Superconvergence for Multistep Collocation
Copyright policy )Superconvergence for Multistep Collocation
One-step collocation methods are known to be a subclass of implicit Runge-Kutta methods. Further, one-leg methods are special multistep one-point collocation methods. In this paper we extend both of these collocation ideas to multistep collocation methods with k previous meshpoints and m collocation points. By construction, the order is at least m + k − 1 m + k - 1 . However, by choosing the collocation points in the right way, order 2 m + k − 1 2m + k - 1 is obtained as the maximum. There are ( m + k − 1 k − 1 ) \left ( {\begin {array}{*{20}{c}} {m + k - 1} \\ {k - 1} \\ \end {array} } \right ) sets of such "multistep Gaussian" collocation points.
superconvergence, implicit Runge-Kutta methods, multistep collocation, Nonlinear ordinary differential equations and systems, Numerical methods for initial value problems involving ordinary differential equations
superconvergence, implicit Runge-Kutta methods, multistep collocation, Nonlinear ordinary differential equations and systems, Numerical methods for initial value problems involving ordinary differential equations
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