Foundation AI Models for Aerosol Optical Depth Estimation from PACE Satellite Data
Zahid Hassan Tushar, Sanjay Purushotham
TLDR
Introduces ViTCG, a Vision Transformer-based Foundation AI model for accurate and spatially coherent Aerosol Optical Depth estimation from PACE satellite data.
Key contributions
- Pioneers the use of Foundation AI models for Aerosol Optical Depth (AOD) estimation.
- Introduces ViTCG, a Vision Transformer with Channel-wise Grouping for spatial regression.
- ViTCG jointly processes hyperspectral radiance, leveraging spatial context and spectral information.
- Achieves 62% lower MSE and produces spatially coherent AOD fields versus state-of-the-art models.
Why it matters
Accurate Aerosol Optical Depth (AOD) retrieval is vital for climate studies and air quality monitoring. This paper addresses limitations of existing methods by introducing a novel Foundation AI model, ViTCG. It significantly improves AOD estimation accuracy and spatial consistency, advancing Earth observation capabilities.
Original Abstract
Aerosol Optical Depth (AOD) retrieval is essential for Earth observation, supporting applications from air quality monitoring to climate studies. Conventional physics-based AOD retrieval methods formulate the problem as a pixel-wise inversion, relying on radiative transfer modeling, memory-intensive look-up tables, and auxiliary meteorological data. While recent data-driven approaches have shown promise, many fail to exploit the spatial-spectral coherence of hyperspectral imagery, leading to spatially inconsistent and noise-sensitive retrievals. We present the first study exploring Foundation AI models for AOD retrieval and propose ViTCG, a Vision Transformer with Channel-wise Grouping-based spatial regression framework that reduces retrieval bias and error. ViTCG uses hyperspectral top-of-atmosphere radiance as input and jointly models spatial context and spectral information. Validation with PACE radiance observations demonstrates a 62% reduction in mean squared error compared to state-of-the-art foundation models, including Prithvi, and produces spatially coherent AOD fields.
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