database (and supplemented by additional citation sources) identified 103 studies for inclusion following PRISMA 2020 guidelines. While a diverse set of use cases have been proposed, we conclude that future research should prioritise problems where quantum computation offers a clear practical benefit. To this end, we suggest promising directions to guide further work in this burgeoning subfield.
title Quantum computing for transport research: an introduction, systematic review, and perspective
topic Quantum Physics
url https://arxiv.org/abs/2603.11572