Michele Peruzzi scite author profile

Michele Peruzzi

4Publications

50Citation Statements Received

45Citation Statements Given

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229

Affiliations

Duke University, Michigan State University

Publications

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Highly Scalable Bayesian Geostatistical Modeling via Meshed Gaussian Processes on Partitioned Domains

Peruzzi

Banerjee

Finley

2020

Journal of the American Statistical Association

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We introduce a class of scalable Bayesian hierarchical models for the analysis of massive geostatistical datasets. The underlying idea combines ideas on high-dimensional geostatistics by partitioning the spatial domain and modeling the regions in the partition using a sparsity-inducing directed acyclic graph (DAG). We extend the model over the DAG to a well-defined spatial process, which we call the meshed Gaussian process (MGP). A major contribution is the development of an MGPs on tessellated domains, accompanied by a Gibbs sampler for the efficient recovery of spatial random effects. In particular, the cubic MGP (Q-MGP) can harness high-performance computing resources by executing all large-scale operations in parallel within the Gibbs sampler, improving mixing and computing time compared to sequential updating schemes. Unlike some existing models for large spatial data, a Q-MGP facilitates massive caching of expensive matrix operations, making it particularly apt in dealing with spatiotemporal remote-sensing data. We compare Q-MGPs with large synthetic and real world data against state-of-the-art methods. We also illustrate using Normalized Difference Vegetation Index data from the Serengeti park region to recover latent multivariate spatiotemporal random effects at millions of locations. The source code is available at github.com/mkln/ meshgp. Supplementary materials for this article are available online.

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Accelerating Economic Growth: The Science beneath the Art

Peruzzi

Terzi

2021

Economic Modelling

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A novel model to accurately predict continental-scale timing of forest green-up

Neupane

Peruzzi

Arab

et al. 2022

International Journal of Applied Earth Observation and Geoinfor

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Bag of DAGs: Flexible Nonstationary Modeling of Spatiotemporal Dependence

Jin¹,

Peruzzi²,

Dunson³

2021

Preprint

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Michele Peruzzi

Highly Scalable Bayesian Geostatistical Modeling via Meshed Gaussian Processes on Partitioned Domains

Accelerating Economic Growth: The Science beneath the Art

A novel model to accurately predict continental-scale timing of forest green-up

Bag of DAGs: Flexible Nonstationary Modeling of Spatiotemporal Dependence

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