Optimizing Autonomous Cargo Transport with Quantum Algorithms and Satellite Image Fusion

Railways are popular for moving goods because they are fast and can carry a lot. Due to technological development, researchers are now thinking about using self- driving systems instead of regular trains to make transporting goods more efficient and safer. Current train control systems sometimes mak...

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Bibliographic Details
Published in:2024 Second International Conference on Intelligent Cyber Physical Systems and Internet of Things (ICoICI) pp. 1003 - 1009
Main Authors: Prabhu, Bennet, Muthukumar, B.
Format: Conference Proceeding
Language:English
Published: IEEE 28.08.2024
Subjects:
Accuracy
Autonomous Cargo Transport
Decision making
Decision-making Systems
Internet of Things
Meteorology
Near-field Scene Analysis
Optimization
Quantum algorithm
Quantum Optimization Algorithm
Rail transportation
Reliability
Satellite Image Fusion
Satellite images
Transportation
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Summary:Railways are popular for moving goods because they are fast and can carry a lot. Due to technological development, researchers are now thinking about using self- driving systems instead of regular trains to make transporting goods more efficient and safer. Current train control systems sometimes make slow decisions which can be unsafe. This research introduces a new way to make these decisions faster and better for self-driving trains. We propose an algorithm is called the Near-field scene Quantum optimization (NFQO) algorithm. This uses live satellite images to help the train understand its surroundings. Additionally, a Hexagonal Grid (HG) tool, it helps the train pick the best route quickly. The main advantage of developing quantum algorithm is used to make decisions super-fast and accurate. When combined NFQO and HG with satellite images, improves reliable and effective self-driving cargo trains transportation. We've tested NFQO, and it's better than other available tools. This research, which combines quantum technology, satellite images, and self-driving systems, points to exciting future developments in train transportation.
DOI:10.1109/ICoICI62503.2024.10695960