A new nonlinear integration formula for ODEs

Formulas are prese~ated for modular integration of systems of first or second-order ordinary differential equations which have been separated into subsystems. Using these formulas, each subsystem (or module) may be integrated essentially independently using an appropriate processor or specialized in

The nonlinear diffusion equation arises in many important areas of science and technology and most of the known exact solutions turn out to be similarity solutions. For a general similarity solution involving an arbitrary parameter 1, a new integration procedure is proposed which enables first integ

We give a formula for efficient steplength control in numerical integration, based on comparison of the numerical solution with a solution of lower order. (~) 1998 Elsevier Science B.V. All fights reserved.

A convenient Gauss᎐Laguerre quadrature formula is presented for integrands which depend on the radial coordinates r and r of two bodies as well as on 1 2 their relative distance r . This formula generalizes the analytic method by Calais and 12 w Ž .x Lowdin J. Mol. Spectrosc. 8, 203 1962 to cases w

Using singular perturbation and artificial intelligence techniques for domain decomposition for ordinary differential equations (ODES) has proven to be a successful method. In the new method we define a search space which is stretched on the reduced solutions. The space is represented by a B-tree. T