posted on 2017-03-20, 16:55authored byI. Yu. Tyukin, A. N. Gorban, T. A. Tyukina, J. M. Al-Ameri, Yu. A. Korablev
We propose a novel method for fast and scalable evaluation of periodic solutions of systems of ordinary differential equations for a given set of parameter values and initial conditions. The equations governing the system dynamics are supposed to be of a special class, albeit admitting nonlinear parametrization and nonlinearities. The method enables to represent a given periodic solution as sums of computable integrals and functions that are explicitly dependent on parameters of interest and initial conditions. This allows invoking parallel computational streams in order to increase speed of calculations. Performance and practical implications of the method are illustrated with examples including classical predator-prey system and models of neuronal cells.
History
Citation
Mathematical Modelling of Natural Phenomena, 2016, 11 (4), pp. 73-88 (16)
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Mathematics