Explore a unified view of differential equations through the use of the generalized ODE from leading academics in mathematics

Generalized Ordinary Differential Equations in Abstract Spaces and Applications delivers a comprehensive treatment of new results of the theory of Generalized ODEs in abstract spaces. The book covers applications to other types of differential equations, including Measure Functional Differential Equations (measure FDEs). It presents a uniform collection of qualitative results of Generalized ODEs and offers readers an introduction to several theories, including ordinary differential equations, impulsive differential equations, functional differential equations, dynamical equations on time scales, and more.

Throughout the book, the focus is on qualitative theory and on corresponding results for other types of differential equations, as well as the connection between Generalized Ordinary Differential Equations and impulsive differential equations, functional differential equations, measure differential equations and dynamic equations on time scales. The books descriptions will be of use in many mathematical contexts, as well as in the social and natural sciences. Readers will also benefit from the inclusion of:A thorough introduction to regulated functions, including their basic properties, equiregulated sets, uniform convergence, and relatively compact setsAn exploration of the Kurzweil integral, including its definitions and basic propertiesA discussion of measure functional differential equations, including impulsive measure FDEsThe interrelationship between generalized ODEs and measure FDEsA treatment of the basic properties of generalized ODEs, including the existence and uniqueness of solutions, and prolongation and maximal solutions

Perfect for researchers and graduate students in Differential Equations and Dynamical Systems,Generalized Ordinary Differential Equations in Abstract Spaces and App­lications will also earn a place in the libraries of advanced undergraduate students taking courses in the subject and hoping to move onto graduate studies.

Everaldo M. Bonotto, PhD, is Associate Professor in the Department of ­Applied Mathematics and Statistics, at ICMC-Universidade de São Paulo, São Carlos, SP, Brazil.

Márcia Federson, PhD, is Full Professor in the Department of Mathematics at ICMC-Universidade de São Paulo, São Carlos, SP, Brazil.

Jaqueline G. Mesquita, PhD, is Assistant Professor at Department of Mathematics at the University of Brasília, Brasília, DF, Brazil.

List of Contributors xi

Foreword xiii

Preface xvii

1 Preliminaries1
Everaldo M. Bonotto, Rodolfo Collegari, Márcia Federson, Jaqueline G. Mesquita, and Eduard Toon

1.1 Regulated Functions 2

1.1.1 Basic Properties 2

1.1.2 Equiregulated Sets 7

1.1.3 Uniform Convergence 9

1.1.4 Relatively Compact Sets 11

1.2 Functions of BoundedB-Variation 14

1.3 Kurzweil and Henstock Vector Integrals 19

1.3.1 Definitions 20

1.3.2 Basic Properties 25

1.3.3 Integration by Parts and Substitution Formulas 29

1.3.4 The Fundamental Theorem of Calculus 36

1.3.5 A Convergence Theorem 44

Appendix 1.A: The McShane Integral 44

2 The Kurzweil Integral53
Everaldo M. Bonotto, Rodolfo Collegari, Márcia Federson, and Jaqueline G. Mesquita

2.1 The Main Background 54

2.1.1 Definition and Compatibility 54

2.1.2 Special Integrals 56

2.2 Basic Properties 57

2.3 Notes on Kapitza Pendulum 67

3 Measure Functional Differential Equations71
Everaldo M. Bonotto, Márcia Federson, Miguel V. S. Frasson, Rogelio Grau, and Jaqueline G. Mesquita

3.1 Measure FDEs 74

3.2 Impulsive Measure FDEs 76

3.3 Functional Dynamic Equations on Time Scales 86

3.3.1 Fundamentals of Time Scales 87

3.3.2 The Perron -integral 89

3.3.3 Perron -integrals and PerronStieltjes integrals 90

3.3.4 MDEs and Dynamic Equations on Time Scales 98

3.3.5 Relations with Measure FDEs 99

3.3.6 Impulsive Functional Dynamic Equations on Time Scales 104

3.4 Averaging Methods 106

3.4.1 Periodic Averaging 107

3.4.2 Nonperiodic Averaging 118

3.5 Continuous Dependence on Time Scales 135

4 Generalized Ordinary Differential Equations145
Everaldo M. Bonotto, Márcia Federson, and Jaqueline G. Mesquita

4.1 Fundamental Properties 146

4.2 Relations with Measure Differential Equations 153

4.3 Relations with Measure FDEs 160

5 Basic Properties of Solutions173
Everaldo M. Bonotto, Márcia Federson, Luciene P. Gimenes (in memorian), Rogelio Grau, Jaqueline G. Mesquita, and Eduard Toon

