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Activity Number: 84 - Advances in Spatio-Temporal Statistics with Applications to Environmental Data
Type: Topic-Contributed
Date/Time: Monday, August 9, 2021 : 10:00 AM to 11:50 AM
Sponsor: Section on Statistics and the Environment
Abstract #317576
Title: A Scalable Partitioned Approach to Model Massive Nonstationary Non-Gaussian Spatial Data Sets
Author(s): Jaewoo Park and Ben Seiyon Lee*
Companies: Yonsei University and George Mason University
Keywords: spatial statistics; non-Gaussian spatial data; Markov chain Monte Carlo; spatial basis functions
Abstract:

Nonstationary non-Gaussian spatial data are common in many disciplines, including climate science, ecology, epidemiology, and social sciences. Examples include count data on disease incidence and binary satellite data on cloud mask (cloud/no-cloud). Modeling such datasets as stationary spatial processes can be unrealistic since they are collected over large heterogeneous domains (i.e., spatial behavior differs across subregions). Although several approaches have been developed for nonstationary spatial models, these have focused primarily on Gaussian responses. In addition, fitting nonstationary models for large non-Gaussian datasets is computationally prohibitive. To address these challenges, we propose a scalable algorithm for modeling such data by leveraging parallel computing in modern high-performance computing systems. We partition the spatial domain into disjoint subregions and fit locally nonstationary models using a carefully curated set of spatial basis functions. Then, we combine the local processes using a novel neighbor-based weighting scheme. Our approach scales well to massive datasets (e.g., 1 million samples) and can be implemented in nimble.


Authors who are presenting talks have a * after their name.

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