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Activity Number:
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321
- Machine Learning and Variable Selection
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Type:
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Contributed
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Date/Time:
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Wednesday, August 11, 2021 : 3:30 PM to 5:20 PM
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Sponsor:
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Section on Statistical Computing
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Abstract #318043
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Title:
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Variable Selection for Spatially Varying Coefficient Models
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Author(s):
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Jakob A. Dambon* and Fabio Sigrist and Reinhard Furrer
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Companies:
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University of Zurich and Lucerne University of Applied Sciences and Arts and University of Zurich
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Keywords:
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Adaptive LASSO;
Coordinate descent algorithm;
Model-based optimization;
Penalized maximum likelihood estimation;
Spatial statistics
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Abstract:
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Spatially varying coefficient (SVC) models are a type of regression model for spatial data where covariate effects vary over space. If there are several covariates, a natural question is which covariates have a spatially varying effect and which not. We present a new variable selection approach for Gaussian process-based SVC models. It relies on a penalized maximum likelihood estimation (PMLE) and allows variable selection both with respect to fixed effects and Gaussian process random effects. We validate our approach both in a simulation study as well as a real world data set. Our novel approach shows good selection performance in the simulation study. In the real data application, our proposed PMLE yields sparser SVC models and achieves a smaller information criterion than classical MLE. In a cross-validation applied on the real data, we show that sparser PML estimated SVC models are on par with ML estimated SVC models with respect to predictive performance.
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Authors who are presenting talks have a * after their name.
