The current study presents a novel application of integrated intelligent computing solver for
numerical treatment of second‐order prediction differential models by exploiting the …

In this study, a design of Morlet wavelet neural networks (MWNNs) is presented to solve the
prediction differential model (PDM) by applying the global approximation capability of a …

Numerical approach of two-derivative Runge-Kutta type method with three-stage fifth-order
(TDRKT3 (5)) is developed and proposed for solving a special type of third-order delay …

In this study, a novel second‐order prediction differential model is designed, and numerical
solutions of this novel model are presented using the integrated strength of the Adams and …

On the Solution of the Delay Differential Equation via Laplace Transform Page 1
Communications in Mathematics and Applications Vol. 11, No. 3, pp. 379–387, 2020 ISSN …

In the present paper, a fifth-order direct multistep block method is proposed for solving the
second-order Delay Differential Equations (DDEs) directly with boundary conditions using …

An intra-step block Falkner method whose coefficients depend on a parameter ω and the
step length h is presented in this study for solving numerically second-order delay …

This paper considers the computational solution of some first order delay differential
equations (DDEs) using a class of seventh order Hybrid Extended Block Adams Moulton …

The main purpose of this work is to provide a numerical approach for linear second-order
differential and integro-differential equations with constant delay. An algorithm based on the …

The third derivative block backward differentiation formulae was developed for solving first
order delay differential equations without the implementation of interpolation techniques in …