Journal ArticleDOI
A decomposition approach to optimal remote controlled switch allocation in distribution systems
TLDR
This work proposes to address the problem of determining the optimal number of devices and their optimal location in a two-stage decomposition approach by dividing the solution space into independent subspaces, and solving the optimization problems in each subspace.Abstract:
The growing demand for improved quality of service increases the importance of network automation, namely the investment in remote-controlled switch (RCS) devices. These allow improving the fault isolation and reconfiguration time and therefore increasing the system quality of service. The investment in switch devices comes at a cost and thus must be optimized. The problem of determining the optimal number of devices and their optimal location is a difficult problem: the solution space is combinatorial and the objective function is nonanalytical. We propose to address this problem in a two-stage decomposition approach. Results are presented to i) divide the solution space into independent subspaces, and then ii) solve the optimization problems in each subspace. The solution approach is illustrated for a real distribution network problem.read more
Citations
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Journal ArticleDOI
Optimal Switch Placement in Distribution Systems Using Trinary Particle Swarm Optimization Algorithm
TL;DR: A novel three-state approach inspired from the discrete version of a powerful heuristic algorithm, particle swarm optimization, is developed and presented to determine the optimum number and locations of two types of switches in radial distribution systems.
Journal ArticleDOI
Optimal placement of line switches for distribution automation systems using immune algorithm
TL;DR: In this article, the authors proposed the immune algorithm (IA) to derive the optimal placement of switching devices by minimizing the total cost of customer service outage and investment cost of line switches.
Journal ArticleDOI
Placement of Remote-Controlled Switches to Enhance Distribution System Restoration Capability
TL;DR: In this article, a greedy algorithm with a polynomial-time computational efficiency is designed to generate a near-optimal solution for the weighted set cover (WSC) problem to determine the set of switches to be upgraded for an existing distribution system.
Journal ArticleDOI
Optimized Sectionalizing Switch Placement Strategy in Distribution Systems
TL;DR: In this article, a new optimization approach for distribution automation in terms of automated and remotely controlled sectionalizing switch placement is introduced, where mixed-integer linear programming (MILP) is utilized to model the problem.
Journal ArticleDOI
A Comprehensive Centralized Approach for Voltage Constraints Management in Active Distribution Grid
TL;DR: In this article, a centralized optimization approach is proposed to minimize the amount of MW curtailment of non-firm DG units to remove voltage constraints in active distribution systems that host a significant amount of distributed generation units.
References
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Book
Dynamic Programming and Optimal Control
TL;DR: The leading and most up-to-date textbook on the far-ranging algorithmic methododogy of Dynamic Programming, which can be used for optimal control, Markovian decision problems, planning and sequential decision making under uncertainty, and discrete/combinatorial optimization.
Journal ArticleDOI
Optimal switching device placement in radial distribution systems
Roy Billinton,S. Jonnavithula +1 more
TL;DR: In this paper, a new formulation for power system sectionalizing device placement taking into consideration outage, maintenance and investments costs is presented, where a solution methodology based on the optimization technique of simulated annealing is proposed to determine: (i) the number of switches; and (ii) the locations of the switches.
Journal ArticleDOI
Optimal sectionalizing switches allocation in distribution networks
TL;DR: In this paper, the optimal number and location of switching devices for both radial and meshed power distribution systems was found based on the Bellmann's optimality principle, combined with thinning techniques, yielding the optimal solution in a few ms for real size problems.
Journal ArticleDOI
Feeder Switch Relocation for Customer Interruption Costs Minimization
Jen-Hao Teng,Chan-Nan Lu +1 more
TL;DR: A value-based method is proposed in this article to take load distribution changes into account and search for new locations of feeder sectionalizers such that the customer interruption costs (CIC) can be reduced.
Journal ArticleDOI
Optimal sectionalizer allocation in electric distribution systems by genetic algorithm
TL;DR: An economics based model of sectionalizer allocation in single radial feeder distribution systems is presented and a genetic algorithm based procedure is developed to solve the problem of optimal sectionalizers allocation.
Related Papers (5)
Optimal Switch Placement in Distribution Systems Using Trinary Particle Swarm Optimization Algorithm
Optimal switching device placement in radial distribution systems
Roy Billinton,S. Jonnavithula +1 more