Interpolation of nonstationary high frequency spatial-temporal temperature data
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Publication:386756
DOI10.1214/13-AOAS633zbMath1454.62444arXiv1311.7472OpenAlexW3102411207WikidataQ57425815 ScholiaQ57425815MaRDI QIDQ386756
Michael L. Stein, Joseph Guinness
Publication date: 10 December 2013
Published in: The Annals of Applied Statistics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1311.7472
Inference from spatial processes (62M30) Applications of statistics to environmental and related topics (62P12) Inference from stochastic processes and spectral analysis (62M15) Geostatistics (86A32)
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Cites Work
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- Consistent estimates of deformed isotropic Gaussian random fields on the plane
- Spatial interpolation of high-frequency monitoring data
- Cyclostationarity: half a century of research
- Interpolation of spatial data. Some theory for kriging
- Fitting time series models to nonstationary processes
- A likelihood approximation for locally stationary processes
- On the Kullback-Leibler information divergence of locally stationary processes
- Estimating deformations of isotropic Gaussian random fields on the plane
- Estimation and information in stationary time series
- Spectral methods for nonstationary spatial processes
- Transformation to approximate independence for locally stationary Gaussian processes
- The volatility of temperature and pricing of weather derivatives
- Statistical Methods for Regular Monitoring Data
- Weather Forecasting for Weather Derivatives
