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Special Seminar in Applied Mathematics

Thursday, November 14, 2013
4:00pm to 5:00pm
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Annenberg 105
Multi-Dimensional Polynomial Interpolation on Arbitrary Nodes
Professor Dongbin Xiu, Department of Mathematics, and Scientific Computing and Imaging Institute, Unversity of Utah,

Polynomial interpolation is well understood on the real line. In multi-dimensional spaces, one often adopts a well established one-dimensional method and fills up the space using certain tensor product rule. Examples like this include full tensor construction and sparse grids construction. This approach typically results in fast growth of the total number of interpolation nodes and certain fixed geometrical structure of the nodal sets. This imposes difficulties for practical applications, where obtaining function values at a large number of nodes is infeasible. Also, one often has function data from nodal locations that are not by "mathematical design" and are ``unstructured''.

In this talk, we present a mathematical framework for conducting polynomial interpolation in multiple dimensions using arbitrary set of unstructured nodes. The resulting method, least orthogonal interpolation, is rigorous and has a straightforward numerical implementation. It can faithfully interpolate any function data on any nodal sets, even on those that are considered degenerate by the traditional methods. We also present a strategy to choose ``optimal'' nodes that result in robust interpolation. The strategy is based on optimization of Lebesgue function and has certain highly desirable mathematical properties.

For more information, please contact Carmen Nemer-Sirois by phone at 4561 or by email at [email protected].