Description

Calculate nodes and weights for Gaussian quadrature.

Usage

Arguments

Details

The integral from a to b of w(x)*f(x) is approximated by sum(w*f(x)) where x is the vector of nodes and w is the vector of weights. The approximation is exact if f(x) is a polynomial of order no more than 2n-1. The possible choices for w(x), a and b are as follows:

Legendre quadrature: w(x)=1 on (-1,1).

Chebyshev quadrature of the 1st kind: w(x)=1/sqrt(1-x^2) on (-1,1).

Chebyshev quadrature of the 2nd kind: w(x)=sqrt(1-x^2) on (-1,1).

Hermite quadrature: w(x)=exp(-x^2) on (-Inf,Inf).

Jacobi quadrature: w(x)=(1-x)^alpha*(1+x)^beta on (-1,1). Note that Chebyshev quadrature is a special case of this.

Laguerre quadrature: w(x)=x^alpha*exp(-x) on (0,Inf).

The algorithm used to generated the nodes and weights is explained in Golub and Welsch (1969).

Value

A list containing the components

Author(s)

Gordon Smyth, using Netlib Fortran code http://www.netlib.org/go/gaussq.f, and including a suggestion from Stephane Laurent

References

Golub, G. H., and Welsch, J. H. (1969). Calculation of Gaussian quadrature rules. Mathematics of Computation 23, 221-230.

Golub, G. H. (1973). Some modified matrix eigenvalue problems. Siam Review 15, 318-334.

Smyth, G. K. (1998). Numerical integration. In: Encyclopedia of Biostatistics, P. Armitage and T. Colton (eds.), Wiley, London, pages 3088-3095. http://www.statsci.org/smyth/pubs/NumericalIntegration-Preprint.pdf

Smyth, G. K. (1998). Polynomial approximation. In: Encyclopedia of Biostatistics, P. Armitage and T. Colton (eds.), Wiley, London, pages 3425-3429. http://www.statsci.org/smyth/pubs/PolyApprox-Preprint.pdf

Stroud, AH, and Secrest, D (1966). Gaussian Quadrature Formulas. Prentice-Hall, Englewood Cliffs, N.J.

See Also

gauss.quad.prob, integrate

Examples