AbstractIn this paper, a mixed quadrature rule of degree of precision seven is formed for analytic functions by taking two constituent rules each of degree of precision five. Here the integral of analytic function is converted to real definite integrals with the help of double transformations. Then the mixed quadrature rule is tested in adaptive environment and it is obviously superior to that of Gauss–Legendre three-point rule
In this research, some new and efficient quadrature rules are proposed involving the combination of ...
A unified treatment of three point quadrature rules is presented in which the classical rules of mid...
The result of this research is the proposed to mathematical apparatus and a procedure for constructi...
AbstractIn this paper, a mixed quadrature rule of degree of precision seven is formed for analytic f...
Abstract A mixed quadrature rule of higher precision for approximate evaluation of real definite int...
AbstractThe adaptive quadrature method requires a fixed integration formula with an error estimator ...
The term numerical integration covers several different tasks, including numerical evaluation of int...
A quadrature rule for the numerical evaluation of integrals of analytic functions along directed lin...
AbstractThe computational cost of automatic quadrature programs is analyzed under the hypothesis of ...
This paper reviews current quadrature methods for approximate calculation of integrals within S-Plus...
AbstractThere has been a great deal of research into good algorithms for approximating multidimensio...
AbstractA simple method is given for constructing quadrature rules for the numerical integration of ...
A unified treatment of three point quadrature rules is presented in which the classical rules of mid...
A new adaptive quadrature algorithm that places a greater emphasis on cost reduction while still mai...
Numerical integration is the study of how the numerical value of an integral can be found. Also cal...
In this research, some new and efficient quadrature rules are proposed involving the combination of ...
A unified treatment of three point quadrature rules is presented in which the classical rules of mid...
The result of this research is the proposed to mathematical apparatus and a procedure for constructi...
AbstractIn this paper, a mixed quadrature rule of degree of precision seven is formed for analytic f...
Abstract A mixed quadrature rule of higher precision for approximate evaluation of real definite int...
AbstractThe adaptive quadrature method requires a fixed integration formula with an error estimator ...
The term numerical integration covers several different tasks, including numerical evaluation of int...
A quadrature rule for the numerical evaluation of integrals of analytic functions along directed lin...
AbstractThe computational cost of automatic quadrature programs is analyzed under the hypothesis of ...
This paper reviews current quadrature methods for approximate calculation of integrals within S-Plus...
AbstractThere has been a great deal of research into good algorithms for approximating multidimensio...
AbstractA simple method is given for constructing quadrature rules for the numerical integration of ...
A unified treatment of three point quadrature rules is presented in which the classical rules of mid...
A new adaptive quadrature algorithm that places a greater emphasis on cost reduction while still mai...
Numerical integration is the study of how the numerical value of an integral can be found. Also cal...
In this research, some new and efficient quadrature rules are proposed involving the combination of ...
A unified treatment of three point quadrature rules is presented in which the classical rules of mid...
The result of this research is the proposed to mathematical apparatus and a procedure for constructi...