Fractional Splines , Wavelet Bases
نویسنده
چکیده
The purpose of this presentation is to describe a recent family of basis functions—the fractional B-splines—which appear to be intimately connected to fractional calculus. Among other properties, we show that they are the convolution kernels that link the discrete (finite differences) and continuous (derivatives) fractional differentiation operators. We also provide simple closed forms for the fractional derivatives of these splines. The fractional B-splines satisfy a fundamental two-scale relation. Consequently, they can be used as building blocks for constructing a variety of orthogonal and semi-orthogonal wavelet bases of L2; these are indexed by a continuous order parameter γ = α + 1, where α is the (fractional) degree of the spline. We show that the corresponding wavelets behave like multiscale differentiation operators of fractional order γ. This is in contrast with classical wavelets whose differentiation order is constrained to be an integer. We also briefly discuss some recent applications in medical and seismic imaging.
منابع مشابه
Construction of fractional spline wavelet bases
We extend Schoenberg's B-splines to all fractional degrees α > − 2 . These splines are constructed using linear combinations of the integer shifts of the power functions x+ α (one-sided) or x * α (symmetric); in each case, they are αHölder continuous for α > 0. They satisfy most of the properties of the traditional B-splines; in particular, the Riesz basis condition and the two-scale relation, ...
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