Modelling and inversion of controlled-source electromagnetic (CSEM) fields requires accurate interpolation of modelled results near strong resistivity contrasts. There, simple linear interpolation may produce large errors, whereas higher-order interpolation may lead to oscillatory behaviour in the interpolated result. We propose to use the essentially non-oscillatory, piecewise polynomial interpolation scheme designed for piecewise smooth functions that contains discontinuities in the function itself or in its first or higher derivatives. The scheme uses a non-linear adaptive algorithm to select a set of interpolation points that represent the smoothest part of the function among the sets of neighbouring points.
We present numerical examples to demonstrate the usefulness of the scheme. The first example shows that the essentially non-oscillatory interpolation (ENO) scheme better captures an isolated discontinuity. In the second example, we consider the case of sampling the electric field computed by a finite-volume CSEM code at a receiver location. In this example, the ENO interpolation performs quite well. However, the overall error is dominated by the discretization error. The other examples consider the comparison between sampling with essentially non-oscillatory interpolation and existing interpolation schemes. In these examples, essentially non-oscillatory interpolation provides more accurate results than standard interpolation, especially near discontinuities.

• 出版日期2011-1