International audienceOptimization using finite element analysis and the adjoint variable method to solve engineering problems appears in various application areas. However, to the best of the authors’ knowledge, there is a lack of detailed explanation on the implementation of the adjoint variable method in the context of electromagnetic modeling. This paper aimed to provide a detailed explanation of the method in the simplest possible general framework. Then, an extended explanation is offered in the context of electromagnetism. A discrete design methodology based on adjoint variables for magnetostatics was formulated, implemented, and verified. This comprehensive methodology supports both linear and nonlinear problems. The framework provi...
Title: Advances in the adjoint variable method for time-domain electromagnetic simulation
The frequency domain finite element method using i? (cur/)-conforming finite elements is a robust te...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
International audienceOptimization using finite element analysis and the adjoint variable method to ...
Purpose - The purpose of this paper is to study the optimization problem of low-frequency magnetic s...
Many optimization problems in electrical engineering consider a large number of design parameters. A...
In this paper we present two applications of the adjoint variable method (AVM). First we consider a ...
There is a revival of the interest in adjoint sensitivity analysis techniques. This is partly becaus...
Sensitivity analysis enables powerful gradient‐based mathematical programming techniques in the opti...
For shielding applications that cannot sufficiently be shielded by only a passive shield, it is usef...
Using the material derivative concept of continuum mechanics and an adjoint variable method, in a 2-...
For shielding applications that cannot sufficiently be shielded by only a passive shield, it is usef...
An adjoint method to calculate the gradient of island width in stellarators is presented and applied...
© 2017 IEEE. A physical interpretable equivalent electrical network and its parameters are extracted...
A system is implemented that optimizes two-dimensional magnetostatic devices. The system uses Sensit...
Title: Advances in the adjoint variable method for time-domain electromagnetic simulation
The frequency domain finite element method using i? (cur/)-conforming finite elements is a robust te...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
International audienceOptimization using finite element analysis and the adjoint variable method to ...
Purpose - The purpose of this paper is to study the optimization problem of low-frequency magnetic s...
Many optimization problems in electrical engineering consider a large number of design parameters. A...
In this paper we present two applications of the adjoint variable method (AVM). First we consider a ...
There is a revival of the interest in adjoint sensitivity analysis techniques. This is partly becaus...
Sensitivity analysis enables powerful gradient‐based mathematical programming techniques in the opti...
For shielding applications that cannot sufficiently be shielded by only a passive shield, it is usef...
Using the material derivative concept of continuum mechanics and an adjoint variable method, in a 2-...
For shielding applications that cannot sufficiently be shielded by only a passive shield, it is usef...
An adjoint method to calculate the gradient of island width in stellarators is presented and applied...
© 2017 IEEE. A physical interpretable equivalent electrical network and its parameters are extracted...
A system is implemented that optimizes two-dimensional magnetostatic devices. The system uses Sensit...
Title: Advances in the adjoint variable method for time-domain electromagnetic simulation
The frequency domain finite element method using i? (cur/)-conforming finite elements is a robust te...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...