Identification of Bilinear Systems Using an Iterative Deterministic-Stochastic Subspace Approach

Jose A. Ramos; Paulo Lopes dos Santos; Jorge L. Martins de Carvalho

doi:10.1109/cdc.2005.1583309

Identification of Bilinear Systems Using an Iterative Deterministic-Stochastic Subspace Approach

Jose A. Ramos
, Paulo Lopes dos Santos
, Jorge L. Martins de Carvalho

Research output: Contribution to journal › Conference article

12 Scopus citations

Abstract

In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white noise inputs. The new algorithm is based on a convergent sequence of linear deterministic-stochastic state space approximations, thus considered a Picard based method. The key to the algorithm is the fact that the bilinear terms behave like white noise processes. Using a linear Kalman filter, the bilinear terms can be estimated and combined with the system inputs at each iteration, leading to a linear system which can be identified with a linear-deterministic subspace algorithm such as MOESP, N4SID, or CVA. Furthermore, the model parameters obtained with the new algorithm converge to those of a bilinear model. Finally, the dimensions of the data matrices are comparable to those of a linear subspace algorithm, thus avoiding the curse of dimensionality.

Original language	American English
Pages (from-to)	7120-7126
Number of pages	7
Journal	Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference 2005
DOIs	https://doi.org/10.1109/cdc.2005.1583309
State	Published - Dec 1 2005
Event	Proceedings of the 44th IEEE Conference on Decision and Control - Seville, Spain Duration: Dec 15 2005 → …

ASJC Scopus Subject Areas

General Engineering

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Computer Sciences

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10.1109/cdc.2005.1583309

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Identification of Bilinear Systems Using an Iterative Deterministic-Stochastic Subspace Approach. / Ramos, Jose A.; Lopes dos Santos, Paulo; Martins de Carvalho, Jorge L.
In: Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference 2005, 01.12.2005, p. 7120-7126.

Research output: Contribution to journal › Conference article

@article{d8633b7e043c4d3988330757666cf809,

title = "Identification of Bilinear Systems Using an Iterative Deterministic-Stochastic Subspace Approach",

abstract = " In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white noise inputs. The new algorithm is based on a convergent sequence of linear deterministic-stochastic state space approximations, thus considered a Picard based method. The key to the algorithm is the fact that the bilinear terms behave like white noise processes. Using a linear Kalman filter, the bilinear terms can be estimated and combined with the system inputs at each iteration, leading to a linear system which can be identified with a linear-deterministic subspace algorithm such as MOESP, N4SID, or CVA. Furthermore, the model parameters obtained with the new algorithm converge to those of a bilinear model. Finally, the dimensions of the data matrices are comparable to those of a linear subspace algorithm, thus avoiding the curse of dimensionality.",

author = "Ramos, \{Jose A.\} and \{Lopes dos Santos\}, Paulo and \{Martins de Carvalho\}, \{Jorge L.\}",

year = "2005",

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doi = "10.1109/cdc.2005.1583309",

language = "American English",

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T1 - Identification of Bilinear Systems Using an Iterative Deterministic-Stochastic Subspace Approach

AU - Ramos, Jose A.

AU - Lopes dos Santos, Paulo

AU - Martins de Carvalho, Jorge L.

PY - 2005/12/1

Y1 - 2005/12/1

N2 - In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white noise inputs. The new algorithm is based on a convergent sequence of linear deterministic-stochastic state space approximations, thus considered a Picard based method. The key to the algorithm is the fact that the bilinear terms behave like white noise processes. Using a linear Kalman filter, the bilinear terms can be estimated and combined with the system inputs at each iteration, leading to a linear system which can be identified with a linear-deterministic subspace algorithm such as MOESP, N4SID, or CVA. Furthermore, the model parameters obtained with the new algorithm converge to those of a bilinear model. Finally, the dimensions of the data matrices are comparable to those of a linear subspace algorithm, thus avoiding the curse of dimensionality.

AB - In this paper we introduce a new identification algorithm for MIMO bilinear systems driven by white noise inputs. The new algorithm is based on a convergent sequence of linear deterministic-stochastic state space approximations, thus considered a Picard based method. The key to the algorithm is the fact that the bilinear terms behave like white noise processes. Using a linear Kalman filter, the bilinear terms can be estimated and combined with the system inputs at each iteration, leading to a linear system which can be identified with a linear-deterministic subspace algorithm such as MOESP, N4SID, or CVA. Furthermore, the model parameters obtained with the new algorithm converge to those of a bilinear model. Finally, the dimensions of the data matrices are comparable to those of a linear subspace algorithm, thus avoiding the curse of dimensionality.

UR - https://nsuworks.nova.edu/gscis_facarticles/392

U2 - 10.1109/cdc.2005.1583309

DO - 10.1109/cdc.2005.1583309

M3 - Conference article

SP - 7120

EP - 7126

JO - Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference 2005

JF - Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference 2005

T2 - Proceedings of the 44th IEEE Conference on Decision and Control

Y2 - 15 December 2005

ER -

Identification of Bilinear Systems Using an Iterative Deterministic-Stochastic Subspace Approach

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