In this paper, a new dynamic self-adaptive multi-objective particle swarm optimization (DSAMOPSO) method is proposed to solve binary-state multi-objective reliability redundancy allocation problems (MORAPs). A combination of penalty function and modification strategies is used to handle the constraints in the MORAPs. A dynamic self-adaptive penalty function strategy is utilized to handle the constraints. A heuristic cost-benefit ratio is also supplied to modify the structure of violated swarms. An adaptive survey is conducted using several test problems to illustrate the performance of the proposed DSAMOPSO method. An efficient version of the epsilon-constraint (AUGMECON) method, a modified non-dominated sorting genetic algorithm (NSGA-II) ...
Reliability optimization and mean time to failure are those of the areas of interest for engineers a...
In this paper, we formulate a mixed-integer binary non-linear programming model to study a series-pa...
This paper presents a multi-objective mathematical model for redundancy allocation in production sys...
In this paper, a new dynamic self-adaptive multi-objective particle swarm optimization (DSAMOPSO) me...
This paper proposes a Non-dominated Sorting Genetic Algorithm (NSGA-II) to solve the developed model...
The redundancy allocation problem (RAP) is an optimization problem for maximizing system reliability...
[[abstract]]Nowadays the redundancy allocation problem (RAP) is increasingly becoming an important p...
© 2015 IEEE. This study applies a penalty guided strategy and the orthogonal array test (OA) based o...
A novel integrated model is proposed to optimize the redundancy allocation problem (RAP) and the rel...
In this study, we propose an improved particle swarm optimization algorithm (IPSOA) to solve discoun...
International audienceMulti-objective system reliability optimization has attracted the attention of...
[[abstract]]Nowadays, the redundancy allocation problem (RAP) is increasingly becoming an important ...
In this paper, we study a series-parallel multi-objective multi-state redundancy allocation problem ...
This paper presents an improved ant colony optimization (IACO) for solving the reliability redundanc...
The Redundancy Allocation Problem (RAP) is a reliability optimization problem in designing series-pa...
Reliability optimization and mean time to failure are those of the areas of interest for engineers a...
In this paper, we formulate a mixed-integer binary non-linear programming model to study a series-pa...
This paper presents a multi-objective mathematical model for redundancy allocation in production sys...
In this paper, a new dynamic self-adaptive multi-objective particle swarm optimization (DSAMOPSO) me...
This paper proposes a Non-dominated Sorting Genetic Algorithm (NSGA-II) to solve the developed model...
The redundancy allocation problem (RAP) is an optimization problem for maximizing system reliability...
[[abstract]]Nowadays the redundancy allocation problem (RAP) is increasingly becoming an important p...
© 2015 IEEE. This study applies a penalty guided strategy and the orthogonal array test (OA) based o...
A novel integrated model is proposed to optimize the redundancy allocation problem (RAP) and the rel...
In this study, we propose an improved particle swarm optimization algorithm (IPSOA) to solve discoun...
International audienceMulti-objective system reliability optimization has attracted the attention of...
[[abstract]]Nowadays, the redundancy allocation problem (RAP) is increasingly becoming an important ...
In this paper, we study a series-parallel multi-objective multi-state redundancy allocation problem ...
This paper presents an improved ant colony optimization (IACO) for solving the reliability redundanc...
The Redundancy Allocation Problem (RAP) is a reliability optimization problem in designing series-pa...
Reliability optimization and mean time to failure are those of the areas of interest for engineers a...
In this paper, we formulate a mixed-integer binary non-linear programming model to study a series-pa...
This paper presents a multi-objective mathematical model for redundancy allocation in production sys...