Non-identifier Based Adaptive Control in Mechatronics [electronic resource] : Theory and Application / by Christoph M. Hackl.

За: Інтелектуальна відповідальність: Вид матеріалу: Текст Серія: Lecture Notes in Control and Information Sciences ; 466Публікація: Cham : Springer International Publishing : Imprint: Springer, 2017Видання: 1st ed. 2017Опис: XXI, 652 p. 172 illus., 147 illus. in color. online resourceТип вмісту:
  • text
Тип засобу:
  • computer
Тип носія:
  • online resource
ISBN:
  • 9783319550367
Тематика(и): Додаткові фізичні формати: Printed edition:: Немає назви; Printed edition:: Немає назви; Printed edition:: Немає назвиДесяткова класифікація Дьюї:
  • 629.8 23
Класифікація Бібліотеки Конгресу:
  • TJ212-225
Електронне місцезнаходження та доступ:
Вміст:
Motivation and outline -- Brief historical overview of control systems, mechatronics and motion control -- Problem statement for mechatronic systems -- Contributions of this book -- Mathematical preliminaries -- High-gain adaptive stabilization -- High-gain adaptive tracking with internal model -- Adaptive λ-tracking control -- Funnel control -- Joint position control of rigid-link revolute-joint robotic manipulator -- Conclusion -- Problems and solutions.
У: Springer eBooksЗведення: This book introduces non-identifier-based adaptive control (with and without internal model) and its application to the current, speed and position control of mechatronic systems such as electrical synchronous machines, wind turbine systems, industrial servo systems, and rigid-link, revolute-joint robots. In mechatronics, there is often only rough knowledge of the system. Due to parameter uncertainties, nonlinearities and unknown disturbances, model-based control strategies can reach their performance or stability limits without iterative controller design and performance evaluation, or system identification and parameter estimation. The non-identifier-based adaptive control presented is an alternative that neither identifies the system nor estimates its parameters but ensures stability. The adaptive controllers are easy to implement, compensate for disturbances and are inherently robust to parameter uncertainties and nonlinearities. For controller implementation only structural system knowledge (like relative degree, input-to-state stable zero dynamics and known sign of the high-frequency gain) is required. Moreover, the presented controllers guarantee reference tracking with prescribed asymptotic or transient accuracy, i.e. the tracking error eventually tends to or for all time evolves within an a priori specified region. The book presents the theory, modeling and application in a general but detailed and self-contained manner, making it easy to read and understand, particularly for newcomers to the topics covered.
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Motivation and outline -- Brief historical overview of control systems, mechatronics and motion control -- Problem statement for mechatronic systems -- Contributions of this book -- Mathematical preliminaries -- High-gain adaptive stabilization -- High-gain adaptive tracking with internal model -- Adaptive λ-tracking control -- Funnel control -- Joint position control of rigid-link revolute-joint robotic manipulator -- Conclusion -- Problems and solutions.

This book introduces non-identifier-based adaptive control (with and without internal model) and its application to the current, speed and position control of mechatronic systems such as electrical synchronous machines, wind turbine systems, industrial servo systems, and rigid-link, revolute-joint robots. In mechatronics, there is often only rough knowledge of the system. Due to parameter uncertainties, nonlinearities and unknown disturbances, model-based control strategies can reach their performance or stability limits without iterative controller design and performance evaluation, or system identification and parameter estimation. The non-identifier-based adaptive control presented is an alternative that neither identifies the system nor estimates its parameters but ensures stability. The adaptive controllers are easy to implement, compensate for disturbances and are inherently robust to parameter uncertainties and nonlinearities. For controller implementation only structural system knowledge (like relative degree, input-to-state stable zero dynamics and known sign of the high-frequency gain) is required. Moreover, the presented controllers guarantee reference tracking with prescribed asymptotic or transient accuracy, i.e. the tracking error eventually tends to or for all time evolves within an a priori specified region. The book presents the theory, modeling and application in a general but detailed and self-contained manner, making it easy to read and understand, particularly for newcomers to the topics covered.

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