2017
DOI: 10.1515/aee-2017-0046
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Biogeography-inspired multiobjective optimization for helping MEMS synthesis

Abstract: Abstract:The aim of the paper is to assess the applicability of a multi-objective biogeography-based optimisation algorithm in MEMS synthesis. In order to test the performances of the proposed method in this research field, the optimal shape design of an electrostatic micromotor, and two different electro-thermo-elastic microactuators are considered as the case studies.

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Cited by 22 publications
(12 citation statements)
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“…The multi-objective version of the algorithm based on the definition of the generalized fitness, which takes into account simultaneously two or more objective functions by exploiting the concept of non-dominated ranking of solutions in the objective space and crowding distance [3,8,10,11,15]. The BiMO algorithm showed good results in different field of applications [16][17][18]. However when the number of SIV and the number of islands is small, many duplicates of islands occur.…”
Section: Sa-mnsga-iii Algorithmmentioning
confidence: 99%
“…The multi-objective version of the algorithm based on the definition of the generalized fitness, which takes into account simultaneously two or more objective functions by exploiting the concept of non-dominated ranking of solutions in the objective space and crowding distance [3,8,10,11,15]. The BiMO algorithm showed good results in different field of applications [16][17][18]. However when the number of SIV and the number of islands is small, many duplicates of islands occur.…”
Section: Sa-mnsga-iii Algorithmmentioning
confidence: 99%
“…Unfortunately, simple analysis of the equations modelling the electromagnetic cantilevers does not allow a closed-form design solution and only the optimal design methods make it possible to overcome the abovementioned limitations. In general, the methods of automated optimal design are based on repeated analysis to solve the field model [ 16 ], which ultimately influence the computational budget of the simulation.…”
Section: Introductionmentioning
confidence: 99%
“…The electromagnetic cantilever were also utilized in metrology of the mechanical stress associated with the adsorbtion of molecular self-assembled layers (Scanning Acoustic Microscope SAM) on the gold cantilever surface [14]. When thiol molecules adsorb (covalently bind) on the cantilever surface, mechanical stress occurs between molecular film and cantilever leading to the structure deflection.…”
Section: Introductionmentioning
confidence: 99%
“…Unfortunately, simple analysis of the equations modelling the electromagnetic cantilevers does not allow a closed-form design solution and only the optimal design methods make it possible to overcome the abovementioned limitations. In general, the methods of automated optimal design are based on repeated analysis to solve the field model [14], which ultimately influence the computational budget of the simulation.…”
Section: Introductionmentioning
confidence: 99%