2006
DOI: 10.1007/s11253-006-0128-z
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On some properties of Buhmann functions

Abstract: We study functions introduced by Buhmann. The exact exponent of smoothness of these functions is obtained and the problem of positivity of their Hankel transforms is analyzed.

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Cited by 28 publications
(29 citation statements)
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“…it is simple to modify (8) to evaluate 20) and hence the problem of positivity reduces to the nonnegativity question on the 2 F 3 hypergeometric functions defined in (20). Our improvement of Theorem A reads as follows.…”
Section: Improved Results Of Misiewicz and Richardsmentioning
confidence: 99%
“…it is simple to modify (8) to evaluate 20) and hence the problem of positivity reduces to the nonnegativity question on the 2 F 3 hypergeometric functions defined in (20). Our improvement of Theorem A reads as follows.…”
Section: Improved Results Of Misiewicz and Richardsmentioning
confidence: 99%
“…For two given non negative functions g 1 (x) and g 2 (x), with g 1 (x) g 2 (x) we mean that there exist two constants c and C such that 0 < c < C < ∞ and cg 2 (x) ≤ g 1 (x) ≤ Cg 2 (x) for each x. The next result follows from Zastavnyi (2006), Chernih and Hubbert (2014), and from standard properties of Fourier transforms. Their proofs are thus omitted.…”
mentioning
confidence: 95%
“…Inspired by this idea, we focus on a covariance model that offers the strength of the Matérn family and allows the use of sparse matrices. Specifically, we study estimation and prediction of Gaussian fields under fixed domain asymptotics, using the generalized Wendland (GW) class of covariance functions (Gneiting, 2002a;Zastavnyi, 2006), the members of which are compactly supported over balls of R d with arbitrary radii, and additionally allows for a continuous parameterization of differentiability at the origin, in a similar way to the Matérn family.…”
mentioning
confidence: 99%
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“…Wendland functions. Arguments in Gneiting (2002) and Zastavnyi (2006) show that, for a given κ > 0, ϕ µ,κ,β,σ 2 ∈ Φ β d if and only if µ ≥ (d + 1) 2 + κ. In this special case κ = 0 the GW correlation function is defined as:…”
Section: Matérn Generalized Wendland and Generalized Cauchy Covarianmentioning
confidence: 99%