Numerical Methods for Solving Two-Point BoundaryValue Problems
BeschreibungThe numerical approximation of solutions of ordinary differential equations played an important role in Numerical Analysis and still continues to be an active field of research. In this book we are mainly concerned with the numerical solution of the first-order system of nonlinear two-point boundary value problems. We will focus on the problem of solving singular perturbation problems since this has for many years been a source of difficulty to applied mathematicians, engineers and numerical analysts alike. Firstly, we consider deferred correction schemes based on Mono-Implicit Runge-Kutta (MIRK) and Lobatto formulae. As is to be expected, the scheme based on Lobatto formulae, which are implicit, is more stable than the scheme based on MIRK formulae which are explicit. Secondly, we construct high order interpolants to provide the continuous extension of the discrete solution. It will consider the construction of both explicit and implicit interpolants. The estimation of conditioning numbers is also discussed and used to develop mesh selection algorithms which will be appropriate for solving stiff linear and nonlinear boundary value problems.
PortraitStudied Numerical Analysis at Imperial College London, University of London, UK, 2001-2005. AssistantProfessor at Faculty of Mathematics and Natural Sciences,Institut Teknologi Bandung, Indonesia.
Untertitel: Differed Correction Schemes, Interpolation, andConditioning Methods. Paperback. Sprache: Englisch.
Verlag: VDM Verlag
Erscheinungsdatum: April 2009
Seitenanzahl: 212 Seiten