Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains /
To summarize briefly, this book is devoted to an exposition of the foundations of pseudo differential equations theory in non-smooth domains. The elements of such a theory already exist in the literature and can be found in such papers and monographs as [90,95,96,109,115,131,132,134,135,136,146, 163,165,169,170,182,184,214-218]. In this book, we will employ a theory that is based on quite different principles than those used previously. However, precisely one of the standard principles is left without change, the "freezing of coefficients" principle. The first main difference in our exposition begins at the point when the "model problem" appears. Such a model problem for differential equations and differential boundary conditions was first studied in a fundamental paper of V. A. Kondrat'ev [134]. Here also the second main difference appears, in that we consider an already given boundary value problem. In some transformations this boundary value problem was reduced to a boundary value problem with a parameter . -\ in a domain with smooth boundary, followed by application of the earlier results of M. S. Agranovich and M. I. Vishik. In this context some operator-function R('-\) appears, and its poles prevent invertibility; iffor differential operators the function is a polynomial on A, then for pseudo differential operators this dependence on . -\ cannot be defined. Ongoing investigations of different model problems are being carried out with approximately this plan, both for differential and pseudodifferential boundary value problems.
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Dordrecht : Springer Netherlands : Imprint: Springer,
2000
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Subjects: | Mathematics., Mathematical analysis., Analysis (Mathematics)., Functional analysis., Integral equations., Operator theory., Partial differential equations., Mechanics., Partial Differential Equations., Functional Analysis., Analysis., Integral Equations., Operator Theory., |
Online Access: | http://dx.doi.org/10.1007/978-94-015-9448-6 |
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Mathematics. Mathematical analysis. Analysis (Mathematics). Functional analysis. Integral equations. Operator theory. Partial differential equations. Mechanics. Mathematics. Partial Differential Equations. Functional Analysis. Analysis. Integral Equations. Operator Theory. Mechanics. Mathematics. Mathematical analysis. Analysis (Mathematics). Functional analysis. Integral equations. Operator theory. Partial differential equations. Mechanics. Mathematics. Partial Differential Equations. Functional Analysis. Analysis. Integral Equations. Operator Theory. Mechanics. |
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Mathematics. Mathematical analysis. Analysis (Mathematics). Functional analysis. Integral equations. Operator theory. Partial differential equations. Mechanics. Mathematics. Partial Differential Equations. Functional Analysis. Analysis. Integral Equations. Operator Theory. Mechanics. Mathematics. Mathematical analysis. Analysis (Mathematics). Functional analysis. Integral equations. Operator theory. Partial differential equations. Mechanics. Mathematics. Partial Differential Equations. Functional Analysis. Analysis. Integral Equations. Operator Theory. Mechanics. Vasil’ev, Vladimir B. author. SpringerLink (Online service) Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / |
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To summarize briefly, this book is devoted to an exposition of the foundations of pseudo differential equations theory in non-smooth domains. The elements of such a theory already exist in the literature and can be found in such papers and monographs as [90,95,96,109,115,131,132,134,135,136,146, 163,165,169,170,182,184,214-218]. In this book, we will employ a theory that is based on quite different principles than those used previously. However, precisely one of the standard principles is left without change, the "freezing of coefficients" principle. The first main difference in our exposition begins at the point when the "model problem" appears. Such a model problem for differential equations and differential boundary conditions was first studied in a fundamental paper of V. A. Kondrat'ev [134]. Here also the second main difference appears, in that we consider an already given boundary value problem. In some transformations this boundary value problem was reduced to a boundary value problem with a parameter . -\ in a domain with smooth boundary, followed by application of the earlier results of M. S. Agranovich and M. I. Vishik. In this context some operator-function R('-\) appears, and its poles prevent invertibility; iffor differential operators the function is a polynomial on A, then for pseudo differential operators this dependence on . -\ cannot be defined. Ongoing investigations of different model problems are being carried out with approximately this plan, both for differential and pseudodifferential boundary value problems. |
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Mathematics. Mathematical analysis. Analysis (Mathematics). Functional analysis. Integral equations. Operator theory. Partial differential equations. Mechanics. Mathematics. Partial Differential Equations. Functional Analysis. Analysis. Integral Equations. Operator Theory. Mechanics. |
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Vasil’ev, Vladimir B. author. SpringerLink (Online service) |
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Vasil’ev, Vladimir B. author. SpringerLink (Online service) |