5.1 Local Existence and Uniqueness of Solutions 174

5.1.1 Applications to Other Equations 178

5.2 Prolongation and Maximal Solutions 181

5.2.1 Applications to MDEs 191

5.2.2 Applications to Dynamic Equations on Time Scales 197

6 Linear Generalized Ordinary Differential Equations205
Everaldo M. Bonotto, Rodolfo Collegari, Márcia Federson, and Miguel V. S. Frasson

6.1 The Fundamental Operator 207

6.2 A Variation-of-Constants Formula 209

6.3 Linear Measure FDEs 216

6.4 A Nonlinear Variation-of-Constants Formula for Measure FDEs 220

7 Continuous Dependence on Parameters225
Suzete M. Afonso, Everaldo M. Bonotto, Márcia Federson, and Jaqueline G. Mesquita

7.1 Basic Theory for Generalized ODEs 226

7.2 Applications to Measure FDEs 236

8 StabilityTheory241
Suzete M. Afonso, Fernanda Andrade da Silva, Everaldo M. Bonotto, Márcia Federson, Luciene P. Gimenes (in memorian), Rogelio Grau, Jaqueline G. Mesquita, and Eduard Toon

8.1 Variational Stability for Generalized ODEs 244

8.1.1 Direct Method of Lyapunov 246

8.1.2 Converse Lyapunov Theorems 247

8.2 Lyapunov Stability for Generalized ODEs 256

8.2.1 Direct Method of Lyapunov 257

8.3 Lyapunov Stability for MDEs 261

8.3.1 Direct Method of Lyapunov 263

8.4 Lyapunov Stability for Dynamic Equations on Time Scales 265

8.4.1 Direct Method of Lyapunov 267

8.5 Regular Stability for Generalized ODEs 272

8.5.1 Direct Method of Lyapunov 275

8.5.2 Converse Lyapunov Theorem 282

9 Periodicity295
Marielle Ap. Silva, Everaldo M. Bonotto, Rodolfo Collegari, Márcia Federson, and Maria Carolina Mesquita

9.1 Periodic Solutions and Floquets Theorem 297

9.1.1 Linear Differential Systems with Impulses 303

9.2 (,T)-Periodic Solutions 307

9.2.1 An Application to MDEs 313

10 Averaging Principles317
Márcia Federson and Jaqueline G. Mesquita

10.1 Periodic Averaging Principles 320

10.1.1 An Application to IDEs 325

10.2 Nonperiodic Averaging Principles 330

11 Boundedness of Solutions341
Suzete M. Afonso, Fernanda Andrade da Silva, Everaldo M. Bonotto, Márcia Federson, Rogelio Grau, Jaqueline G. Mesquita, and Eduard Toon11.1 Bounded Solutions and Lyapunov Functionals 342

11.2 An Application to MDEs 352

11.2.1 An Example 356

12 Control Theory361
Fernanda Andrade da Silva, Márcia Federson, and Eduard Toon

12.1 Controllability and Observability 362

12.2 Applications to ODEs 365

13 Dichotomies369
Everaldo M. Bonotto and Márcia Federson

13.1 Basic Theory for Generalized ODEs 370

13.2 Boundedness and Dichotomies 381

13.3 Applications to MDEs 391

13.4 Applications to IDEs 400

14 Topological Dynamics407
Suzete M. Afonso, Marielle Ap. Silva, Everaldo M. Bonotto, and Márcia Federson

14.1 The Compactness of the Class F0(,h) 408

14.2 Existence of a Local Semidynamical System 411

14.3 Existence of an Impulsive Semidynamical System 418

14.4 LaSalles Invariance Principle 423

14.5 Recursive Properties 425

15 Applications to Functional Differential Equations of Neutral Type429
Fernando G. Andrade, Miguel V. S. Frasson, and Patricia H. Tacuri

15.1 Drops of History 429

15.2 FDEs of Neutral Type with Finite Delay 435

References 455

List of Symbols 471

Index 473