Nonlinear systems - describing functions analysis and using
Zdenêk Úředníček
- Vol. 210, pp 02021
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TLDR
The paper presents a basic description and examples of the use of so called descriptive functions, allowing analysing the influence of inherent and indispensable components of all mechatronic systems mechanical subsystems so called hard nonlinearities.Abstract:
The paper presents a basic description and examples of the use of so called descriptive functions, allowing analysing the influence of inherent and indispensable components of all mechatronic systems mechanical subsystems so called hard nonlinearities. These parts "causing" in addition to the centrifugal and Coriolis generalized forcesthe nonlinearity of the system, can be analysed by the abovementioned method from the point of view of their origin and the estimation of the basic parameters of their frequent consequences so-called limit cycles. After a short introduction, which introduces and explains describing functions using the example of a nonlinear system taken from the literature, some of the socalled hard nonlinear subsystems (such as the mechanical chain of robots) are shown to be used. The paper is the first part of a more extensive description analysis of nonlinear systems concept using these functions in order to enable analysis and prediction of limit cycles.read more
Citations
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Journal ArticleDOI
The Loewner framework for nonlinear identification and reduction of Hammerstein cascaded dynamical systems
Dimitrios S. Karachalios,Ion Victor Gosea,Athanasios C. Antoulas,Athanasios C. Antoulas,Athanasios C. Antoulas +4 more
TL;DR: An algorithm for data‐driven identification and reduction of nonlinear cascaded systems with Hammerstein structure and it is considered that the orders of the linear transfer function and of the static nonlinearity are not a priori known.
Journal Article
Describing Functions and Prediction of Limit Cycles
TL;DR: The basic approach for this prediction is based on the application of an extended version of the well-known Nyquist criterion from linear control theory to a description of the systems with describing function utilization.
Describing Function Approach with PID Controller to Reduce Nonlinear Action
Khalaf Sallom Gaeid,Raad Z. Homod,Yousif I. Al Mashhadany,Takialddin Al Smadi,Mohammed,Aws Ezzulddin Abbas +5 more
TL;DR: In this paper , the Fourier series is used to analyze the describing function (DF) which is the transfer function of the nonlinear (NL) control systems of many NL elements found such as saturation, and backlash.
On the Infinite-Dimensional Model Multiple-Parameter Estimation Using Feedback-Relay Identification Test
TL;DR: In this paper, a case study on applying the standard single-run relay-feedback parameter identification test to a representative of infinite-dimensional systems is presented, where a delayed mathematical model of a circuit heating laboratory appliance process is used.
Journal ArticleDOI
Systematic Approach Towards Computer Aided Non-Linear Control System Analysis Using Describing Function Models
Aparna S. Telang,P. P. Bedekar +1 more
TL;DR: Main contribution of this paper is to show how user friendly MATLAB tool “Nonlintool” can extensively be used for quicker and wider interpretation of results based on describing function models.
References
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Journal ArticleDOI
High-gain feedback in non-linear control systems†
TL;DR: In this article, a composite additive control strategy, a control-dependent fast equilibrium manifold and a non-linear change of coordinates are proposed for nonlinear control systems with a single additive input by using singular perturbation techniques.
Journal ArticleDOI
Measuring robot kinematics description and its workspace
Zdeněk Úředníček,Rudolf Drga +1 more
TL;DR: Describing 6 degree of freedom measuring robot kinematics description enabling manipulation with measuring effector in 3D space makes possible to determine standby and available robot workplace and mainly to perform the analysis of one fundamental control system problem of such robots- i.