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E-raamat: Tracking Control of Linear Systems

(University of Technology of BelfortMontbéliard, France (Retired))
  • Formaat: 423 pages
  • Ilmumisaeg: 03-Oct-2018
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781466587526
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Tracking Control of Linear SystemsSuurem pilt
  • Formaat: 423 pages
  • Ilmumisaeg: 03-Oct-2018
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781466587526
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The primary purpose of control is to force desired behavior in an unpredictable environment, under the actions of unknown, possibly unmeasurable disturbances and unpredictable, and therefore probably nonzero, initial conditions. This means that tracking and tracking control synthesis are fundamental control issues. Surprisingly, however, tracking theory has not been well developed, and stability theory has dominated. Tracking Control of Linear Systems presents the fundamentals of tracking theory for control systems. The book introduces the full transfer function matrix F(s), which substantially changes the theory of linear dynamical and control systems and enables a novel synthesis of tracking control that works more effectively in real environments.





An Introduction to the New Fundamentals of the Theory of Linear Control Systems





The book begins by re-examining classic linear control systems theory. It then defines and determines the system full (complete) transfer function matrix F(s) for two classes of systems: input-output (IO) control systems and input-state-output (ISO) control systems. The book also discusses the fundamentals of tracking and trackability. It presents new Lyapunov tracking control algorithms and natural tracking control (NTC) algorithms, which ensure the quality of the tracking under arbitrary disturbances and initial conditions. This natural tracking control is robust, adaptable, and simple to implement.





