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Main Authors: Innan, Nouhaila, Behera, Bikash K., Al-Kuwari, Saif, Farouk, Ahmed
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.12705
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author Innan, Nouhaila
Behera, Bikash K.
Al-Kuwari, Saif
Farouk, Ahmed
author_facet Innan, Nouhaila
Behera, Bikash K.
Al-Kuwari, Saif
Farouk, Ahmed
contents The escalating complexity of urban transportation systems, exacerbated by factors such as traffic congestion, diverse transportation modalities, and shifting commuter preferences, necessitates the development of more sophisticated analytical frameworks. Traditional computational approaches often struggle with the voluminous datasets generated by real-time sensor networks, and they generally lack the precision needed for accurate traffic prediction and efficient system optimization. This research integrates quantum computing techniques to enhance Vehicle Road Cooperation Systems (VRCS). By leveraging quantum algorithms, specifically $UU^{\dagger}$ and variational $UU^{\dagger}$, in conjunction with quantum image encoding methods such as Flexible Representation of Quantum Images (FRQI) and Novel Enhanced Quantum Representation (NEQR), we propose an optimized Quantum Neural Network (QNN). This QNN features adjustments in its entangled layer structure and training duration to better handle the complexities of traffic data processing. Empirical evaluations on two traffic datasets show that our model achieves superior classification accuracies of 97.42% and 84.08% and demonstrates remarkable robustness in various noise conditions. This study underscores the potential of quantum-enhanced 6G solutions in streamlining complex transportation systems, highlighting the pivotal role of quantum technologies in advancing intelligent transportation solutions.
format Preprint
id arxiv_https___arxiv_org_abs_2412_12705
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publishDate 2024
record_format arxiv
spellingShingle QNN-VRCS: A Quantum Neural Network for Vehicle Road Cooperation Systems
Innan, Nouhaila
Behera, Bikash K.
Al-Kuwari, Saif
Farouk, Ahmed
Quantum Physics
The escalating complexity of urban transportation systems, exacerbated by factors such as traffic congestion, diverse transportation modalities, and shifting commuter preferences, necessitates the development of more sophisticated analytical frameworks. Traditional computational approaches often struggle with the voluminous datasets generated by real-time sensor networks, and they generally lack the precision needed for accurate traffic prediction and efficient system optimization. This research integrates quantum computing techniques to enhance Vehicle Road Cooperation Systems (VRCS). By leveraging quantum algorithms, specifically $UU^{\dagger}$ and variational $UU^{\dagger}$, in conjunction with quantum image encoding methods such as Flexible Representation of Quantum Images (FRQI) and Novel Enhanced Quantum Representation (NEQR), we propose an optimized Quantum Neural Network (QNN). This QNN features adjustments in its entangled layer structure and training duration to better handle the complexities of traffic data processing. Empirical evaluations on two traffic datasets show that our model achieves superior classification accuracies of 97.42% and 84.08% and demonstrates remarkable robustness in various noise conditions. This study underscores the potential of quantum-enhanced 6G solutions in streamlining complex transportation systems, highlighting the pivotal role of quantum technologies in advancing intelligent transportation solutions.
title QNN-VRCS: A Quantum Neural Network for Vehicle Road Cooperation Systems
topic Quantum Physics
url https://arxiv.org/abs/2412.12705