Evaluate Quantum Combinatorial Optimization for Distribution Network Reconfiguration

Anh Phuong Ngo; Christan Thomas; Hieu T Nguyen; Abdullah Eroglu; Konstantinos Oikonomou

doi:10.1109/NAPS56150.2022.10012259

Evaluate Quantum Combinatorial Optimization for Distribution Network Reconfiguration

Anh Phuong Ngo
, Christan Thomas
, Hieu T Nguyen
, Abdullah Eroglu
, Konstantinos Oikonomou

Electrical and Computer Engineering

Industrial and systems engineering with North Carolina A&T State University
Pacific Northwest National Laboratory

Research output: Contribution to journal › Conference article › peer-review

3 Scopus citations

Abstract

This paper aims to implement and evaluate the performance of quantum computing on solving combinatorial optimization problems arising from the operations of the power grid. To this end, we construct a novel mixed integer conic programming formulation for the reconfiguration of radial distribution network in response to faults in distribution lines. Comparing to existing bus injection model in the literature, our formulation based the branch flows model is theoretically equivalent without needing non-explainable variables, thus being more numerically stable. The network reconfiguration model is then used as a benchmark to evaluate the performance of quantum computing algorithms in real quantum computers. It shows that while current quantum computing algorithms with fast execution time in quantum computers can be a promising solution candidate, its heuristic nature stem from its theoretical foundation should be considered carefully when applying into power grid optimization problems.

Original language	English
Journal	2022 North American Power Symposium, NAPS 2022
DOIs	https://doi.org/10.1109/NAPS56150.2022.10012259
State	Published - Jan 1 2022
Event	2022 North American Power Symposium, NAPS 2022 - Salt Lake City, United States Duration: Oct 9 2022 → Oct 11 2022

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

alternating direction method of multipliers
network reconfiguration
quantum approximation optimization algorithm
quantum computing

Access to Document

10.1109/NAPS56150.2022.10012259

Cite this

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title = "Evaluate Quantum Combinatorial Optimization for Distribution Network Reconfiguration",

abstract = "This paper aims to implement and evaluate the performance of quantum computing on solving combinatorial optimization problems arising from the operations of the power grid. To this end, we construct a novel mixed integer conic programming formulation for the reconfiguration of radial distribution network in response to faults in distribution lines. Comparing to existing bus injection model in the literature, our formulation based the branch flows model is theoretically equivalent without needing non-explainable variables, thus being more numerically stable. The network reconfiguration model is then used as a benchmark to evaluate the performance of quantum computing algorithms in real quantum computers. It shows that while current quantum computing algorithms with fast execution time in quantum computers can be a promising solution candidate, its heuristic nature stem from its theoretical foundation should be considered carefully when applying into power grid optimization problems.",

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journal = "2022 North American Power Symposium, NAPS 2022",

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AU - Phuong Ngo, Anh

AU - Thomas, Christan

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AU - Eroglu, Abdullah

AU - Oikonomou, Konstantinos

PY - 2022/1/1

Y1 - 2022/1/1

N2 - This paper aims to implement and evaluate the performance of quantum computing on solving combinatorial optimization problems arising from the operations of the power grid. To this end, we construct a novel mixed integer conic programming formulation for the reconfiguration of radial distribution network in response to faults in distribution lines. Comparing to existing bus injection model in the literature, our formulation based the branch flows model is theoretically equivalent without needing non-explainable variables, thus being more numerically stable. The network reconfiguration model is then used as a benchmark to evaluate the performance of quantum computing algorithms in real quantum computers. It shows that while current quantum computing algorithms with fast execution time in quantum computers can be a promising solution candidate, its heuristic nature stem from its theoretical foundation should be considered carefully when applying into power grid optimization problems.

AB - This paper aims to implement and evaluate the performance of quantum computing on solving combinatorial optimization problems arising from the operations of the power grid. To this end, we construct a novel mixed integer conic programming formulation for the reconfiguration of radial distribution network in response to faults in distribution lines. Comparing to existing bus injection model in the literature, our formulation based the branch flows model is theoretically equivalent without needing non-explainable variables, thus being more numerically stable. The network reconfiguration model is then used as a benchmark to evaluate the performance of quantum computing algorithms in real quantum computers. It shows that while current quantum computing algorithms with fast execution time in quantum computers can be a promising solution candidate, its heuristic nature stem from its theoretical foundation should be considered carefully when applying into power grid optimization problems.

KW - alternating direction method of multipliers

KW - network reconfiguration

KW - quantum approximation optimization algorithm

KW - quantum computing

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Evaluate Quantum Combinatorial Optimization for Distribution Network Reconfiguration

Abstract

UN SDGs

Keywords

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