The paper discusses the sensitivity analysis for the shape optimization of a nonlinear magnetostatic system, evaluated both by direct and adjoint approaches. The calculations rely on the Lie derivative concept of differential geometry where the flow is the velocity field associated with the modification of a geometrical parameter in the model. The resulting sensitivity formulas can be expressed naturally in a finite element setting through a volume integral in the layer of elements connected to the surface undergoing shape modification. The accuracy of the methodology is analyzed on a 2D model of an interior permanent magnet motor (IPM), and on a 3D model of a permanent magnet system.FED
of sensitivity derivatives required in shape design optimization problems. Based on the boundary ele...
The topological derivative represents the sensitivity of a domain-dependent functional with respect ...
A method to solve shape and size optimisation problems with linear and non-linear responses has been...
In this paper, a direct and an adjoint analytic sensitivity analysis for a nonlinear magnetostatic s...
Abstract The paper presents a theoretical framework for the shape sensitivity analysis of systems go...
The paper addresses the optimal design of electric machines, through the general setting of both sha...
peer reviewedThe paper addresses the optimal design of electric machines, through the general settin...
Using the material derivative concept of continuum mechanics and an adjoint variable method, in a 2-...
The sensitivity analysis of electromagnetic quantities such as the magnetic force and torque is a cr...
International audienceThe rise of shape and topology optimization techniques has opened new possibil...
A system is implemented that optimizes two-dimensional magnetostatic devices. The system uses Sensit...
AbstractFor the sensitivity analysis of nonlinear structure with respect to the shape variation, it ...
summary:In this paper we present theoretical, computational, and practical aspects concerning 3-dime...
The use of "response surface" method in the sensitivity analysis and optimisation of electromagnetic...
Permanent magnets (PMs) are widely used in a variety of industrial equipment and devices. In magnet ...
of sensitivity derivatives required in shape design optimization problems. Based on the boundary ele...
The topological derivative represents the sensitivity of a domain-dependent functional with respect ...
A method to solve shape and size optimisation problems with linear and non-linear responses has been...
In this paper, a direct and an adjoint analytic sensitivity analysis for a nonlinear magnetostatic s...
Abstract The paper presents a theoretical framework for the shape sensitivity analysis of systems go...
The paper addresses the optimal design of electric machines, through the general setting of both sha...
peer reviewedThe paper addresses the optimal design of electric machines, through the general settin...
Using the material derivative concept of continuum mechanics and an adjoint variable method, in a 2-...
The sensitivity analysis of electromagnetic quantities such as the magnetic force and torque is a cr...
International audienceThe rise of shape and topology optimization techniques has opened new possibil...
A system is implemented that optimizes two-dimensional magnetostatic devices. The system uses Sensit...
AbstractFor the sensitivity analysis of nonlinear structure with respect to the shape variation, it ...
summary:In this paper we present theoretical, computational, and practical aspects concerning 3-dime...
The use of "response surface" method in the sensitivity analysis and optimisation of electromagnetic...
Permanent magnets (PMs) are widely used in a variety of industrial equipment and devices. In magnet ...
of sensitivity derivatives required in shape design optimization problems. Based on the boundary ele...
The topological derivative represents the sensitivity of a domain-dependent functional with respect ...
A method to solve shape and size optimisation problems with linear and non-linear responses has been...