Quantum- Inspired Optimal Power Flow
Document Type
Conference Proceeding
Publication Date
1-1-2024
Abstract
This paper addresses the critical challenge of Op-timal Power Flow (OPF) in electrical engineering, emphasizing the intersection of complexity and technological advancements. Leveraging quantum computation, particularly the Primal-Dual Interior Point Method (PD-IPM) and the Harrow-Hassidim-Lloyd (HHL) algorithm, we explore enhanced solutions for both Alternating Current OPF (ACOPF) and Direct Current OPF (DCOPF). PD-IPM generates linear systems during optimization, aligning with the selected quantum techniques that offer expo-nential speedup. We investigate the scalability and challenges of HHL, emphasizing the current limitations for larger power systems. Additionally, we introduce a hybrid approach that dynamically transitions between quantum and classical methods to optimize convergence. Our study evaluates the proposed methodology's performance under diverse error conditions, em-phasizing its potential to revolutionize solving times for OPF in power systems.
Publication Source (Journal or Book title)
2024 IEEE Texas Power and Energy Conference, TPEC 2024
Recommended Citation
Amani, F., & Kargarian, A. (2024). Quantum- Inspired Optimal Power Flow. 2024 IEEE Texas Power and Energy Conference, TPEC 2024 https://doi.org/10.1109/TPEC60005.2024.10472285
