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E-book: Sliding Modes in Control and Optimization

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The book is devoted to systems with discontinuous control. The study of discontinuous dynamic systems is a multifacet problem which embraces mathematical, control theoretic and application aspects. Times and again, this problem has been approached by mathematicians, physicists and engineers, each profession treating it from its own positions. Interestingly, the results obtained by specialists in different disciplines have almost always had a significant effect upon the development of the control theory. It suffices to mention works on the theory of oscillations of discontinuous nonlinear systems, mathematical studies in ordinary differential equations with discontinuous righthand parts or variational problems in nonclassic statements. The unremitting interest to discontinuous control systems enhanced by their effective application to solution of problems most diverse in their physical nature and functional purpose is, in the author's opinion, a cogent argument in favour of the importance of this area of studies. It seems a useful effort to consider, from a control theoretic viewpoint, the mathematical and application aspects of the theory of discontinuous dynamic systems and determine their place within the scope of the present-day control theory. The first attempt was made by the author in 1975-1976 in his course on "The Theory of Discontinuous Dynamic Systems" and "The Theory of Variable Structure Systems" read to post-graduates at the University of Illinois, USA, and then presented in 1978-1979 at the seminars held in the Laboratory of Systems with Discontinous Control at the Institute of Control Sciences in Moscow.

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Springer Book Archives
Part I. Mathematical Tools 1(74)
Chapter 1 Scope of the Theory of Sliding Modes
1(11)
1 Shaping the Problem
1(6)
2 Formalization of Sliding Mode Description
7(3)
3 Sliding Modes in Control Systems
10(2)
Chapter 2 Mathematical Description of Motions on Discontinuity Boundaries
12(17)
1 Regularization Problem
12(2)
2 Equivalent Control Method
14(2)
3 Regularization of Systems Linear with Respect to Control
16(6)
4 Physical Meaning of the Equivalent Control
22(3)
5 Stochastic Regularization
25(4)
Chapter 3 The Uniqueness Problems
29(15)
1 Examples of Discontinuous Systems with Ambiguous Sliding Equations
29(9)
1.1 Systems with Scalar Control
30(5)
1.2 Systems Nonlinear with Respect to Vector-Valued Control
35(1)
1.3 Example of Ambiguity in a System Linear with Respect to Control
36(2)
2 Minimal Convex Sets
38(3)
3 Ambiguity in Systems Linear with Respect to Control
41(3)
Chapter 4 Stability of Sliding Modes
44(22)
1 Problem Statement, Definitions, Necessary Conditions for Stability
44(2)
2 An Analog of Lyapunov's Theorem to Determine the Sliding Mode Domain
46(4)
3 Piecewise Smooth Lyapunov Functions
50(5)
4 Quadratic Forms Method
55(4)
5 Systems with a Vector-Valued Control Hierarchy
59(4)
6 The Finiteness of Lyapunov Functions in Discontinuous Dynamic Systems
63(3)
Chapter 5 Singularly Perturbed Discontinuous Systems
66(9)
1 Separation of Motions in Singularly Perturbed Systems
66(2)
2 Problem Statement for Systems with Discontinuous control
68(2)
3 Sliding Modes in Singularly Perturbed Discontinuous Control Systems
70(5)
Part II. Design 75(162)
Chapter 6 Decoupling in Systems with Discontinuous Controls
76(15)
1 Problem Statement
76(2)
2 Invariant Transformations
78(2)
3 Design Procedure
80(1)
4 Reduction of the Control System Equations to a Regular Form
81(10)
4.1 Single-Input Systems
85(2)
4.2 Multiple-Input Systems
87(4)
Chapter 7 Eigenvalue Allocation
91(20)
1 Controllability of Stationary Linear Systems
91(3)
2 Canonical Controllability Form
94(2)
3 Eigenvalue Allocation in Linear Systems. Stabilizability.
96(3)
4 Design of Discontinuity Surfaces
99(5)
5 Stability of Sliding Modes
104(4)
6 Estimation of Convergence to Sliding Manifold
108(3)
Chapter 8 Systems with Scalar Control
111(20)
1 Design of Locally Stable Sliding Modes
111(4)
2 Conditions of Sliding Mode Stability "in the Large"
115(6)
3 Design Procedure: An Example
121(2)
4 Systems in the Canonical Form
123(8)
Chapter 9 Dynamic Optimization
131(14)
1 Problem Statement
131(1)
2 Observability, Detectability
132(3)
3 Optimal Control in Linear Systems with Quadratic Criterion
135(2)
4 Optimal Sliding Modes
137(2)
5 Parametric Optimization
139(2)
6 Optimization in Time-Varying Systems
141(4)
Chapter 10 Control of Linear Plants in the Presence of Disturbances
145(10)
1 Problem Statement
145(1)
2 Sliding Mode Invariance Conditions
146(2)
3 Combined Systems
148(1)
4 Invariant Systems Without Disturbance Measurements
149(2)
5 Eigenvalue Allocation in Invariant System with Non-measurable Disturbances
151(4)
Chapter 11 Systems with High Gains and Discontinuous Controls
155(14)
1 Decoupled Motion Systems
155(2)
2 Linear Time-Invariant Systems
157(2)
3 Equivalent Control Method for the Study of Non-linear High-Gain Systems
159(7)
4 Concluding Remarks
166(3)
Chapter 12 Control of Distributed-Parameter Plants
169(20)
1 Systems with Mobile Control
169(11)
2 Design Based on the Lyapunov Method
180(4)
3 Modal Control
184(2)
4 Design of Distributed Control of Multi-Variable Heat Processes
186(3)
Chapter 13 Control Under Uncertainty Conditions
189(17)
1 Design of Adaptive Systems with Reference Model
189(5)
2 Identification with Piecewise-Continuous Dynamic Models
194(5)
3 Method of Self-Optimization
199(7)
Chapter 14 State Observation and Filtering
206(17)
1 The Luenberger Observer
206(1)
2 Observer with Discontinuous Parameters
207(3)
3 Sliding Modes in Systems with Asymptotic Observers
210(7)
4 Quasi-Optimal Adaptive Filtering
217(6)
Chapter 15 Sliding Modes in Problems of Mathematical Programming
223(14)
1 Problem Statement
223(3)
2 Motion Equations and Necessary Existence Conditions for Sliding Mode
226(1)
3 Gradient Procedures for Piecewise Smooth Function
227(3)
4 Conditions for Penalty Function Existence. Convergence of Gradient Procedure
230(2)
5 Design of Piecewise Smooth Penalty Function
232(1)
6 Linearly Independent Constraints
233(4)
Part III. Applications 237(41)
Chapter 16 Manipulator Control System
239(11)
1 Model of Robot Arm
240(1)
2 Problem Statement
240(1)
3 Design of Control
241(2)
4 Design of Control System for a Two-joint Manipulator
243(3)
5 Manipulator Simulation
246(2)
6 Path Control
248(1)
7 Conclusions
249(1)
Chapter 17 Sliding Modes in Control of Electric Motors
250(15)
1 Problem Statement
250(1)
2 Control of d.c. Motor
251(4)
3 Control of Induction Motor
255(5)
4 Control of Synchronous Motor
260(5)
Chapter 18 Examples
265(13)
1 Electric Drives for Metal-cutting Machine Tools
265(4)
2 Vehicle Control
269(2)
3 Process Control
271(4)
4 Other Applications
275(3)
References 278(7)
Subject Index 285
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