Description
Book SynopsisThis book describes the research progress of the control design about strict-feedback nonlinear systems. A novel gain control design method is proposed, which greatly simplifies the construction procedure of controller for strict-feedback nonlinear systems. The control design problem of strict-feedback nonlinear systems is converted into the determination problem of gain parameters or the construction of dynamic gain equations. Therefore, the tedious iterative design procedure is effectively avoided. This book can be used as a reference for researchers in the field of control theory and engineers seeking advanced methods in practical control applications.
Trade Review“Strict-feedback nonlinear systems remain general enough to cover a wide class of dynamical systems in practical control applications. … This book is devoted to presenting a systematic description of recent progress in stability and control of strict-feedback nonlinear systems, mainly within the gain control design framework. … the book may be helpful for some researchers who want to begin the research of strict-feedback nonlinear systems.” (Han Sheng Wu, Mathematical Reviews, December, 2023)
“This book is of great interest to researchers in the fields of control theory and applied mathematics, as well as the engineers who search for advanced methodologies for practical control applications.” (Mihail Voicu, zbMATH 1519.93004, 2023)
Table of Contents1 Introduction1.1 A Brief History 1.2 Examples in Science and Engineering 1.3 Methods and Comparisons 1.4 Fundamental Concepts 2 Control Design of Nonlinear Systems with Constant Gain2.1 Global Stabilization of a Class of Time-Delay Nonlinear Systems 2.2 Disturbance Rejection Control for Systems with Quantized Input and Output2.3 Feedback Stabilization Control for Fractional Order Nonlinear Systems3 Finite Time Control of Nonlinear Systems with Time-varying Gain3.1 Finite-Time Stabilization for Time-Varying Nonlinear Systems3.2 Feedback Stabilization of Nonlinear Systems in any Prescribed Finite Time4 Event-Triggered Control of Nonlinear Systems with Functional Gain4.1 Tracking Control for Nonlinear Systems via Output Feedback 4.2 Output Feedback Control of Switched Systems with Input Saturation5 Control Design of Lower Triangular Nonholonomic Systems 5.1 A Gain Approach to Feedback Regulation of Uncertain Time-Varying Systems 5.2 Sampled-Data Integral Control of Nonholonomic Systems with Disturbances6 Output Feedback Control of Large Scale Nonlinear Systems6.1 Output Feedback Control of Large-Scale Nonlinear Time-Delay Systems 6.2 Event-Triggered Decentralized Control for Systems with Actuator Failures 7 Control Design of Distributed Protocol For Multi-Agent System7.1 Leader-Follower Consensus of Time-Varying Nonlinear Multi-Agent Systems7.2 Prescribed-Time Regulation of Uncertain Systems via Output Feedback7.3 Event-Triggered Consensus Protocol for Nonlinear Multi-Agent SystemsReferences
