Add to ORKGordinary differential equations (ODEs) directly are proposed to address efficiency issues associated with classical Runge-Kutta methods. Although, the methods require approximation of y0, y00 and y000 of the solution at every step. In this paper, a hybrid type method is proposed, which can directly integrate special fourth order ODEs. The method does not require the approximation of any derivatives of the solution. Algebraic order conditions of the methods are derived via Taylor series technique. Using the order conditions, eight algebraic order method is presented. Absolute stability of the method is analyzed and the stability region presented. Numerical experiment is conducted on some test problems. Results from the experiment show that t...
A general one-step three-hybrid (off-step) points block method is proposed for solving fourth-order ...
In this paper we present a new class of direct numerical integrators of hybrid type for special thir...
In this thesis, a class of numerical integrators for solving special higher order ordinary differen...
In recent time, Runge-Kutta methods that integrate special fourth order ordinary differential equati...
In recent time, Runge-Kutta methods that integrate special fourth or- der ordinary differential equ...
A Runge-Kutta type method for directly solving special fourth-order ordinary differential equations ...
In this paper, a fourth-order explicit hybrid method with constant step-size is developed. The free ...
In this paper, an explicit Runge–Kutta method for solving directly fourth-order ordinary differentia...
This study is focused on developing Runge-Kutta type methods to solve two types of ordinary differen...
In this article, the general form of Runge-Kutta method for directly solving a special fourth- order...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
We present a new form of fourth-order explicit Runge-Kutta method in which the terms f and f′ are us...
In this paper, fourth-order improved Runge–Kutta method (IRKD) for directly solving a special third-...
In this paper, we derive an explicit four stage fifth-order Improved Runge-Kutta (IRKD) method for n...
A general one-step three-hybrid (off-step) points block method is proposed for solving fourth-order ...
In this paper we present a new class of direct numerical integrators of hybrid type for special thir...
In this thesis, a class of numerical integrators for solving special higher order ordinary differen...
In recent time, Runge-Kutta methods that integrate special fourth order ordinary differential equati...
In recent time, Runge-Kutta methods that integrate special fourth or- der ordinary differential equ...
A Runge-Kutta type method for directly solving special fourth-order ordinary differential equations ...
In this paper, a fourth-order explicit hybrid method with constant step-size is developed. The free ...
In this paper, an explicit Runge–Kutta method for solving directly fourth-order ordinary differentia...
This study is focused on developing Runge-Kutta type methods to solve two types of ordinary differen...
In this article, the general form of Runge-Kutta method for directly solving a special fourth- order...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
We present a new form of fourth-order explicit Runge-Kutta method in which the terms f and f′ are us...
In this paper, fourth-order improved Runge–Kutta method (IRKD) for directly solving a special third-...
In this paper, we derive an explicit four stage fifth-order Improved Runge-Kutta (IRKD) method for n...
A general one-step three-hybrid (off-step) points block method is proposed for solving fourth-order ...
In this paper we present a new class of direct numerical integrators of hybrid type for special thir...
In this thesis, a class of numerical integrators for solving special higher order ordinary differen...