Multi-Objective Reliability-Based Optimization of Control Arm Using MCS and NSGA-II Coupled with Entropy Weighted GRA

Jiang, Rongchao; Sun, Tao; Liu, Dawei; Pan, Zhenkuan; Wang, Dengfeng

doi:10.3390/app11135825

Cited by 13 publications

(9 citation statements)

References 32 publications

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“…Jiang et al 21 carried out a multi-objective optimization design of a control arm based on a Kriging approximation model and the NSGA-II algorithm. The optimal design of the control arm was determined from the Pareto solution by entropy-weighted gray relation analysis.…”

Section: Introductionmentioning

confidence: 99%

Research on a lightweight unmanned sightseeing vehicle frame based on multi-condition and multi-objective optimization

Tang

Yang

Xiao-hua

et al. 2022

Advances in Mechanical Engineering

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A design method for a lightweight unmanned sightseeing vehicle frame was proposed based on multi-condition and multi-objective optimization to improve the vehicle’s range and reduce its production cost. First, a finite element model of the frame is established, and its static and dynamic characteristics are analyzed. Then, the wall thickness of the middle beam of the frame was selected as the design variable, and its sensitivity was analyzed. Sample points were generated from the design variables using the Latin hypercube sampling method, and the corresponding response values of the sample points were calculated. A Kriging approximation model was established using the sample points and response values and replaced the actual model for optimization. Finally, a multi-condition and multi-objective optimization mathematical model of the frame was established with the minimum mass, maximum first-order natural frequency, and the minimum stresses under full load bending and torsion conditions as the objectives. The multi-objective genetic algorithm was used for the lightweight design by comparing the fuzzy matter element and analytic hierarchy process methods to select the optimal design and to verify the rationality of the final design scheme. The results show that this method results in an optimized frame meeting the strength requirements under various working conditions and reducing the frame mass by 5.4%.

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Section: Introductionmentioning

confidence: 99%

Research on a lightweight unmanned sightseeing vehicle frame based on multi-condition and multi-objective optimization

Tang

Yang

Xiao-hua

et al. 2022

Advances in Mechanical Engineering

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“…16 Meta-heuristic (modern) multi-objective optimization techniques include multi-objective genetic algorithm (MOGA), multi-objective quantum evolutionary algorithm(MOQEA), archived multi-object simulated annealing (AMOSA), multi-objective tabu search (MOTS), and multi-objective particle swarm optimization algorithm (MOPSO). 17–22 The random search in the MOGA may lead to slow convergence, long calculation time and loss of global optimization. The MOQEA is optimized under the assumption that multi-objective problems can be decomposed into multiple single-objective problems, and cannot be used for all MOP.…”

Section: Introductionmentioning

confidence: 99%

Research on lightweight and fatigue life of engine hood based on multi-objective particle swarm optimization

Liu

et al. 2022

Advances in Mechanical Engineering

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A multi-objective optimization method is presented in this paper, aiming at improving the fatigue life of the engine hood while achieving light weight. By analyzing the factors affecting the fatigue life of the engine hood, a multi-objective optimization model was established that considered five design variables including the thickness of the inner plate, the thickness of the outer plate, the stiffness of the hook, the stiffness of the sealing strip, and the height of the buffer block. Then, the multi-objective particle swarm method was used for optimization, and the optimal solution was obtained in the form of a Pareto set. The ideal compromise solution was determined from the Pareto set by using fuzzy membership functions. On this basis, the optimal solution was determined from the Pareto set by comprehensively considering the steel plate material specification, mold and cost constraints. The torsional deformation test and switch fatigue test show that for the optimized engine hood, the fatigue life is increased by 117%, the mass is reduced by 0.51 kg, and the torsional deformation of the engine hood does not increase significantly. The proposed multi-objective optimization method is proved to be feasible and effective in improving engine hood fatigue life and lightweight design.

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“…Vo-Duy et al [35] developed a MORBDO framework using NSGA-II and a single-loop deterministic method (SLDM) for truss structures. Jiang et al [36] proposed a MORBDO approach of a control arm using NSGA-II and MCS method.…”

Section: Introductionmentioning

confidence: 99%

Grid Feature-Based Weighted Simulation Method for Multi-Objective Reliability-Based Design Optimization

Chen

Song

et al. 2022

Int J Comput Intell Syst

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Reliability analysis and reliability-based design have attracted huge attention since their origin, especially in the engineering design optimization field. Integrating a novel grid feature (GF) mechanism into the weighted simulation method (WSM), a grid feature-based weighted simulation method (GFWSM) is proposed in this paper. By sorting the samples in the random variable space, the GF mechanism serializes the failure probability calculation process, which can reduce the number of performance function evaluations required by the WSM. The proposed GFWSM is integrated into an efficient evolutionary multi-objective optimizer, disruption-based multi-objective equilibrium optimization algorithm (DMOEOA), for solving multi-objective reliability-based design optimization (MORBDO) problems. Different reliability analysis examples are employed to verify the advantages of the proposed GFWSM. Various constrained multi-objective reliability-based design optimization problems have been selected to test the effectiveness of the GFWSM-DMOEOA algorithm. The simulation results indicate that GFWSM and GFWSM-DMOEOA algorithm have achieved a good balance between accuracy and efficiency.

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Multi-Objective Reliability-Based Optimization of Control Arm Using MCS and NSGA-II Coupled with Entropy Weighted GRA

Cited by 13 publications

References 32 publications

Research on a lightweight unmanned sightseeing vehicle frame based on multi-condition and multi-objective optimization

Research on a lightweight unmanned sightseeing vehicle frame based on multi-condition and multi-objective optimization

Research on lightweight and fatigue life of engine hood based on multi-objective particle swarm optimization

Grid Feature-Based Weighted Simulation Method for Multi-Objective Reliability-Based Design Optimization

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