- 1 D&LQUIST, G. Convergence and stability in the numerical integration of ordiaar differential equations. Math. Stand. 4 (1956), 33-53.Google Scholar
- 2 HENRICI, P. Discrete Variable Methods in Ordinary Differential Equations. Wiley, Nel York, 1962.Google Scholar
- 3 KopAl, Z. Numarical Angly.'is, Chapman & lIall, London, 1955.Google Scholar
- 4 Kvrrn, W. Bcitrag zur ihherungsweise Integration totaler Differentialgleicaugez Zeit. Math, Phys. 46 (1901), 435-453.Google Scholar
- 5 NSTRDM, E. J. ubel' die mimerisctic Iiitegratin yon DiFFerenialgleichungen, Atta Soc. Sc. Pennicae 50, 13 (1925), 55 pp.Google Scholar
- 6 MN W. E. Nurericat Solution oF Differential Equations. Wiley, New York, 1953.Google Scholar
- 7 GraG, W. B,, AND Svrn, H.J. Generalized multisep predictorocerrector methods, J. ACM 11 (1964), 188-209. Google Scholar
Index Terms
- A Modified Multistep Method for the Numerical Integration of Ordinary Differential Equations
Recommendations
An asymptotic numerical method for singularly perturbed third-order ordinary differential equations with a weak interior layer
A class of singularly perturbed two point boundary value problems (BVPs) of convection-diffusion type for third-order ordinary differential equations (ODEs) with a small positive parameter (ε) multi-plying the highest derivative and a discontinuous ...
Numerical integration of ordinary differential equations with rapidly oscillatory factors
We present a methodology for numerically integrating ordinary differential equations containing rapidly oscillatory terms. This challenge is distinct from that for differential equations which have rapidly oscillatory solutions: here the differential ...
Comments