D-Wave Implementation of Quantum Annealing for Optimal Resource Allocation in Disaster Response Operation of Marikina City

ECTI Transactions on Computer and Information Technology (ECTI-CIT) Pub Date : 2024-01-20 DOI:10.37936/ecti-cit.2024181.253577

Allyza Ruth Cadeliña, Mori Assanty Cuevas, Marselean Kallos, Morris John Montemayor, Ronald Jay Uy, Joshua Benjamin Rodriguez, Orland D. Tubola

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Abstract

Quantum computing shows a positive approach for addressing optimization challenges in NP-hard problems such as the vehicle routing problem (VRP). This study focuses on improving the efficiency of disaster response operations by localizing the application of D-wave quantum annealing in Marikina City. This study uses the Solution Partitioning Solver (SPS) and the Quadratic Unconstrained Binary Optimization (QUBO) formulation to convert the VRP into an equation that can be solved using quantum annealing. The study demonstrates that quantum computing effectively distributes resources during emergency response operations and improves overall operational efficiency. In determining the most effective route for each vehicle, the D-wave Leap API and QUBO representation compute the distances traveled by each vehicle. These findings contribute to the practical applications of quantum computing to revolutionize various fields, including disaster management. Implementing D-wave quantum annealing in Marikina City shows relevance for future advancements in optimizing resource allocation and improving disaster response operations.

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量子退火的 D 波实现，用于马里基纳市救灾行动中的最佳资源分配

量子计算为解决车辆路由问题（VRP）等 NP 难问题的优化挑战提供了一种积极的方法。本研究的重点是通过在马里基纳市本地化应用 D 波量子退火来提高救灾行动的效率。本研究使用解决方案分区求解器（SPS）和二次无约束二元优化（QUBO）公式将 VRP 转换为可使用量子退火求解的方程。研究表明，量子计算能在应急响应行动中有效分配资源，提高整体运行效率。在确定每辆车的最有效路线时，D-wave Leap API 和 QUBO 表示法计算了每辆车的行驶距离。这些研究成果有助于量子计算的实际应用，为包括灾难管理在内的各个领域带来变革。在马里基纳市实施 D 波量子退火表明，未来在优化资源分配和改善灾难响应行动方面的进步具有现实意义。

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ECTI Transactions on Computer and Information Technology (ECTI-CIT)

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