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Design and optimization of an electromechanical actuator for the latch of a foldable vehicle seat

Zeliha KAMIŞ KOCABIÇAK, Uğur Demir

2020Materials Testing17 citationsDOI

Abstract

Abstract This paper deals with the electromechanical actuator (EAct) design for a seat latch while maintaining required force and displacement according to the boundary conditions and design criteria for the finite element method (FEM) in an Ansys Maxwell environment. Before presenting the analysis studies, some EAct models are parameterized according to the Taguchi’s design of experiment (DoE) method. After that, analysis results are evaluated to define the critical model parameters of the EAct according to the DoE method. Furthermore, the DoE results and design parameters of the EAct are trained in some cases by an artificial neural network (ANN). The dynamic behavior of the models from the ANN and DoE results are analyzed and the results obtained are compared. Finally, the optimal EAct model is defined taking into account design criteria.

Topics & Concepts

Taguchi methodsFinite element methodDesign of experimentsActuatorDisplacement (psychology)Optimal designArtificial neural networkParameterized complexityComputer scienceStructural engineeringEngineeringArtificial intelligenceMathematicsAlgorithmStatisticsMachine learningPsychologyPsychotherapistHydraulic and Pneumatic SystemsStructural Health Monitoring TechniquesVehicle Noise and Vibration Control
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