Add to ORKG<p>This paper describes an approximating solution, based on Lagrange interpolation and spline functions, to treat functional integral equations of Fredholm type and Volterra type. This method can be extended to functional dierential and integro-di<br />erential equations. For showing eciency of the method we give some numerical examples.</p
Tyt. z nagł.Abstract. We consider an operator PN : LP(I) - Sn(deltaN), such that PN f = f for f mem ...
A procedure, using spline functions of degree m, for the solution of linear Volterra integral equati...
In this work, we present a computational method for solving nonlinear Fredholm-Volterra integral equ...
<p>This paper describes an approximating solution, based on Lagrange interpolation and spline functi...
This paper describes an approximating solution, based on Lagrange interpolation and spline functions...
In this paper, numerical solution of system of Fredholm and Volterra integral equations by means of ...
By fitting interpolating spline functions to the kernel and right-hand side of a Fredholm integral e...
This study determines the numerical solution of linear mixed Volterra-Fredholm integral equations of...
Não disponívelThis thesis is concerned primarily with spline functions and their application to solv...
Algorithms using the second order of B -splines [B (x)] and the third order of B -splines [B,3(x)] a...
The autors have constructed an approximate solution in the form of a spline-function of third degrae...
AbstractIn this work, a functional approximation method for calculating the linear functional of the...
Abstract. We consider an operator PN: Lp(I) → Sn(∆N), such that PNf = f for f ∈ Sn(∆N), where Sn(∆N...
To find approximate solutions of Fredholm integral equations, we degenerate the kernels by discrete ...
To find approximate solutions of Fredholm integral equations, we degenerate the kernels by discrete ...
Tyt. z nagł.Abstract. We consider an operator PN : LP(I) - Sn(deltaN), such that PN f = f for f mem ...
A procedure, using spline functions of degree m, for the solution of linear Volterra integral equati...
In this work, we present a computational method for solving nonlinear Fredholm-Volterra integral equ...
<p>This paper describes an approximating solution, based on Lagrange interpolation and spline functi...
This paper describes an approximating solution, based on Lagrange interpolation and spline functions...
In this paper, numerical solution of system of Fredholm and Volterra integral equations by means of ...
By fitting interpolating spline functions to the kernel and right-hand side of a Fredholm integral e...
This study determines the numerical solution of linear mixed Volterra-Fredholm integral equations of...
Não disponívelThis thesis is concerned primarily with spline functions and their application to solv...
Algorithms using the second order of B -splines [B (x)] and the third order of B -splines [B,3(x)] a...
The autors have constructed an approximate solution in the form of a spline-function of third degrae...
AbstractIn this work, a functional approximation method for calculating the linear functional of the...
Abstract. We consider an operator PN: Lp(I) → Sn(∆N), such that PNf = f for f ∈ Sn(∆N), where Sn(∆N...
To find approximate solutions of Fredholm integral equations, we degenerate the kernels by discrete ...
To find approximate solutions of Fredholm integral equations, we degenerate the kernels by discrete ...
Tyt. z nagł.Abstract. We consider an operator PN : LP(I) - Sn(deltaN), such that PN f = f for f mem ...
A procedure, using spline functions of degree m, for the solution of linear Volterra integral equati...
In this work, we present a computational method for solving nonlinear Fredholm-Volterra integral equ...