Cover Image

Deterministic and stochastic error bounds in numerical analysis /

Show other versions (1)

In these notes different deterministic and stochastic error bounds of numerical analysis are investigated. For many computational problems we have only partial information (such as n function values) and consequently they can only be solved with uncertainty in the answer. Optimal methods and optimal...

Full description

Bibliographic Details
Main Author: Novak, Erich, 1953-
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: Berlin ; New York : Springer-Verlag, [1988]
Series:Lecture notes in mathematics (Springer-Verlag) ; 1349.
Subjects:
Numerical analysis.
Error analysis (Mathematics)
Approximation theory.
Monte Carlo method.
Analyse numérique.
Erreurs, Théorie des.
Approximation, Théorie de l'
Monte-Carlo, Méthode de.
Calcul d'erreur.
Approximation, Théorie de l'.
Numerische Mathematik.
Fehlerschranke.
Electronic books.
Online Access:Connect to the full text of this electronic book
Description
Summary:In these notes different deterministic and stochastic error bounds of numerical analysis are investigated. For many computational problems we have only partial information (such as n function values) and consequently they can only be solved with uncertainty in the answer. Optimal methods and optimal error bounds are sought if only the type of information is indicated. First, worst case error bounds and their relation to the theory of n-widths are considered; special problems such approximation, optimization, and integration for different function classes are studied and adaptive and nonadaptive methods are compared. Deterministic (worst case) error bounds are often unrealistic and should be complemented by different average error bounds. The error of Monte Carlo methods and the average error of deterministic methods are discussed as are the conceptual difficulties of different average errors. An appendix deals with the existence and uniqueness of optimal methods. This book is an introduction to the area and also a research monograph containing new results. It is addressd to a general mathematical audience as well as specialists in the areas of numerical analysis and approximation theory (especially optimal recovery and information-based complexity).
Item Description:Electronic resource.
Physical Description:1 online resource (113 pages)
Bibliography:Includes bibliographical references (pages [100]-109) and index.
ISBN:9783540459873 (electronic bk.)
3540459871 (electronic bk.)
ISSN:0075-8434 ;