Multiple fixed-point theorems and applications in the theory of ODEs, FDEs and PDEs / Svetlin G. Georgiev, Khaled Zennir.

Author
Georgiev, Svetlin [Browse]
Format
Book
Language
English
Published/​Created
Boca Raton : Chapman & Hall/CRC, [2020]
Description
1 online resource : illustrations

Details

Subject(s)
Author
Series
Monographs and research notes in mathematics [More in this series]
Biographical/​Historical note
Khaled Zennir was born in Skikda, Algeria 1982. He received his PhD in Mathematics in 2013 from Sidi Bel Abbs̈ University, Algeria (Assist. professor). He obtained his highest diploma in Algeria (Habilitation, Mathematics) from Constantine university, Algeria in May 2015 (Assoc. professor). He is now assistant Professor at Qassim university, KSA. His research interests lie in Nonlinear Hyperbolic Partial Differential Equations: Global Existence, Blow-Up, and Long Time Behavior. Svetlin G. Georgiev (born 05 April 1974, Rouse, Bulgaria) is a mathematician who has worked in various areas of mathematics. He currently focuses on harmonic analysis, functional analysis, partial differential equations, ordinary differential equations, Clifford and quaternion analysis, integral equations, dynamic calculus on time scales. 7.
Summary note
Multiple Fixed-Point Theorems and Applications in the Theory of ODEs, FDEs and PDEs covers all the basics of the subject of fixed-point theory and its applications with a strong focus on examples, proofs and practical problems, thus making it ideal as course material but also as a reference for self-study. Many problems in science lead to nonlinear equations T x + F x = x posed in some closed convex subset of a Banach space. In particular, ordinary, fractional, partial differential equations and integral equations can be formulated like these abstract equations. It is desirable to develop fixed-point theorems for such equations. In this book, the authors investigate the existence of multiple fixed points for some operators that are of the form T + F, where T is an expansive operator and F is a k-set contraction. This book offers the reader an overview of recent developments of multiple fixed-point theorems and their applications. About the Authors Svetlin G. Georgiev isa mathematician who has worked in various areas of mathematics. He currently focuses on harmonic analysis, functional analysis, partial differential equations, ordinary differential equations, Clifford and quaternion analysis, integral equations and dynamic calculus on time scales. Khaled Zennir is assistant professor at Qassim University, KSA. He received his PhD in mathematics in 2013 from Sidi Bel Abbs University, Algeria. He obtained hisHabilitation in mathematics from Constantine University, Algeria in 2015. His research interests lie in nonlinear hyperbolic partial differential equations: global existence, blow up and long-time behavior.
Reproduction note
Electronic reproduction. Ann Arbor, MI Available via World Wide Web.
Contents
  • 1. Fixed Point Index Theory. Multiple Fixed Point Theorems 1.1 Measures of Noncompactness 1.2 The Brower Fixed Point Theorem. The Schauder Fixed PointTheorem 1.3 Fixed Points of Strict Set Contractions 1.4 The Kronecker Index 1.5 The Brower Degree 1.5.1 Smooth Mappings 1.5.2 Homotopy Invariance 1.5.3 Continuous Mappings. Basic Properties1.5.4 The Case f : D
  • Rn!Sn11.6 The Leray-Schauder Degree1.7 The Fixed Point Index for Completely Continuous Mappings1.8 The Fixed Point Index for Strict Set Contractions 1.9 Multiple Fixed Point Theorems 2. Applications to ODEs 2.1 Periodic Solutions for First Order ODEs 2.2 BVPs for First Order ODEs 2.3 BVPs for Second Order ODEs 2.4 BVPs with Impulses 3. Applications to FDEs 3.1 Global existence for a class fractional-differential equations 3.2 Multiple Solutions for a BVP of Nonlinear Riemann-LiouvilleFractional Differential Equations .3.3 Multiple Solutions for a BVP of Nonlinear Caputo FractionalDifferential Equations 4. Applications to Parabolic Equations 4.1 Differentiability of the Classical Solutions with Respect to the Initial Conditions of an IVP 4.2 Local Existence of Classical Solutions for an IBVP 4.3 Periodic Solutions 4.4 Multiple Solutions for an IBVP with Robin Boundary Conditions 5. Applications to Hyperbolic Equations 5.1 Differentiability of the Classical Solutions with Respect to the Initial Conditions for an IVP for a Class Hyperbolic Equations 5.2 Multiple Solutions for an IBVP with Robin Boundary Conditions 5.3 Periodic Solutions 6. Applications to Elliptic Equations 6.1 Multiple Solutions for an BVP with Robin Boundary Conditions 6.2 Existence and Smoothness of Navier-Stokes Equations References
ISBN
  • 9781003028727 ((electronic book))
  • 1003028721 ((electronic book))
  • 9781000078992 ((electronic book))
  • 100007899X ((electronic book))
  • 9781000079005 ((electronic book))
  • 1000079007 ((electronic book))
  • 9781000079012 ((electronic book))
  • 1000079015 ((electronic book))
OCLC
1159416146
Doi
  • 10.1201/9781003028727
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