@article{695a037770a2465cba4e8ee7873df726, title = "On multivariate interpolation by generalized polynomials on subsets of grids", abstract = "This note may be regarded as a complement to a paper of H. Werner [17] who has carried over Newton's classical interpolation formula to Hermite interpolation by algebraic polynomials of several real variables on certain subsets of grids. Here generalized polynomials of several real or complex variables are treated. Recursive procedures are presented showing that interpolation by generalized multivariate polynomials is performed nearly as simply as interpolation by algebraic polynomials. Having in general the same approximation power, generalized polynomials may be better adapted to special situations. In particular, the results of this note can be used for constructing nonpolynomial finite elements since in that case the interpolation points usually are rather regular subsystems of grids. Though the frame is more general than in [17] some of our proofs are simpler. As an alternative method to evaluate multivariate generalized interpolation polynomials for rectangular grids a Neville-Aitken algorithm is presented.", keywords = "AMS Subject Classifications: 65D05, 41A05, multivariate generalized divided differences, multivariate generalized polynomials, Multivariate Hermite interpolation", author = "G. M{\"u}hlbach", year = "1988", month = sep, doi = "10.1007/BF02251249", language = "English", volume = "40", pages = "201--215", journal = "Computing", issn = "0010-485X", publisher = "Springer-Verlag Wien", number = "3", }