Add to ORKGIn this paper we consider a simple method for calculating integrals possessing strong singularities, to be interpreted in the Hadamard finite-part sense. We partition the original interval of integration and then integrate over the subintervals by using suitably modified low-order Gaussian-type quadratures. Convergence is shown under suitable assumptions and numerical evidence supports the theoretical findings
This paper presents some explicit results concerning an extension of the mechanical quadrature techn...
Abstract: An algorithm for the approximate evaluation of integrals defined by Cauchy principal value...
Abstract: An algorithm for the approximate evaluation of integrals defined by Cauchy principal value...
In this paper we consider a simple method for calculating integrals possessing strong singularities,...
In this paper we consider a simple method for calculating integrals possessing strong singularities,...
In this paper we consider a simple method for calculating integrals possessing strong singularities,...
AbstractSome algorithms are described for the numerical evaluation of Hadamard finite part integrals...
Some algorithms are described for the numerical evaluation of Hadamard finite part integrals of type...
Some algorithms are described for the numerical evaluation of Hadamard finite part integrals of type...
Some algorithms are described for the numerical evaluation of Hadamard finite part integrals of type...
AbstractThe computation of the Hadamard finite-part integral is considered as an ill-posed problem a...
© 2016, International Journal of Pharmacy and Technology. All rights reserved.Currently, the issues ...
© 2016, International Journal of Pharmacy and Technology. All rights reserved.Currently, the issues ...
AbstractAn algorithm for the approximate evaluation of integrals defined by Cauchy principal value o...
AbstractIn this article, the general (composite) Newton–Cotes rules for evaluating Hadamard finite-p...
This paper presents some explicit results concerning an extension of the mechanical quadrature techn...
Abstract: An algorithm for the approximate evaluation of integrals defined by Cauchy principal value...
Abstract: An algorithm for the approximate evaluation of integrals defined by Cauchy principal value...
In this paper we consider a simple method for calculating integrals possessing strong singularities,...
In this paper we consider a simple method for calculating integrals possessing strong singularities,...
In this paper we consider a simple method for calculating integrals possessing strong singularities,...
AbstractSome algorithms are described for the numerical evaluation of Hadamard finite part integrals...
Some algorithms are described for the numerical evaluation of Hadamard finite part integrals of type...
Some algorithms are described for the numerical evaluation of Hadamard finite part integrals of type...
Some algorithms are described for the numerical evaluation of Hadamard finite part integrals of type...
AbstractThe computation of the Hadamard finite-part integral is considered as an ill-posed problem a...
© 2016, International Journal of Pharmacy and Technology. All rights reserved.Currently, the issues ...
© 2016, International Journal of Pharmacy and Technology. All rights reserved.Currently, the issues ...
AbstractAn algorithm for the approximate evaluation of integrals defined by Cauchy principal value o...
AbstractIn this article, the general (composite) Newton–Cotes rules for evaluating Hadamard finite-p...
This paper presents some explicit results concerning an extension of the mechanical quadrature techn...
Abstract: An algorithm for the approximate evaluation of integrals defined by Cauchy principal value...
Abstract: An algorithm for the approximate evaluation of integrals defined by Cauchy principal value...