TY - JOUR
T1 - Optimal modeling of nonlinear systems
T2 - Method of variable injections
AU - Torokhti, Anatoli
AU - Soto-Quiros, Pablo
N1 - Publisher Copyright:
© (2024), (Universidad Catolica del Norte). All rights reserved.
PY - 2024/2
Y1 - 2024/2
N2 - Our work addresses a development and justification of the new approach to the modeling of nonlinear systems. Let (Formula presented) be an unknown input-output map of the system with a random input and output y and x, respectively. It is assumed that y and x are available and covariance matrices formed from y and x are known. We determine a model of (Formula presented) so that an associated error is minimized. To this end, the model (Formula presented) is constructed as a sum of p + 1 particular parts, in the form (Formula presented) where Gj and Hj, for j = 0,.., p, are matrices to be determined, and vj, for j = 1,.., p, is a special random vector called the injection. We denote v0 = y. Further, Qj is a special transform aimed to facilitate the numerical realization of model (Formula presented). It is determined in the way allowing us to optimally determine Gj and Hj as a solution of p + 1 separate error minimization problems which are simpler than the original minimization problem. The empirical determination of injections v1,.., vp is considered. The proposed method has several degrees of freedom to diminish the associated error. They are ‘degree’ p of Tp, choice of matrices G0, H0,.., Gp, Hp, dimensions of matrices G0, H0,.., Gp, Hp and injections v1,.., vp, respectively. In particular, it is shown that a variation of the injections in their dimensionality and special forms allow us to increase accuracy of the proposed model (Formula presented). The proposed approach differs from known techniques by its ingredients mentioned above. Four numerical examples are provided. At the end, the open problem is formulated.
AB - Our work addresses a development and justification of the new approach to the modeling of nonlinear systems. Let (Formula presented) be an unknown input-output map of the system with a random input and output y and x, respectively. It is assumed that y and x are available and covariance matrices formed from y and x are known. We determine a model of (Formula presented) so that an associated error is minimized. To this end, the model (Formula presented) is constructed as a sum of p + 1 particular parts, in the form (Formula presented) where Gj and Hj, for j = 0,.., p, are matrices to be determined, and vj, for j = 1,.., p, is a special random vector called the injection. We denote v0 = y. Further, Qj is a special transform aimed to facilitate the numerical realization of model (Formula presented). It is determined in the way allowing us to optimally determine Gj and Hj as a solution of p + 1 separate error minimization problems which are simpler than the original minimization problem. The empirical determination of injections v1,.., vp is considered. The proposed method has several degrees of freedom to diminish the associated error. They are ‘degree’ p of Tp, choice of matrices G0, H0,.., Gp, Hp, dimensions of matrices G0, H0,.., Gp, Hp and injections v1,.., vp, respectively. In particular, it is shown that a variation of the injections in their dimensionality and special forms allow us to increase accuracy of the proposed model (Formula presented). The proposed approach differs from known techniques by its ingredients mentioned above. Four numerical examples are provided. At the end, the open problem is formulated.
KW - Error minimization
KW - Nonlinear systems
KW - Optimization
UR - http://www.scopus.com/inward/record.url?scp=85201877186&partnerID=8YFLogxK
U2 - 10.22199/issn.0717-6279-5984
DO - 10.22199/issn.0717-6279-5984
M3 - Artículo
AN - SCOPUS:85201877186
SN - 0716-0917
VL - 43
SP - 189
EP - 224
JO - Proyecciones
JF - Proyecciones
IS - 1
ER -