Imbedded integration rules and their applications in Bayesian analysis

Dellaportas, Petros

January 1990

This thesis deals with the development and application of numerical integration techniques for use in Bayesian Statistics. In particular, it describes how imbedded sequences of positive interpolatory integration rules (PIIR's) obtained from Gauss-Hermite product rules can extend the applicability and efficiency of currently available numerical methods. The numerical strategy suggested by Naylor and Smith (1982) is reviewed, criticised and applied to some examples with real and artificial data. The performance of this strategy is assessed from the viewpoint of 3 criteria: reliability, efficiency and accuracy. The imbedded sequences of PIIR’s are introduced as an alternative and an extension to the above strategy for two major reasons. Firstly, they provide a rich class of spatially ditributed rules which are particularly useful in high dimensions. Secondly, they provide a way of producing more efficient integration strategies by enabling approximations to be updated sequentially through the addition of new nodes at each step rather than through changing to a completely new set of nodes. Finally, the Improvement in the reliability and efficiency achieved by the adaption of an integration strategy based on PIIR's is demonstrated with various illustrative examples. Moreover, it is directly compared with the Gibbs sampling approach introduced recently by Gelfand and Smith (1988).

519

Numerical integration techniques

A new method for the numerical evaluation of multiple integrals /

Sag, Thomas William.

January 1963

Thesis (M.Sc.) --University of Adelaide, Dept. of Mathematics, 1963.

Integrals. Numerical integration.

The development of a PC based software to solve M/M/1 and M/M/S queueing systems by using a numerical integration technique

Ho, Jinchun.

January 1994

Thesis (M.S.)--Ohio University, November, 1994. / Title from PDF t.p.

Queuing theory Numerical integration.

Numerical indefinite integration using the sinc method /

Akinola, Richard Olatokunbo.

January 2007

Thesis (MSc)--University of Stellenbosch, 2007. / Bibliography. Also available via the Internet.

Numerical integration. Galerkin methods.

Numerical integration over planar regions

Peirce, William Hollis.

January 1900

Thesis--University of Wisconsin. / Vita. Bibliography: leaves 85-88.

Numerical integration. Integrals.

Interval methods for non-linear systems

Shearer, J. M.

January 1986

In numerical mathematics, there is a need for methods which provide a user with the solution to his problem without requiring him to understand the mathematics underlying the method of solution. Such a method involves computable tests to determine whether or not a solution exists in a given region, and whether, if it exists, such a solution may be found by using the given method. Two valuable tools for the implementation of such methods are interval mathematics and symbolic computation. In. practice all computers have memories of finite size and cannot perform exact arithmetic. Therefore, in addition to the error which is inherent in a given numerical method, namely truncation error, there is also the error due to rounding. Using interval arithmetic, computable tests which guarantee the existence of a solution to a given problem in a given region, and the convergence of a particular iterative method to this solution, become practically realizable. This is not possible using real arithmetic due to the accumulation of rounding error on a computer. The advent of packages which allow symbolic computations to be carried out on a given computer is an important advance for computational numerical mathematics. In particular, the ability to compute derivatives automatically removes the need for a user to supply them, thus eliminating a major source of error in the use of methods requiring first or higher derivatives. In this thesis some methods which use interval arithmetic and symbolic computation for the solution of systems of nonlinear algebraic equations are presented. Some algorithms based on the symmetric single-step algorithm are described. These methods however do not possess computable existence, uniqueness, and convergence tests. Algorithms which do possess such tests, based on the Krawczyk-Moore algorithm are also presented. A simple package which allows symbolic computations to be carried out is described. Several applications for such a package are given. In particular, an interval form of Brown's method is presented.

519

QA299.3S3 ; Numerical integration

Numerical integration over smooth convex regions in 3-space.

Martin, Eric, MSc

January 1971

No description available.

Numerical integration

Convex domains

Numerical integration over smooth convex regions in the plane.

Lowenfeld, George.

January 1971

No description available.

Numerical integration

Convex domains

An Extension to the Best Numerical Integration Formula Development

Medina, Jorge

01 January 1983

A mathematical analysis seeking an accurate measure of the worth of numerical integration techniques used for real-time digital flight simulation problems is presented. This investigation allows the subject of best integration methods to be pursued making emphasis on the choice of practical steps and the use of available mathematical techniques to illustrate and evaluate a potential root matching approach involving a selected first-order differential system. This study allows certain evaluation techniques to be developed. Notable among these are the schemes for comparing roots of sampled ideal integrators to roots of sampled approximated integrators, the development of an integration and of an iteration formula, and the creation of a computer program.

Numerical integration

Engineering

Locating the zeros of an analytic function by contour integrals.

Kicok, Eugene.

January 1971

No description available.

Numerical integration

Functions

Zero (The number)