J
Joong-Rin Shin
Researcher at Konkuk University
Publications - 45
Citations - 2949
Joong-Rin Shin is an academic researcher from Konkuk University. The author has contributed to research in topics: Fault (power engineering) & Economic dispatch. The author has an hindex of 15, co-authored 45 publications receiving 2757 citations.
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A particle swarm optimization for economic dispatch with nonsmooth cost functions
TL;DR: In this paper, a modified particle swarm optimization (MPSO) was proposed to deal with the equality and inequality constraints in the economic dispatch (ED) problems with nonsmooth cost functions.
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An Improved Particle Swarm Optimization for Nonconvex Economic Dispatch Problems
TL;DR: An improved PSO framework employing chaotic sequences combined with the conventional linearly decreasing inertia weights and adopting a crossover operation scheme to increase both exploration and exploitation capability of the PSO is proposed.
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An efficient simulated annealing algorithm for network reconfiguration in large-scale distribution systems
TL;DR: An efficient algorithm for loss minimization by using an automatic switching operation in large-scale distribution systems and utilizing the polynomial-time cooling schedule, which is based on the statistical calculation during the search, is presented.
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Closure to discussion of “An improved particle swarm optimization for nonconvex economic dispatch problems”
TL;DR: An improved PSO framework employing chaotic sequences combined with the conventional linearly decreasing inertia weights and adopting a crossover operation scheme to increase both exploration and exploitation capability of the PSO is proposed.
Journal ArticleDOI
New Digital Algorithm for Adaptive Reclosing Based on the Calculation of the Faulted Phase Voltage Total Harmonic Distortion Factor
Z.M. Radojevic,Joong-Rin Shin +1 more
TL;DR: In this article, a new numerical algorithm suitable for determining adaptive dead time, and blocking automatic reclosing during permanent faults on overhead lines, is presented based on terminal voltage input data processing.