Nyström method

In mathematics numerical analysis, the Nyström method^[1] or quadrature method seeks the numerical solution of an integral equation by replacing the integral with a representative weighted sum. The continuous problem is broken into ${\displaystyle n}$ discrete intervals; quadrature or numerical integration determines the weights and locations of representative points for the integral.

The problem becomes a system of linear equations with ${\displaystyle n}$ equations and ${\displaystyle n}$ unknowns, and the underlying function is implicitly represented by an interpolation using the chosen quadrature rule. This discrete problem may be ill-conditioned, depending on the original problem and the chosen quadrature rule.

Since the linear equations require ${\displaystyle O(n^3)}$ ^{[citation needed]}operations to solve, high-order quadrature rules perform better because low-order quadrature rules require large ${\displaystyle n}$ for a given accuracy. Gaussian quadrature is normally a good choice for smooth, non-singular problems.

Standard quadrature methods seek to represent an integral as a weighed sum in the following manner:

${\displaystyle {\displaystyle \underset{a}{\overset{b}{\int }}}h(x)\mathrm{d}x\approx {\displaystyle \sum _{k=1}^n}{w}_{k}h(x_k)}$

where ${\displaystyle w_k}$ are the weights of the quadrature rule, and points ${\displaystyle x_k}$ are the abscissas.

Applying this to the inhomogeneous Fredholm equation of the second kind

${\displaystyle f(x)=\lambda u(x)-{\displaystyle \underset{a}{\overset{b}{\int }}}K(x,x^{\prime })f(x^{\prime })\mathrm{d}{x}^{\prime }}$,

results in

${\displaystyle f(x)\approx \lambda u(x)-{\displaystyle \sum _{k=1}^n}{w}_{k}K(x,x_k)f(x_k)}$.

• Boundary element method

• Leonard M. Delves & Joan E. Walsh (eds): Numerical Solution of Integral Equations, Clarendon, Oxford, 1974.
• Hans-Jürgen Reinhardt: Analysis of Approximation Methods for Differential and Integral Equations, Springer, New York, 1985.

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