SPATIAL ANALYSIS OF WAVE DIRECTION DATA USING WRAPPED GAUSSIAN PROCESSES

SPATIAL ANALYSIS OF WAVE DIRECTION DATA USING WRAPPED GAUSSIAN PROCESSES

Directional data arise in various contexts such as oceanography (wave directions) and meteorology (wind directions), as well as with measurements on a periodic scale (weekdays, hours, etc.). Our contribution is to introduce a model-based approach to handle periodic data in the case of measurements t...

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Veröffentlicht in:The annals of applied statistics 2012-12, Vol.6 (4), p.1478-1498
Hauptverfasser: Jona-Lasinio, Giovanna, Gelfand, Alan, Jona-Lasinio, Mattia
Format: Artikel
Sprache:eng
Schlagworte:
Analytical forecasting
Bayesian kriging
Circles
Covariance
Data models
Gaussian distributions
Gaussian processes
hierarchical model
Kriging
latent variables
Modeling
Spatial models
Special Section on Mathematics of Planet Earth 2013
Truncation
Wind velocity
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Beschreibung
Zusammenfassung:Directional data arise in various contexts such as oceanography (wave directions) and meteorology (wind directions), as well as with measurements on a periodic scale (weekdays, hours, etc.). Our contribution is to introduce a model-based approach to handle periodic data in the case of measurements taken at spatial locations, anticipating structured dependence between these measurements. We formulate a wrapped Gaussian spatial process model for this setting, induced from a customary linear Gaussian process. We build a hierarchical model to handle this situation and show that the fitting of such a model is possible using standard Markov chain Monte Carlo methods. Our approach enables spatial interpolation (and can accommodate measurement error). We illustrate with a set of wave direction data from the Adriatic coast of Italy, generated through a complex computer model.
ISSN:1932-6157
1941-7330
DOI:10.1214/12-aoas576