Performance and Generalizability Impacts of Incorporating Location Encoders into Deep Learning for Dynamic PM2.5 Estimation
- URL: http://arxiv.org/abs/2505.18461v2
- Date: Sun, 26 Oct 2025 20:14:45 GMT
- Title: Performance and Generalizability Impacts of Incorporating Location Encoders into Deep Learning for Dynamic PM2.5 Estimation
- Authors: Morteza Karimzadeh, Zhongying Wang, James L. Crooks,
- Abstract summary: We study the effect of geolocation into deep learning for a dynamic and spatially heterogeneous application.<n>We estimate daily surface-level PM2.5 across the contiguous United States using satellite and ground-based observations.<n>Results show that raw coordinates can improve performance within regions by supporting spatial generalization, but can reduce generalizability across regions.
- Score: 0.39762912548964846
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Deep learning has shown strong performance in geospatial prediction tasks, but the role of geolocation information in improving accuracy and generalizability remains underexamined. Recent work has introduced location encoders that aim to represent spatial context in a transferable way, yet most evaluations have focused on static mapping tasks. Here, we study the effect of incorporating geolocation into deep learning for a dynamic and spatially heterogeneous application: estimating daily surface-level PM2.5 across the contiguous United States using satellite and ground-based observations. We compare three strategies for representing location: excluding geolocation, using raw latitude and longitude, and using pretrained location encoders. We evaluate each under within-region and out-of-region generalization settings. Results show that raw coordinates can improve performance within regions by supporting spatial interpolation, but can reduce generalizability across regions. In contrast, pretrained location encoders such as GeoCLIP improve both predictive accuracy and geographic transfer. However, we also observe spatial artifacts linked to encoder characteristics, and performance varies across encoder types (e.g., SatCLIP vs. GeoCLIP). This work provides the first systematic evaluation of location encoders in a dynamic environmental estimation context and offers guidance for incorporating geolocation into deep learning models for geospatial prediction.
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