Add to ORKGA computationally simple algorithm for determining the transfer function of multidimensional singular systems, described by a state-space model based on the Givone-Roesser state space setting, is proposed. The method uses the discrete Fourier transform and can be readily implemented on a digital computer. An example is given to illustrate the simplicity and the efficiency of the algorithm
Transfer function models for the description of multidimensional physical systems have recently been...
A new n-dimensional (multi-dimensional) k-order (multi-order) system-model is introduced as an exten...
Abstract. The discrete Fourier transform (DFT) is used for determining the coefficients of a transfe...
A computationally simple algorithm for determining the transfer function of multidimensional singula...
The discrete Fourier transform (DFT) is used for determining the coefficients of a transfer function...
This paper is concerned with the computation of transfer function matrices of linear multivariable s...
A systematic and conceptually simple algorithm is presented for the determination of the transfer fu...
Presented is a state-space characterization of transmission zeros of `singular' linear multivariable...
A theoretically attractive and computationally fast algorithm is presented for the determination of ...
summary:A theoretically attractive and computationally fast algorithm is presented for the determina...
Presented is a state-space characterization of transmission zeros of \u27singular\u27 linear multiva...
The discrete Fourier transform is used to determine the coefficients of a transfer function for n-or...
A method for the transfer function computation of a generalized (singular) two-dimensional (2-D) sta...
When a multivariable system is described by state equations and the transfer function matrix is requ...
Abstract:- The concept of a transfer function in the sense of Fourier transforms plays a central rol...
Transfer function models for the description of multidimensional physical systems have recently been...
A new n-dimensional (multi-dimensional) k-order (multi-order) system-model is introduced as an exten...
Abstract. The discrete Fourier transform (DFT) is used for determining the coefficients of a transfe...
A computationally simple algorithm for determining the transfer function of multidimensional singula...
The discrete Fourier transform (DFT) is used for determining the coefficients of a transfer function...
This paper is concerned with the computation of transfer function matrices of linear multivariable s...
A systematic and conceptually simple algorithm is presented for the determination of the transfer fu...
Presented is a state-space characterization of transmission zeros of `singular' linear multivariable...
A theoretically attractive and computationally fast algorithm is presented for the determination of ...
summary:A theoretically attractive and computationally fast algorithm is presented for the determina...
Presented is a state-space characterization of transmission zeros of \u27singular\u27 linear multiva...
The discrete Fourier transform is used to determine the coefficients of a transfer function for n-or...
A method for the transfer function computation of a generalized (singular) two-dimensional (2-D) sta...
When a multivariable system is described by state equations and the transfer function matrix is requ...
Abstract:- The concept of a transfer function in the sense of Fourier transforms plays a central rol...
Transfer function models for the description of multidimensional physical systems have recently been...
A new n-dimensional (multi-dimensional) k-order (multi-order) system-model is introduced as an exten...
Abstract. The discrete Fourier transform (DFT) is used for determining the coefficients of a transfe...