KAUST DepartmentVisual Computing Center (VCC)
Permanent link to this recordhttp://hdl.handle.net/10754/577065
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AbstractWe show that the generalized Bernstein bases in Müntz spaces defined by Hirschman and Widder (1949) and extended by Gelfond (1950) can be obtained as pointwise limits of the Chebyshev–Bernstein bases in Müntz spaces with respect to an interval [a,1][a,1] as the positive real number a converges to zero. Such a realization allows for concepts of curve design such as de Casteljau algorithm, blossom, dimension elevation to be transferred from the general theory of Chebyshev blossoms in Müntz spaces to these generalized Bernstein bases that we termed here as Gelfond–Bernstein bases. The advantage of working with Gelfond–Bernstein bases lies in the simplicity of the obtained concepts and algorithms as compared to their Chebyshev–Bernstein bases counterparts.
CitationAit-Haddou, R., Sakane, Y., & Nomura, T. (2013). Gelfond–Bézier curves. Computer Aided Geometric Design, 30(2), 199–225. doi:10.1016/j.cagd.2012.10.002
SponsorsThis work was partially supported by the MEXT Global COE project at Osaka University, Japan.
JournalComputer Aided Geometric Design