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Robust design of electric vehicle components using a new hybrid salp swarm algorithm and radial basis function-based approach

Betül Sultan Yıldız

2020International Journal of Vehicle Design21 citationsDOIOpen Access PDF

Abstract

Considering the light-weight design expectations and government requirements in the automotive industry, both structural optimisation approaches and swarm intelligence methods have been receiving gigantic attention for their high accuracy and robustness. In this research, a new hybrid salp swarm-Nelder-Mead (HSSA-NM) algorithm is developed to optimise electric vehicle components. Both Latin hypercube sampling methodology and radial basis function surrogate modelling approach are used for obtaining equations of constraints and objectives used in the shape optimisation. Initially, the performance of the HSSA-NM is tested using a coil spring problem. Finally, the HSSA-NM is used for the optimum design of a vehicle control arm. As a result, a design problem is solved using the HSSA-NM. The optimal design meets all of the problem constraints and reduces the weight by about 2056 grams compared with that of the initial model. Thus, the proposed design method is an efficient method for shape optimisation design.

Topics & Concepts

Latin hypercube samplingRobustness (evolution)EngineeringRadial basis functionAutomotive industryMathematical optimizationOptimal designSwarm behaviourElectric vehicleAlgorithmControl theory (sociology)Control engineeringComputer scienceArtificial intelligenceMathematicsPower (physics)Machine learningArtificial neural networkMonte Carlo methodControl (management)StatisticsBiochemistryAerospace engineeringChemistryPhysicsGeneQuantum mechanicsAdvanced Multi-Objective Optimization AlgorithmsMechanical Engineering and Vibrations ResearchTopology Optimization in Engineering
Robust design of electric vehicle components using a new hybrid salp swarm algorithm and radial basis function-based approach | Litcius