AbstractAn optimal shape design problem which appears in semiconductor device physics is transformed into an equivalent variational inequality one. The approximation is made by finite element methods. Optimal control methods are used to show the existence of a solution for the variational problem and for the approximate problem. For solving the discretized problem, an algorithm using Newton's method for nonlinear algebraic systems is proposed. An example, together with experimental results, is presented
Abstract. This paper investigates shape optimization of complex thermo-fluid phenomena that occur in...
Ph.D.Electrical engineeringUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp:...
This study is concerned with development of a variational formulation and a procedure for computatio...
AbstractAn optimal shape design problem which appears in semiconductor device physics is transformed...
Abstract: In this paper, the author presents some results concerning the optimal shape design proble...
AbstractA Least-Squares method for solving an optimal shape design problem which appears in semicond...
The approximate solution of optimization and optimal control problems for systems governed by linear...
In this paper, gradient-based optimization methods are combined with finite-element modeling for imp...
We propose two algorithms for elliptic boundary value problems in shape optimization. With the finit...
A numerical method to solve a variational problem with arbitrary boundary conditions has been develo...
We illustrate the complete analytical solution to an optimal design problem of transistor devices ch...
We deal with an optimal control problem governed by a nonlinear boundary value problem in elastostat...
We illustrate the complete analytical solution to an optimal design problem of transistor devices ch...
We present some systematic approaches to the mathematical formulation and numerical resolution of an...
A fixed domain approach is presented for solving an optimal shape design problem governed by the tra...
Abstract. This paper investigates shape optimization of complex thermo-fluid phenomena that occur in...
Ph.D.Electrical engineeringUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp:...
This study is concerned with development of a variational formulation and a procedure for computatio...
AbstractAn optimal shape design problem which appears in semiconductor device physics is transformed...
Abstract: In this paper, the author presents some results concerning the optimal shape design proble...
AbstractA Least-Squares method for solving an optimal shape design problem which appears in semicond...
The approximate solution of optimization and optimal control problems for systems governed by linear...
In this paper, gradient-based optimization methods are combined with finite-element modeling for imp...
We propose two algorithms for elliptic boundary value problems in shape optimization. With the finit...
A numerical method to solve a variational problem with arbitrary boundary conditions has been develo...
We illustrate the complete analytical solution to an optimal design problem of transistor devices ch...
We deal with an optimal control problem governed by a nonlinear boundary value problem in elastostat...
We illustrate the complete analytical solution to an optimal design problem of transistor devices ch...
We present some systematic approaches to the mathematical formulation and numerical resolution of an...
A fixed domain approach is presented for solving an optimal shape design problem governed by the tra...
Abstract. This paper investigates shape optimization of complex thermo-fluid phenomena that occur in...
Ph.D.Electrical engineeringUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp:...
This study is concerned with development of a variational formulation and a procedure for computatio...