PSO vs GA: A Comparative Study of Multi-Objective Reliability Optimization using Fuzzy Nonlinear Programming Functions

Abstract— Multi-objective reliability optimization is a complex problem that involves simultaneously optimizing multiple objectives while ensuring that the system meets certain reliability requirements. In this paper, we present a methodology for solving multi-objective reliability optimization prob...

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Vydané v:Wasit Journal for Pure Sciences Ročník 2; číslo 2; s. 143 - 149
Hlavní autori: Abdulhussein Jabbar, Ahmed, Sabri Abd ALRazaq, Audi
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: College of Education for Pure Sciences 29.06.2023
ISSN:2790-5233, 2790-5241
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Shrnutí:Abstract— Multi-objective reliability optimization is a complex problem that involves simultaneously optimizing multiple objectives while ensuring that the system meets certain reliability requirements. In this paper, we present a methodology for solving multi-objective reliability optimization problems using fuzzy nonlinear programming. The methodology involves representing the reliability of each component as a triangular interval number and each objective function as an interval membership function. Conflicts between objectives are resolved using linear and nonlinear membership functions, and exponential and quadratic membership functions are used to obtain definite biases towards the objective. The proposed methodology employs Particle Swarm Optimization (PSO) or Genetic Algorithm (GA) to solve the problem, and the approach is compared with GA for linear and nonlinear membership functions. The results indicate the effectiveness of the methodology in addressing multi-objective reliability optimization problems.
ISSN:2790-5233
2790-5241
DOI:10.31185/wjps.148