Active Disturbance Rejection Control Of Dynamic Systems
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Active Disturbance Rejection Control of Dynamic Systems
Author: Hebertt Sira-Ramirez
language: en
Publisher: Butterworth-Heinemann
Release Date: 2017-05-15
Active Disturbance Rejection Control of Dynamic Systems: A Flatness Based Approach describes the linear control of uncertain nonlinear systems. The net result is a practical controller design that is simple and surprisingly robust, one that also guarantees convergence to small neighborhoods of desired equilibria or tracking errors that are as close to zero as desired. This methodology differs from current robust feedback controllers characterized by either complex matrix manipulations, complex parameter adaptation schemes and, in other cases, induced high frequency noises through the classical chattering phenomenon. The approach contains many of the cornerstones, or philosophical features, of Model Free Control and ADRC, while exploiting flatness and GPI control in an efficient manner for linear, nonlinear, mono-variable and multivariable systems, including those exhibiting inputs delays. The book contains successful experimental laboratory case studies of diverse engineering problems, especially those relating to mechanical, electro-mechanical, robotics, mobile robotics and power electronics systems. - Provides an alternative way to solve disturbance rejection problems and robust control problem beyond the existing approaches based on matrix algebra and state observers - Generalizes the widely studied Extended State Observer to a class of observers called Generalized Proportional Integral Observers (GPI Observers) - Contains successful experimental laboratory case studies
Composite Disturbance Rejection Control (CDRC) for Complex Dynamic Systems
Composite Disturbance Rejection Control (CDRC) for Complex Dynamic Systems introduces a range of innovative composite disturbance rejection control methods, integrating DOB, ADRC, and other advanced control algorithms. These methods are poised to enhance the control performance of diverse practical control systems in the presence of disturbances. Disturbances are pervasive in modern engineering systems, exerting a nonnegligible negative influence on system performance, and conventional control methods like PID exhibit limited efficacy in managing disturbances, while certain advanced control approaches face practical implementation challenges in real-world control systems for a multitude of reasons. - Offers a comprehensive exploration of control strategies across multiple chapters - Deepens reader understanding of these methods and enhances their ability to select the most suitable approach for specific situations - Introduces a range of Combined Disturbance Rejection Control (CDRC) methods created by merging different disturbance rejection control techniques. - Provides readers with innovative approaches to designing control systems tailored to diverse scenarios - Presents numerous examples and solutions for industrial control systems
Active Disturbance Rejection Control for Nonlinear Systems
A concise, in-depth introduction to active disturbance rejection control theory for nonlinear systems, with numerical simulations and clearly worked out equations Provides the fundamental, theoretical foundation for applications of active disturbance rejection control Features numerical simulations and clearly worked out equations Highlights the advantages of active disturbance rejection control, including small overshooting, fast convergence, and energy savings