This letter presents a closed-form solution to estimate space-dependent transport parameters of a linear one dimensional diffusion-transport-reaction equation. The infinite dimensional problem is approximated by a finite dimensional model by 1) taking a frequency domain approach, 2) linear parameterization of the unknown parameters, and 3) using a semi-discretization. Assuming full state knowledge, the commonly used output error criterion is rewritten as the equation error criterion such that the problem results in linear least squares. The optimum is then given by a closed-form solution, avoiding computational expensive optimization methods. Functioning of the proposed method is illustrated by means of simulation.</p
An optimal finite-dimensional modeling technique is presented for a standard class of distributed pa...
Abstract — : In this paper, we discuss on-line adaptive estimation of distributed diffusion and sour...
The typical inverse problems in transport phenomena are given by partial differential equations with...
This letter presents a closed-form solution to estimate space-dependent transport parameters of a li...
This paper presents a frequency domain approach to estimate spatially varying physical parameters of...
Heat and particle transport play an important part in the performance of fusion reactors. This can b...
This letter presents a method to estimate the space-dependent transport coefficients (diffusion, con...
Diffusion is a phenomenon in which particles move from regions of higher density to regions of lower...
Abstract. The objective of this work is to discuss a more general one-dimensional diffusion equation...
none4noIn this work we present an iterative algorithm for solving a parameter identification problem...
AbstractWe describe an approximation scheme which can be used to estimate unknown parameters in movi...
Part 7: Applications and Control of Lumped Parameter SystemsInternational audienceIn this work we pr...
An optimal finite-dimensional modeling technique is presented for a standard class of distributed pa...
Abstract — : In this paper, we discuss on-line adaptive estimation of distributed diffusion and sour...
The typical inverse problems in transport phenomena are given by partial differential equations with...
This letter presents a closed-form solution to estimate space-dependent transport parameters of a li...
This paper presents a frequency domain approach to estimate spatially varying physical parameters of...
Heat and particle transport play an important part in the performance of fusion reactors. This can b...
This letter presents a method to estimate the space-dependent transport coefficients (diffusion, con...
Diffusion is a phenomenon in which particles move from regions of higher density to regions of lower...
Abstract. The objective of this work is to discuss a more general one-dimensional diffusion equation...
none4noIn this work we present an iterative algorithm for solving a parameter identification problem...
AbstractWe describe an approximation scheme which can be used to estimate unknown parameters in movi...
Part 7: Applications and Control of Lumped Parameter SystemsInternational audienceIn this work we pr...
An optimal finite-dimensional modeling technique is presented for a standard class of distributed pa...
Abstract — : In this paper, we discuss on-line adaptive estimation of distributed diffusion and sour...
The typical inverse problems in transport phenomena are given by partial differential equations with...