toms886


toms886, an Octave code which implements an interpolation procedure based on "Padua points", defined in the square [-1,+1]^2, whose interpolating power is especially good. It is possible to map these points to the general rectangle, ellipse or triangle to do interpolation on these regions as well.

The text of many ACM TOMS algorithms is available online through ACM: https://calgo.acm.org/ or NETLIB: https://www.netlib.org/toms/index.html.

Licensing:

The computer code and data files made available on this web page are distributed under the MIT license

Languages:

toms886 is available in a C version and a C++ version and a Fortran90 version and a MATLAB version and an Octave version.

Related Data and Programs:

toms886_test

lagrange_interp_2d, an Octave code which defines and evaluates the lagrange polynomial p(x,y) which interpolates a set of data depending on a 2d argument that was evaluated on a product grid, so that p(x(i),y(j)) = z(i,j).

pwl_interp_2d, an Octave code which evaluates a piecewise linear interpolant to data defined on a regular 2d grid.

pwl_interp_2d_scattered, an Octave code which evaluates a piecewise linear interpolant to data which is available at an irregularly arranged set of points.

rbf_interp_2d, an Octave code which defines and evaluates radial basis function (rbf) interpolants to 2d data.

shepard_interp_2d, an Octave code which defines and evaluates shepard interpolants to scattered 2d data, based on inverse distance weighting.

test_interp_2d, an Octave code which defines test problems for interpolation of regular or scattered data z(x,y), depending on a 2d argument.

vandermonde_interp_2d, an Octave code which finds a polynomial interpolant to data z(x,y) of a 2d argument by setting up and solving a linear system for the polynomial coefficients, involving the vandermonde matrix.

Author:

Marco Caliari, Stefano de Marchi, Marco Vianello.

Reference:

  1. Marco Caliari, Stefano de Marchi, Marco Vianello,
    Bivariate interpolation on the square at new nodal sets,
    Applied Mathematics and Computation,
    Volume 165, Number 2, 2005, pages 261-274.
  2. Marco Caliari, Stefano de Marchi, Marco Vianello,
    Algorithm 886: Padua2D: Lagrange Interpolation at Padua Points on Bivariate Domains,
    ACM Transactions on Mathematical Software,
    Volume 35, Number 3, October 2008, Article 21, 11 pages.
  3. Richard Franke,
    Scattered Data Interpolation: Tests of Some Methods,
    Mathematics of Computation,
    Volume 38, Number 157, January 1982, pages 181-200.

Source Code:


Last revised on 21 May 2023.