Add to ORKGBilinear systems are attractive candidates for many dynamical processes, since they allow a significantly larger class of behaviour than linear systems, yet retain a rich theory which is closely related to the familiar theory of linear systems. A new technique for the control of unknown MIMO bilinear systems is introduced. The scheme is based on the U-model with identification based on Radial Basis Functions neural networks which is known for mapping any nonlinear function. U-Model is a control oriented model used to represent a wide range of non-linear discrete time dynamic plants. The proposed tracking scheme is presented and verified using simulation examples
In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white ...
This chapter deals with the adaptive tracking problem for a class of MIMO discrete-time nonlinear sy...
Linear Multi-Input Multi-Output (MIMO) dynamic models can be identified, with no a priori knowledge ...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems offer a promising approach for nonlinear control because a broad class of nonlinear...
Bilinear systems are important per se since several phenomena in engineering and other fields are in...
Bilinear systems offer a promising approach for nonlinear control because a broad class of nonlinear...
Bilinear systems can be viewed as a bridge between linear and nonlinear systems, providing a promisi...
A method based on the use of an Adaptive Control Module (ACM) made thanks to the knowledge of the pr...
Journal ArticleAbstract-This paper is concerned with the blind identification of a class of bilinear...
WOS: 000282402400011PubMed ID: 20471011This paper presents a novel model with radial basis functions...
Adaptive Inverse Control (AIC) is a very significant approach for control of unknown linear and nonl...
In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white ...
This chapter deals with the adaptive tracking problem for a class of MIMO discrete-time nonlinear sy...
Linear Multi-Input Multi-Output (MIMO) dynamic models can be identified, with no a priori knowledge ...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems are attractive candidates for many dynamical processes, since they allow a signific...
Bilinear systems offer a promising approach for nonlinear control because a broad class of nonlinear...
Bilinear systems are important per se since several phenomena in engineering and other fields are in...
Bilinear systems offer a promising approach for nonlinear control because a broad class of nonlinear...
Bilinear systems can be viewed as a bridge between linear and nonlinear systems, providing a promisi...
A method based on the use of an Adaptive Control Module (ACM) made thanks to the knowledge of the pr...
Journal ArticleAbstract-This paper is concerned with the blind identification of a class of bilinear...
WOS: 000282402400011PubMed ID: 20471011This paper presents a novel model with radial basis functions...
Adaptive Inverse Control (AIC) is a very significant approach for control of unknown linear and nonl...
In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white ...
This chapter deals with the adaptive tracking problem for a class of MIMO discrete-time nonlinear sy...
Linear Multi-Input Multi-Output (MIMO) dynamic models can be identified, with no a priori knowledge ...