2,606 research outputs found
Effect of Contrail Cirrus on Surface Weather Conditions in the Midwest - Phase I
published or submitted for publicationis peer reviewedOpe
On kernel engineering via Paley–Wiener
A radial basis function approximation takes the form
where the coefficients a 1,…,a n are real numbers, the centres b 1,…,b n are distinct points in ℝ d , and the function φ:ℝ d →ℝ is radially symmetric. Such functions are highly useful in practice and enjoy many beautiful theoretical properties. In particular, much work has been devoted to the polyharmonic radial basis functions, for which φ is the fundamental solution of some iterate of the Laplacian. In this note, we consider the construction of a rotation-invariant signed (Borel) measure μ for which the convolution ψ=μ φ is a function of compact support, and when φ is polyharmonic. The novelty of this construction is its use of the Paley–Wiener theorem to identify compact support via analysis of the Fourier transform of the new kernel ψ, so providing a new form of kernel engineering
Assessment of Usage of Real-time Climatic Data and Information to the Public and Private Sector
published or submitted for publicationis peer reviewedOpe
Demonstration of Use and Value of Climatic Information to Governmental Agencies
published or submitted for publicationis peer reviewedOpe
On spherical averages of radial basis functions
A radial basis function (RBF) has the general form
where the coefficients a 1,…,a n are real numbers, the points, or centres, b 1,…,b n lie in ℝ d , and φ:ℝ d →ℝ is a radially symmetric function. Such approximants are highly useful and enjoy rich theoretical properties; see, for instance (Buhmann, Radial Basis Functions: Theory and Implementations, [2003]; Fasshauer, Meshfree Approximation Methods with Matlab, [2007]; Light and Cheney, A Course in Approximation Theory, [2000]; or Wendland, Scattered Data Approximation, [2004]). The important special case of polyharmonic splines results when φ is the fundamental solution of the iterated Laplacian operator, and this class includes the Euclidean norm φ(x)=‖x‖ when d is an odd positive integer, the thin plate spline φ(x)=‖x‖2log ‖x‖ when d is an even positive integer, and univariate splines. Now B-splines generate a compactly supported basis for univariate spline spaces, but an analyticity argument implies that a nontrivial polyharmonic spline generated by (1.1) cannot be compactly supported when d>1. However, a pioneering paper of Jackson (Constr. Approx. 4:243–264, [1988]) established that the spherical average of a radial basis function generated by the Euclidean norm can be compactly supported when the centres and coefficients satisfy certain moment conditions; Jackson then used this compactly supported spherical average to construct approximate identities, with which he was then able to derive some of the earliest uniform convergence results for a class of radial basis functions. Our work extends this earlier analysis, but our technique is entirely novel, and applies to all polyharmonic splines. Furthermore, we observe that the technique provides yet another way to generate compactly supported, radially symmetric, positive definite functions. Specifically, we find that the spherical averaging operator commutes with the Fourier transform operator, and we are then able to identify Fourier transforms of compactly supported functions using the Paley–Wiener theorem. Furthermore, the use of Haar measure on compact Lie groups would not have occurred without frequent exposure to Iserles’s study of geometric integration
Regional Climate Coordination Office (RCCO): Second Annual Report
published or submitted for publicationis peer reviewedOpe
Climate Data and Information Inventory of the North Central United States Managed by the North Central Regional Climate Center
published or submitted for publicationis peer reviewedOpe
Mean 1951-1980 Temperature and Precipitation for the North Central Region
This atlas presents patterns of 1951-80 mean precipitation, temperature, and heating- and cooling degree days data for the Upper Midwest and High Plains states of the North Central region. These analyses are prepared from observations of National Weather Service Cooperative and First Order Station stations to obtain maximum data density, and summarized by the National Climatic Data Center, Asheville NC.published or submitted for publicationis peer reviewe
North Central Regional Climate Center (NCRCC): Third Annual Report
published or submitted for publicationis peer reviewedOpe
North Central Regional Climate Center (NCRCC) Annual Report
published or submitted for publicationis peer reviewedOpe
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