Quantum Approaches To the 0/1 Multi-Knapsack Problem: Qubo Formulation, Penalty Parameter Characterization and Analysis
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Date
2025
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Publisher
Science and Technology Publications, Lda
Abstract
The 0/1 Multi-Knapsack Problem (MKP) is a combinatorial optimization problem with applications in lo gistics, finance, and resource management. Advances in quantum computing have enabled the exploration of problems like the 0/1 MKP through Quadratic Unconstrained Binary Optimization (QUBO) formulations. This work develops QUBO formulations for the 0/1 MKP, with a focus on optimizing penalty parameters for encoding constraints. Using simulation experiments across quantum platforms, we evaluate the feasibility of solving small-scale instances of the 0/1 MKP. The results provide insights into the challenges and opportuni ties associated with applying quantum optimization methods for constrained resource allocation problems. © 2025 by SCITEPRESS– Science and Technology Publications, Lda.
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Keywords
Gate-Based Quantum Computing, Multi-Knapsack Problem, Quadratic Unconstrained Binary Optimization, Quantum Annealing, Quantum Approximate Optimization Algorithm, Quantum Simulation
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N/A
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Q4
Source
International Conference on Agents and Artificial Intelligence -- 17th International Conference on Agents and Artificial Intelligence, ICAART 2025 -- 23 February 2025 through 25 February 2025 -- Porto -- 328949
Volume
1
Issue
Start Page
815
End Page
823