Advances in Linear Control Systems Theory: Tracking and Trackability





This book familiarizes readers with novel, sophisticated approaches and methods for tracking control design in real conditions. Contributing to the advancement of linear control systems theory, this work opens new directions for research in time-invariant continuous-time linear control systems. It builds on previous works in the field, extending treatment o
List of Figures
xi
Acknowledgments xiii
Preface xv
0.1 On the book xv
0.2 In gratitude xviii
I On Control Systems Classic Fundamentals
1(56)
1 Introduction
3(14)
1.1 Time, physical variables and systems
3(4)
1.2 Systems and complex domain
7(7)
1.3 Notational preliminaries
14(3)
2 Control Systems
17(16)
2.1 IO control systems
17(11)
2.1.1 General IO system description
17(9)
2.1.2 Input-output (IO) description of a plant
26(1)
2.1.3 Input-output (IO) description of a feedback controller
27(1)
2.1.4 Input-output (IO) description of a feedback control system
28(1)
2.2 ISO control systems
28(5)
2.2.1 General ISO system
28(1)
2.2.2 ISO plant
29(1)
2.2.3 ISO feedback controller
30(1)
2.2.4 ISO feedback control system
31(2)
3 System Regimes
33(20)
3.1 System regime meaning
33(1)
3.2 Forced and free regimes
34(1)
3.2.1 Introduction
34(1)
3.2.2 Basic problem
35(1)
3.3 Desired regime
35(18)
3.3.1 Introduction
35(4)
3.3.2 IO control systems
39(4)
3.3.3 ISO control systems
43(10)
4 Transfer function matrix G(s)
53(4)
4.1 On definitions of G(s)
53(1)
4.2 On importance of G(s)
54(3)
II Novel System Fundamental: Full Transfer Function Matrix F(s)
57(60)
5 Problem statement
59(2)
6 Nondegenerate matrices
61(6)
6.1 Nondegenerate and degenerate matrices
61(4)
6.2 Basic lemma
65(2)
7 Full transfer function matrix F(s)
67(50)
7.1 General definitions of F(s)
67(6)
7.1.1 Definition of F(s): IO system
67(3)
7.1.2 Definition of F(s): ISO system
70(3)
7.2 Determination of F(s) in general
73(23)
7.2.1 F(s) of the IO system
74(10)
7.2.2 F(s) of the ISO system
84(12)
7.3 F(s) of the IO control system
96(7)
7.3.1 F(s) of the IO plant
96(2)
7.3.2 F(s) of the IO controller
98(1)
7.3.3 F(s) of the IO control system
99(4)
7.4 F(s) of the ISO control system
103(7)
7.4.1 F(s) of the ISO plant
103(2)
7.4.2 F(s) of the ISO controller
105(1)
7.4.3 F(s) of the ISO control system
106(4)
7.5 Conclusion: general form of F(s)
110(1)
7.6 Physical meaning of F(s)
111(6)
7.6.1 The IO system
111(3)
7.6.2 The ISO system
114(3)
III Novel Control Theories: Tracking and Trackability
117(90)
8 Tracking theory
119(50)
8.1 Tracking generally
119(3)
8.2 Tracking versus stability
122(2)
8.3 Perfect tracking: characterization
124(9)
8.3.1 On perfect tracking generally
124(2)
8.3.2 The IO systems
126(4)
8.3.3 The ISO systems
130(3)
8.4 Imperfect tracking: characterization
133(36)
8.4.1 Output space: tracking in Lyapunov sense
133(5)
8.4.2 Output space: tracking with FRT
138(5)
8.4.3 Internal dynamics space: the IO plant tracking
143(8)
8.4.4 The ISO plant tracking in Lyapunov sense
151(3)
8.4.5 State space: the ISO plant tracking with FRT
154(4)
8.4.6 Tracking of the ISO plant and the target set
158(11)
9 Trackability theory
169(38)
9.1 Trackability versus controllability
169(2)
9.2 Trackability definitions
171(14)
9.2.1 Perfect trackability
171(3)
9.2.2 Perfect natural trackability
174(1)
9.2.3 Imperfect trackability
175(3)
9.2.4 Imperfect natural trackability
178(3)
9.2.5 Imperfect elementwise trackability
181(4)
9.3 Perfect trackability conditions
185(12)
9.3.1 IO plant perfect (natural) trackability
185(6)
9.3.2 ISO plant perfect (natural) trackability
191(6)
9.4 Imperfect trackability conditions
197(10)
9.4.1 IO plant imperfect (natural) trackability
197(4)
9.4.2 ISO plant imperfect (natural) trackability
201(6)
IV Novel Tracking Control Synthesis
207(94)
10 Linear tracking control (LITC)
209(14)
10.1 Generating theorem
209(6)
10.2 LITC of the IO plants
215(3)
10.3 LITC of the ISO plants
218(5)
11 Lyapunov Tracking Control (LTC)
223(26)
11.1 Vector Lyapunov function (VLF)
223(5)
11.1.1 Introduction to VLF concept
223(1)
11.1.2 Definitions of VLF's
223(2)
11.1.3 VLF generalization of the classical stability theorems
225(1)
11.1.4 VLF forms
226(2)
11.2 LTC of the IO plant
228(14)
11.2.1 Arbitrary scalar Lyapunov function
228(4)
11.2.2 The first choice of a scalar Lyapunov function
232(3)
11.2.3 The second choice of a scalar Lyapunov function
235(4)
11.2.4 Choice of a vector Lyapunov function
239(3)
11.3 LTC of the ISO plant
242(7)
11.3.1 Arbitrary scalar Lyapunov function
242(3)
11.3.2 Choice of a scalar Lyapunov function
245(2)
11.3.3 Choice of a vector Lyapunov function
247(2)
12 Natural Tracking Control (NTC)
249(44)
12.1 Concept of NTC
249(18)
12.2 NTC of the IO plant
267(12)
12.2.1 General consideration
267(4)
12.2.2 Control synthesis for specific tracking qualities
271(8)
12.3 NTC of the ISO plant
279(14)
12.3.1 General consideration
279(7)
12.3.2 Control synthesis for specific tracking qualities
286(7)
13 NTC versus LTC
293(8)
13.1 General consideration
293(3)
13.2 The IO plant
296(2)
13.3 The ISO plant
298(3)
V Conclusion
301(38)
14 On F(s)
303(2)
15 On tracking and trackability
305(2)
16 On tracking control
307(2)
17 Recommendation
309(30)
VI Appendixes
339(2)
A Notation
341(22)
A.1 Abbreviations
341(1)
A.2 Indexes
342(1)
A.2.1 Subscripts
342(1)
A.2.2 SUPERSCRIPT
342(1)
A.3 Letters
342(15)
A.3.1 Calligraphic letters
342(1)
A.3.2 Fraktur letters
343(3)
A.3.3 Greek letters
346(3)
A.3.4 Roman letters
349(8)
A.4 Names and symbols
357(4)
A.4.1 Names
357(1)
A.4.2 Symbols and vectors
358(3)
A.5 Units
361(2)
B From IO system to ISO system
363(4)
C From ISO system to IO system
367(2)
D Proof of Theorem 64
369(2)
E Proof of Theorem 67
371(6)
F Proof of Theorem 72
377(2)
G Proof of Theorem 91
379(2)
H Proof of Lemma 102 (Basic Lemma)
381(2)
I Proof of Theorem 116
383(4)
J Proof of Theorem 142
387(2)
K Proof of Theorem 145
389(2)
L Proof of Theorem 149
391(2)
Author Index 393(2)
Subject Index 395
Gruyitch, Lyubomir T.
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