Steadfastness investigation on wind-based unified power quality conditioner system using trundle frog bound technique

The design of the fusion of UPQC and WECS presents the problem of the PQ distribution system in work with attention to extenuating. WECS, sequences and APF shunt are unplugged with the DC-link which compensates for voltage decreases, swellings and harmonics. The UPQC reward approach with GSA is curr...

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Bibliographic Details
Main Authors: Vijayarajan, S.M., Sathyamoorthi, S., Selvapandian, D., Priya, T., Gomathi, S.
Format: Conference Proceeding
Language:English
Subjects:
Algorithms
Optimization
Redundancy
Reliability analysis
Sequences
System reliability
Online Access:Get full text
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Summary:The design of the fusion of UPQC and WECS presents the problem of the PQ distribution system in work with attention to extenuating. WECS, sequences and APF shunt are unplugged with the DC-link which compensates for voltage decreases, swellings and harmonics. The UPQC reward approach with GSA is currently being reviewed. In this respect, GSA is committed to improving UPQC control pulses. The defects will be reduced and the control signals will be optimal to achieve maximum distribution system performance. The objectives and limitations of system reliability are not linear. However, To solve the system reliability and redundancy problem a hybrid optimization process based on the frog spring algorithm and the bacterial algorithm has been proposed. The initial session introduces a random grouping strategy to preserve population diversity. Global search capabilities were enhanced with the updated Levy strategy. In the end, the migration method was used to avoid local optimum conditions. The proposed methodology was then applied to the mathematical tests and operations of the system reliability model in the new SFLA version.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0106009