Approach to design of Nonlinear Robust Control in a Class of Structurally Stable Functions
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Publication:3551299
zbMATH Open1189.93039arXiv0901.2877MaRDI QIDQ3551299
Publication date: 15 April 2010
Abstract: An approach to stabilization of control systems with ultimately wide ranges of uncertainly disturbed parameters is offered. The method relies on using of nonlinear structurally stable functions from catastrophe theory as controllers. Analytical part presents an analysis of designed nonlinear second-order control systems. As more important the integrators in series, canonical controllable form and Jordan forms are considered. The analysis resumes that due to added controllers systems become stable and insensitive to any disturbance of parameters. Experimental part presents MATLAB simulation of design of possible control systems on the examples of epidemic spread, angular motion of aircraft and submarine depth. The results of simulation confirm the efficiency of offered method of design.
Full work available at URL: https://arxiv.org/abs/0901.2877
Sensitivity (robustness) (93B35) Canonical structure (93B10) Control problems involving ordinary differential equations (34H05) Control/observation systems governed by ordinary differential equations (93C15)
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