Premium Members Save 10% Join Now
Classical Feedback Control with Nonlinear Multi-Loop Systems: With MATLAB® and Simulink®, Third Edition
Classical Feedback Control with Nonlinear Multi-Loop Systems describes the design of high-performance feedback control systems, emphasizing the frequency-domain approach widely used in practical engineering. It presents design methods for high-order nonlinear single- and multi-loop controllers with efficient analog and digital implementations. Bode integrals are employed to estimate the available system performance and to determine the ideal frequency responses that maximize the disturbance rejection and feedback bandwidth. Nonlinear dynamic compensators provide global stability and improve transient responses. This book serves as a unique text for an advanced course in control system engineering, and as a valuable reference for practicing engineers competing in today’s industrial environment.

1140464285
Classical Feedback Control with Nonlinear Multi-Loop Systems: With MATLAB® and Simulink®, Third Edition
Classical Feedback Control with Nonlinear Multi-Loop Systems describes the design of high-performance feedback control systems, emphasizing the frequency-domain approach widely used in practical engineering. It presents design methods for high-order nonlinear single- and multi-loop controllers with efficient analog and digital implementations. Bode integrals are employed to estimate the available system performance and to determine the ideal frequency responses that maximize the disturbance rejection and feedback bandwidth. Nonlinear dynamic compensators provide global stability and improve transient responses. This book serves as a unique text for an advanced course in control system engineering, and as a valuable reference for practicing engineers competing in today’s industrial environment.

56.99 In Stock
Error occurred while rendering Product Content.

Overview

Classical Feedback Control with Nonlinear Multi-Loop Systems describes the design of high-performance feedback control systems, emphasizing the frequency-domain approach widely used in practical engineering. It presents design methods for high-order nonlinear single- and multi-loop controllers with efficient analog and digital implementations. Bode integrals are employed to estimate the available system performance and to determine the ideal frequency responses that maximize the disturbance rejection and feedback bandwidth. Nonlinear dynamic compensators provide global stability and improve transient responses. This book serves as a unique text for an advanced course in control system engineering, and as a valuable reference for practicing engineers competing in today’s industrial environment.

Product Details

ISBN-13: 9781032240565
Publisher: CRC Press
Publication date: 12/13/2021
Series: Automation and Control Engineering
Edition description: 3rd ed.
Pages: 594
Product dimensions: 7.00(w) x 10.00(h) x (d)

About the Author

Boris J. Lurie worked for many years in the telecommunication and aerospace industries, and taught at Russian, Israeli, and American universities. He was a senior staff member of the Jet Propulsion Laboratory, California Institute of Technology.

Paul J. Enright currently works in the field of quantitative finance in Chicago. As a member of the technical staff at the Jet Propulsion Laboratory, California Institute of Technology, he designed attitude control systems for interplanetary spacecraft and conducted research in nonlinear control.

Table of Contents

Preface. To Instructors. Feedback and Sensitivity. Feedforward, Multi-loop, and MIMO Systems. Frequency Response Methods. Shaping the Loop Frequency Response. Compensator Design. Analog Controller Implementation. Linear Links and System Simulation. Introduction to Alternative Methods of Controller Design. Adaptive Systems. Provision of Global Stability. Describing Functions. Process Instability. Multiwindow Controllers. Nonlinear Multi-Loop Systems with Uncertainty. Feedback Control, Elementary Treatment. Frequency Responses. Causal Systems, Passive Systems, Positive Real Functions, and Collocated Control. Derivation of Bode Integrals. Program for Phase Calculation. Generic Single-Loop Feedback System. Effect of Feedback on Mobility. Regulation. Balanced Bridge Feedback. Phase-Gain Relation for Describing Functions. Discussions. Design Sequence. Examples. Bode Step Toolbox. Nonlinear Multi-loop Feedback Control (Patent Application). Bibliography. Notation. Index
From the B&N Reads Blog
Page 1 of

Related Subjects

Science & Technology
Engineering
Mechanical Engineering & Dynamics
Physics
Civil & Structural Engineering
Mechanical Physics
Mechanical Engineering - General & Miscellaneous
Mechanical Physics - General & Miscellaneous
Structural Engineering - General & Miscellaneous
Science & Technology
Engineering
Mechanical Engineering & Dynamics
Physics
Civil & Structural Engineering
Mechanical Physics
Mechanical Engineering - General & Miscellaneous
Mechanical Physics - General & Miscellaneous
Structural Engineering - General & Miscellaneous

Customer Reviews