Tracking control of a flexible beam by nonlinear boundary feedback.
Guo, Bao-Zhu, Song, Qian (1995)
Journal of Applied Mathematics and Stochastic Analysis
I. Vakilzadeh, Heinz Unbehauen (1993)
Kybernetika
P.G. Spain, N.J. Young, J.W. Helton (1990/1991)
Numerische Mathematik
Ungureanu, Viorica (2005)
Acta Universitatis Apulensis. Mathematics - Informatics
Bernardino Castillo-Toledo, Stefano Di Gennaro, Armando López-Cuevas (2015)
Kybernetika
In this work, an alternative solution to the tracking problem for a SISO nonlinear dynamical system exhibiting points of singularity is given. An inversion-based controller is synthesized using the Fliess generalized observability canonical form associated to the system. This form depends on the input and its derivatives. For this purpose, a robust exact differentiator is used for estimating the control derivatives signals with the aim of defining a control law depending on such control derivative...
Achim Ilchmann, E. P. Ryan, C. J. Sangwin (2002)
ESAIM: Control, Optimisation and Calculus of Variations
Universal tracking control is investigated in the context of a class of -input, -output dynamical systems modelled by functional differential equations. The class encompasses a wide variety of nonlinear and infinite-dimensional systems and contains – as a prototype subclass – all finite-dimensional linear single-input single-output minimum-phase systems with positive high-frequency gain. The control objective is to ensure that, for an arbitrary -valued reference signal of class (absolutely...
Achim Ilchmann, E. P. Ryan, C. J. Sangwin (2010)
ESAIM: Control, Optimisation and Calculus of Variations
Universal tracking control is investigated in the context of a class S of M-input, M-output dynamical systems modelled by functional differential equations. The class encompasses a wide variety of nonlinear and infinite-dimensional systems and contains – as a prototype subclass – all finite-dimensional linear single-input single-output minimum-phase systems with positive high-frequency gain. The control objective is to ensure that, for an arbitrary -valued reference signal r of class W1,∞ (absolutely...
de Melo, Leonimer Flavio, Junior, Jose Fernando Mangili (2010)
Mathematical Problems in Engineering
Cari, Elmer P.T., Theodoro, Edson A.R., Mijolaro, Ana P., Bretas, Newton G., Alberto, Luis F.C. (2009)
Mathematical Problems in Engineering
Luis Alejandro Márquez-Martínez, Claude H. Moog (2001)
Kybernetika
The reference trajectory tracking problem is considered in this paper and (constructive) sufficient conditions are given for the existence of a causal state feedback solution. The main result is introduced as a byproduct of input-output feedback linearization.
Maciej Michałek, Piotr Dutkiewicz, Marcin Kiełczewski, Dariusz Pazderski (2009)
International Journal of Applied Mathematics and Computer Science
The article is devoted to a motion control problem for a differentially driven mobile robot in the task of trajectory tracking in the presence of skid-slip effects. The kinematic control concept presented in the paper is the Vector Field Orientation (VFO) feedback approach with a nonlinear feed-forward skid-slip influence compensation scheme. The VFO control law guarantees asymptotic convergence of the position tracking error to zero in spite of the disturbing influence of skid-slip phenomena. The...
Jaromír Šiška (1983)
Commentationes Mathematicae Universitatis Carolinae
George E. Antoniou (2000)
Kybernetika
A theoretically attractive and computationally fast algorithm is presented for the determination of the coefficients of the determinantal polynomial and the coefficients of the adjoint polynomial matrix of a given three-dimensional (3–D) state space model of Fornasini–Marchesini type. The algorithm uses the discrete Fourier transform (DFT) and can be easily implemented on a digital computer.
Vladimír Kučera (1998)
Kybernetika
Equivalence of several feedback and/or feedforward compensation schemes in linear systems is investigated. The classes of compensators that are realizable using static or dynamic, state or output feedback are characterized. Stability of the compensated system is studied. Applications to model matching are included.
W. Kreil, W. Schnitzler, Gerhard Schweizer (1968)
Kybernetika
Vladimír Kučera (1978)
Kybernetika
Vadim Kaparin, Ülle Kotta (2015)
Kybernetika
Necessary and sufficient conditions are given for the existence of state and output transformations, that bring single-input single-output nonlinear state equations into the observer form. The conditions are formulated in terms of differential one-forms, associated with an input-output equation of the system. An algorithm for transformation of the state equations into the observer form is presented and illustrated by an example.
Jovan Stefanovski (2012)
Kybernetika
We show how we can transform the and control problems of descriptor systems with invariant zeros on the extended imaginary into problems with state-space systems without such zeros. Then we present necessary and sufficient conditions for existence of solutions of the original problems. Numerical algorithm for control is given, based on the Nevanlinna-Pick theorem. Also, we present an explicit formula for the optimal controller.
Jiří Pik (1998)
Kybernetika
An interesting analogy can be found between recognition of noisy, distorted, or incomplete structural patterns and analysis, modelling and control of actual discrete event systems, where different types of uncertainty can occur.
Loïc Hervé (1996)
Revista Matemática Iberoamericana
We consider quadrature mirror filters, and the associated wavelet packet transform. Let X = {Xn}n∈Z be a stationary signal which has a continuous spectral density f. We prove that the 2n signals obtained from X by n iterations of the transform converge to white noises when n → +∞. If f is holderian, the convergence rate is exponential.