Security-Constrained Optimal Power Flow Solved With a Dynamic Multichain Particle Swarm Optimizer

This paper presents a dynamic multichain particle swarm optimization (DMCPSO) algorithm to solve the security-constrained optimal power flow (SCOPF) problem, which aims to minimize the predefined cost while taking both system capacity requirements and operating security constraints into account. The...

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Published in	2019 North American Power Symposium (NAPS) pp. 1 - 6
Main Authors	Zhang, Haixiang, Liu, Jianan, Xiao, Dongliang, Qiao, Wei
Format	Conference Proceeding
Language	English
Published	IEEE 01.10.2019
Subjects	adaptive control Dynamic multichain topology Generators Load flow particle swarm optimization (PSO) Power system dynamics Power system stability security-constrained optimal power flow (SCOPF) Sociology Statistics Topology
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Abstract	This paper presents a dynamic multichain particle swarm optimization (DMCPSO) algorithm to solve the security-constrained optimal power flow (SCOPF) problem, which aims to minimize the predefined cost while taking both system capacity requirements and operating security constraints into account. The DMCPSO is based on a dynamic multichain topology and an adaptive parameter control mechanism. The dynamic multichain topology organizes the swarm population in the chain structure at both the individual and subpopulation levels. Different particles can play different roles in this topology to enhance both exploration and exploitation via local and global communication mechanisms. Moreover, to boost the benefits brought by this topology, three types of parameters, i.e., the inertia weight w, scaling factor F, and mutation probability p are controlled in an adaptive manner to further boost exploration and exploitation. Numerical results demonstrate the superior performance of the proposed DMCPSO over three reference PSO algorithms in the literature.
AbstractList	This paper presents a dynamic multichain particle swarm optimization (DMCPSO) algorithm to solve the security-constrained optimal power flow (SCOPF) problem, which aims to minimize the predefined cost while taking both system capacity requirements and operating security constraints into account. The DMCPSO is based on a dynamic multichain topology and an adaptive parameter control mechanism. The dynamic multichain topology organizes the swarm population in the chain structure at both the individual and subpopulation levels. Different particles can play different roles in this topology to enhance both exploration and exploitation via local and global communication mechanisms. Moreover, to boost the benefits brought by this topology, three types of parameters, i.e., the inertia weight w, scaling factor F, and mutation probability p are controlled in an adaptive manner to further boost exploration and exploitation. Numerical results demonstrate the superior performance of the proposed DMCPSO over three reference PSO algorithms in the literature.
Author	Zhang, Haixiang Qiao, Wei Xiao, Dongliang Liu, Jianan
Author_xml	– sequence: 1 givenname: Haixiang surname: Zhang fullname: Zhang, Haixiang organization: Power and Energy Systems Laboratory, University of Nebraska-Lincoln,Department of Electrical and Computer Engineering,Lincoln,NE,USA,68588-0511 – sequence: 2 givenname: Jianan surname: Liu fullname: Liu, Jianan organization: Power and Energy Systems Laboratory, University of Nebraska-Lincoln,Department of Electrical and Computer Engineering,Lincoln,NE,USA,68588-0511 – sequence: 3 givenname: Dongliang surname: Xiao fullname: Xiao, Dongliang organization: Power and Energy Systems Laboratory, University of Nebraska-Lincoln,Department of Electrical and Computer Engineering,Lincoln,NE,USA,68588-0511 – sequence: 4 givenname: Wei surname: Qiao fullname: Qiao, Wei organization: Power and Energy Systems Laboratory, University of Nebraska-Lincoln,Department of Electrical and Computer Engineering,Lincoln,NE,USA,68588-0511
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SubjectTerms	adaptive control Dynamic multichain topology Generators Load flow particle swarm optimization (PSO) Power system dynamics Power system stability security-constrained optimal power flow (SCOPF) Sociology Statistics Topology
Title	Security-Constrained Optimal Power Flow Solved With a Dynamic Multichain Particle Swarm Optimizer
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