Volterra integral and functional equations
Author(s)
Bibliographic Information
Volterra integral and functional equations
(Encyclopedia of mathematics and its applications / edited by G.-C. Rota, v. 34)
Cambridge University Press, 1990
Available at / 97 libraries
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Hokkaido University, Library, Graduate School of Science, Faculty of Science and School of Science図書
DC19:510/G8862070153698
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Note
Bibliography: p. [654]-681
Includes bibliographies and index
Description and Table of Contents
Description
The rapid development of the theories of Volterra integral and functional equations has been strongly promoted by their applications in physics, engineering and biology. This text shows that the theory of Volterra equations exhibits a rich variety of features not present in the theory of ordinary differential equations. The book is divided into three parts. The first considers linear theory and the second deals with quasilinear equations and existence problems for nonlinear equations, giving some general asymptotic results. Part III is devoted to frequency domain methods in the study of nonlinear equations. The entire text analyses n-dimensional rather than scalar equations, giving greater generality and wider applicability and facilitating generalizations to infinite-dimensional spaces. The book is generally self-contained and assumes only a basic knowledge of analysis. The many exercises illustrate the development of the theory and its applications, making this book accessible to researchers in all areas of integral and differential equations.
Table of Contents
- Preface
- List of symbols
- 1. Introduction and overview
- Part I. Linear Theory: 2. Linear convolution integral equations
- 3. Linear integrodifferential convolution equations
- 4. Equations in weighted spaces
- 5. Completely monotone kernels
- 6. Nonintegrable kernels with integrable resolvents
- 7. Unbounded and unstable solutions
- 8. Volterra equations as semigroups
- 9. Linear nonconvolution equations
- 10. Linear nonconvolution equations with measure kernels
- Part II. General Nonlinear Theory: 11. Perturbed linear equations
- 12. Existence of solutions of nonlinear equations
- 13. Continuous dependence, differentiability and uniqueness
- 14. Lyapunov techniques
- 15. General asymptotics
- Part III. Frequency Domain and Monotonicity Techniques: 16. Convolution kernels of positive type
- 17. Frequency domain methods: basic results
- 18. Frequency domain methods: additional results
- 19. Combined Lyapunov and frequency domain methods
- 20. Monotonicity methods
- Bibliography
- Index.
by "Nielsen BookData"