AbstractA comparative study of 15 general-purpose numerical integrators is reported. Each of the programs in the study is tested on a battery of 110 test integrals displaying a wide variety of integrand behaviour and general comments on the performance of the programs are presented
Romberg's quadrature is investigated with special emphasis on its use in automatic integration. Se...
Romberg's quadrature is investigated with special emphasis on its use in automatic integration. Se...
The objective in numerical integration is the approximation of a definite integral using numerical t...
AbstractA comparative study of 15 general-purpose numerical integrators is reported. Each of the pro...
Abstract. Computer simulations involving numerical integration typi-cally rely upon subroutines from...
A mathematical analysis seeking an accurate measure of the worth of numerical integration techniques...
Some new methods for performing numerical quadrature of an integrable function over a finite interva...
The authors have implemented three numerical quadrature schemes, using the new Arbitrary Precision (...
This paper reviews current quadrature methods for approximate calculation of integrals within S-Plus...
This paper reviews current quadrature methods for approximate calculation of integrals within S-Plus...
AbstractIn a recent comparison of methods of highly oscillatory numerical integration the authors ap...
One of the most fruitful advances in the field of experimental mathematics has been the development ...
Algorithm for efficient evaluation of badly behaved definite integrals to prescribed accuracy by con...
AbstractTheoretical error estimates for quadrature rules involve quantities that are usually difficu...
We compare the accuracy of numerical integral methods like Newton-Cotes method and Gaussian Quadratu...
Romberg's quadrature is investigated with special emphasis on its use in automatic integration. Se...
Romberg's quadrature is investigated with special emphasis on its use in automatic integration. Se...
The objective in numerical integration is the approximation of a definite integral using numerical t...
AbstractA comparative study of 15 general-purpose numerical integrators is reported. Each of the pro...
Abstract. Computer simulations involving numerical integration typi-cally rely upon subroutines from...
A mathematical analysis seeking an accurate measure of the worth of numerical integration techniques...
Some new methods for performing numerical quadrature of an integrable function over a finite interva...
The authors have implemented three numerical quadrature schemes, using the new Arbitrary Precision (...
This paper reviews current quadrature methods for approximate calculation of integrals within S-Plus...
This paper reviews current quadrature methods for approximate calculation of integrals within S-Plus...
AbstractIn a recent comparison of methods of highly oscillatory numerical integration the authors ap...
One of the most fruitful advances in the field of experimental mathematics has been the development ...
Algorithm for efficient evaluation of badly behaved definite integrals to prescribed accuracy by con...
AbstractTheoretical error estimates for quadrature rules involve quantities that are usually difficu...
We compare the accuracy of numerical integral methods like Newton-Cotes method and Gaussian Quadratu...
Romberg's quadrature is investigated with special emphasis on its use in automatic integration. Se...
Romberg's quadrature is investigated with special emphasis on its use in automatic integration. Se...
The objective in numerical integration is the approximation of a definite integral using numerical t...
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