The sensitivity analysis of electromagnetic quantities such as the magnetic force and torque is a crucial step when optimizing electromagnetic devices with gradient-based optimizers. This paper provides an analytical derivation of those two quantities using the virtual work principle in a finite element package. It is suitable for any kind of optimization. A focus on the particular use of this sensitivity on shape optimization is presented. The development and validation of the method is detailed in this case. Finally, it is applied to the shape optimization of a switch reluctance motor (SRM) to improve its performances
This paper deals with the Switched Reluctance Motor (SRM) analysis using Finite Element Method (FEM)...
International audienceThis paper deals with electromagnetic modeling dedicated to constrained optimi...
Sensitivity analysis enables powerful gradient‐based mathematical programming techniques in the opti...
International audienceThe rise of shape and topology optimization techniques has opened new possibil...
The paper discusses the sensitivity analysis for the shape optimization of a nonlinear magnetostatic...
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...
A system is implemented that optimizes two-dimensional magnetostatic devices. The system uses Sensit...
The article presents a comparison of two optimization methods aimed at the linearization of electro...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
In the paper an optimization procedure concerning a construction of a 6/4 type SRM has been describe...
Currently, the level of industrial development is determined by the intellectual capacity of the equ...
The use of "response surface" method in the sensitivity analysis and optimisation of electromagnetic...
The paper presents a theoretical framework for the shape sensitivity analysis of systems governed by...
Electromagnetic optimization procedures require a large number of evaluations in numerical forward m...
This paper deals with the Switched Reluctance Motor (SRM) analysis using Finite Element Method (FEM)...
International audienceThis paper deals with electromagnetic modeling dedicated to constrained optimi...
Sensitivity analysis enables powerful gradient‐based mathematical programming techniques in the opti...
International audienceThe rise of shape and topology optimization techniques has opened new possibil...
The paper discusses the sensitivity analysis for the shape optimization of a nonlinear magnetostatic...
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...
A system is implemented that optimizes two-dimensional magnetostatic devices. The system uses Sensit...
The article presents a comparison of two optimization methods aimed at the linearization of electro...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
In the paper an optimization procedure concerning a construction of a 6/4 type SRM has been describe...
Currently, the level of industrial development is determined by the intellectual capacity of the equ...
The use of "response surface" method in the sensitivity analysis and optimisation of electromagnetic...
The paper presents a theoretical framework for the shape sensitivity analysis of systems governed by...
Electromagnetic optimization procedures require a large number of evaluations in numerical forward m...
This paper deals with the Switched Reluctance Motor (SRM) analysis using Finite Element Method (FEM)...
International audienceThis paper deals with electromagnetic modeling dedicated to constrained optimi...
Sensitivity analysis enables powerful gradient‐based mathematical programming techniques in the opti...