Abstract
This paper deals with compatibility of space‐time kernels with (either) full, spatially dynamical, or space‐time compact support. We deal with the dilemma of statistical accuracy versus computational scalability, which are in a notorious trade‐off. Apparently, models with full support ensure maximal information but are computationally expensive, while compactly supported models achieve computational scalability at the expense of loss of information. Hence, an inspection of whether these models might be compatible is necessary. The criterion we use for such an inspection is based on equivalence of Gaussian measures. We provide sufficient conditions for space‐time compatibility. As a corollary, we deduce implications in terms of maximum likelihood estimation and misspecified kriging prediction under fixed domain asymptotics. Some results of independent interest relate about the space‐time spectrum associated with the classes of kernels proposed in the paper.
Item Type: | Journal Article, refereed, original work |
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Communities & Collections: | 07 Faculty of Science > Institute of Mathematics |
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Dewey Decimal Classification: | 510 Mathematics |
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Scopus Subject Areas: | Physical Sciences > General Mathematics
Physical Sciences > General Engineering |
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Uncontrolled Keywords: | Author Keywords: fixed-domain asymptotics ; Mat & eacute;rn covariance ; maximum likelihood ; microergodic parameterprediction ; space-time generalized Wendland family
Keywords: PlusCOVARIANCE FUNCTIONS
MSC classification: 60G60, 62M40, 42A82 |
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Language: | English |
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Date: | 1 August 2024 |
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Deposited On: | 01 Oct 2024 12:16 |
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Last Modified: | 03 Oct 2024 11:20 |
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Publisher: | Wiley-Blackwell Publishing, Inc. |
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ISSN: | 0170-4214 |
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Additional Information: | AUTHOR CONTRIBUTIONS:
Tarik Faouzi: Conceptualization; methodology; formal analysis; writing—original draft. Reinhard Furrer: con-
Ceptualization; methodology; formal analysis; writing—original draft; validation. Emilio Porcu: Conceptualization;
investigation; methodology; validation; formal analysis; writing—original draft. |
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OA Status: | Hybrid |
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Publisher DOI: | https://doi.org/10.1002/mma.10379 |
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Project Information: | - Funder: FONDECYT
- Grant ID: 11200749
- Project Title: Chile
- Funder: Swiss National Science Foundation
- Grant ID: SNSF-175529
- Project Title:
- Funder: FSU
- Grant ID: FSU-202
- Project Title:
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