Differential Transform Algorithm for Functional Differential Equations with Time-Dependent Delays
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An algorithm using the differential transformation which is convenient for finding numerical solutions to initial value problems for functional differential equations is proposed in this paper. We focus on retarded equations with delays which in general are functions of the independent variable. The delayed differential equation is turned into an ordinary differential equation using the method of steps. The ordinary differential equation is transformed into a recurrence relation in one variable using the differential transformation. Approximate solution has the form of a Taylor polynomial whose coefficients are determined by solving the recurrence relation. Practical implementation of the presented algorithm is demonstrated in an example of the initial value problem for a differential equation with nonlinear nonconstant delay. A two-dimensional neutral system of higher complexity with constant, nonconstant, and proportional delays has been chosen to show numerical performance of the algorithm. Results are compared against Matlab function DDENSD.
KeywordsDifferential transformation, Functional differential equation, Time-dependent delay, Non-constant delay, Approximate solutions, Numerical comparison to Matlab
Document typePeer reviewed
Document versionFinal PDF
SourceCOMPLEXITY. 2020, vol. 2020, issue 1, p. 1-12.