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Vasil’ev, Vladimir B. author. |
title |
Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / |
title_short |
Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / |
title_full |
Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / |
title_fullStr |
Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / |
title_full_unstemmed |
Wave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / |
title_sort |
wave factorization of elliptic symbols: theory and applications [electronic resource] : introduction to the theory of boundary value problems in non-smooth domains / |
publisher |
Dordrecht : Springer Netherlands : Imprint: Springer, |
publishDate |
2000 |
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http://dx.doi.org/10.1007/978-94-015-9448-6 |
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AT vasilevvladimirbauthor wavefactorizationofellipticsymbolstheoryandapplicationselectronicresourceintroductiontothetheoryofboundaryvalueproblemsinnonsmoothdomains AT springerlinkonlineservice wavefactorizationofellipticsymbolstheoryandapplicationselectronicresourceintroductiontothetheoryofboundaryvalueproblemsinnonsmoothdomains |
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KOHA-OAI-TEST:1801452018-07-30T22:59:54ZWave Factorization of Elliptic Symbols: Theory and Applications [electronic resource] : Introduction to the Theory of Boundary Value Problems in Non-Smooth Domains / Vasil’ev, Vladimir B. author. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,2000.engTo summarize briefly, this book is devoted to an exposition of the foundations of pseudo differential equations theory in non-smooth domains. The elements of such a theory already exist in the literature and can be found in such papers and monographs as [90,95,96,109,115,131,132,134,135,136,146, 163,165,169,170,182,184,214-218]. In this book, we will employ a theory that is based on quite different principles than those used previously. However, precisely one of the standard principles is left without change, the "freezing of coefficients" principle. The first main difference in our exposition begins at the point when the "model problem" appears. Such a model problem for differential equations and differential boundary conditions was first studied in a fundamental paper of V. A. Kondrat'ev [134]. Here also the second main difference appears, in that we consider an already given boundary value problem. In some transformations this boundary value problem was reduced to a boundary value problem with a parameter . -\ in a domain with smooth boundary, followed by application of the earlier results of M. S. Agranovich and M. I. Vishik. In this context some operator-function R('-\) appears, and its poles prevent invertibility; iffor differential operators the function is a polynomial on A, then for pseudo differential operators this dependence on . -\ cannot be defined. Ongoing investigations of different model problems are being carried out with approximately this plan, both for differential and pseudodifferential boundary value problems.1. Distributions and their Fourier transforms -- 2. Multidimensional complex analysis -- 3. Sobolev-Slobodetskii spaces -- 4. Pseudodifferential operators and equations in a half-space -- 5. Wave factorization -- 6. Diffraction on a quadrant -- 7. The problem of indentation of a wedge-shaped punch -- 8. Equations in an infinite plane angle -- 9. General boundary value problems -- 10. The Laplacian in a plane infinite angle -- 11. Problems with potentials -- Appendix 1: The multidimensional Riemann problem -- Appendix 2: Symbolic calculus, Noether property, index, regularization -- Appendix 3: The Mellin transform -- References.To summarize briefly, this book is devoted to an exposition of the foundations of pseudo differential equations theory in non-smooth domains. The elements of such a theory already exist in the literature and can be found in such papers and monographs as [90,95,96,109,115,131,132,134,135,136,146, 163,165,169,170,182,184,214-218]. In this book, we will employ a theory that is based on quite different principles than those used previously. However, precisely one of the standard principles is left without change, the "freezing of coefficients" principle. The first main difference in our exposition begins at the point when the "model problem" appears. Such a model problem for differential equations and differential boundary conditions was first studied in a fundamental paper of V. A. Kondrat'ev [134]. Here also the second main difference appears, in that we consider an already given boundary value problem. In some transformations this boundary value problem was reduced to a boundary value problem with a parameter . -\ in a domain with smooth boundary, followed by application of the earlier results of M. S. Agranovich and M. I. Vishik. In this context some operator-function R('-\) appears, and its poles prevent invertibility; iffor differential operators the function is a polynomial on A, then for pseudo differential operators this dependence on . -\ cannot be defined. Ongoing investigations of different model problems are being carried out with approximately this plan, both for differential and pseudodifferential boundary value problems.Mathematics.Mathematical analysis.Analysis (Mathematics).Functional analysis.Integral equations.Operator theory.Partial differential equations.Mechanics.Mathematics.Partial Differential Equations.Functional Analysis.Analysis.Integral Equations.Operator Theory.Mechanics.Springer eBookshttp://dx.doi.org/10.1007/978-94-015-9448-6URN:ISBN:9789401594486 |