Shepard's Interpolation for Solution-Adaptive Methods

macromolecular dynamics of proteins in which the components of x describe the positions in space of large numbers Numerical integration of Newton's equation in multiple dimensions plays an important role in many fields such as biochemistry of objects (e.g., stars or atoms). In particular, protein MD

## Abstract An adaptive strategy is combined with the cubic‐spline interpolation method in this article to efficiently calculate the scattering from electrically large objects. The cubic‐spline interpolation method is used to approximate the monostatic radar crosssection (RCS) curve on a set of non

## Abstract In this article, an adaptive technique combined with the bicubic spline interpolation method is proposed to efficiently calculate the scattering from electrically large objects. The bicubic spline interpolation method is used to approximate the 2D monostatic RCS data on a set of nonunif

Adaptive designs generate dependent sequences of random variables that are not exchangeable. Therefore, it is not obvious how to employ a resampling scheme for con"dence interval estimation. We propose a simple procedure where observed response rates from an adaptive experiment are input to a simula