Related papers: Synergistic Neural Forecasting of Air Pollution with Stochastic Sampling

Synergistic Neural Forecasting of Air Pollution with Stochastic Sampling

URL: http://arxiv.org/abs/2510.23977v1
Date: Tue, 28 Oct 2025 01:18:00 GMT
Title: Synergistic Neural Forecasting of Air Pollution with Stochastic Sampling
Authors: Yohan Abeysinghe, Muhammad Akhtar Munir, Sanoojan Baliah, Ron Sarafian, Fahad Shahbaz Khan, Yinon Rudich, Salman Khan,
Abstract summary: Air pollution remains a leading global health and environmental risk, particularly in regions vulnerable to episodic air pollution spikes due to wildfires, urban haze and dust storms.<n>Here, we present SynCast, a high-resolution neural forecasting model that integrates meteorological and air composition data to improve predictions of both average and extreme pollution levels.
Score: 50.3911487821783
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Air pollution remains a leading global health and environmental risk, particularly in regions vulnerable to episodic air pollution spikes due to wildfires, urban haze and dust storms. Accurate forecasting of particulate matter (PM) concentrations is essential to enable timely public health warnings and interventions, yet existing models often underestimate rare but hazardous pollution events. Here, we present SynCast, a high-resolution neural forecasting model that integrates meteorological and air composition data to improve predictions of both average and extreme pollution levels. Built on a regionally adapted transformer backbone and enhanced with a diffusion-based stochastic refinement module, SynCast captures the nonlinear dynamics driving PM spikes more accurately than existing approaches. Leveraging on harmonized ERA5 and CAMS datasets, our model shows substantial gains in forecasting fidelity across multiple PM variables (PM$_1$, PM$_{2.5}$, PM$_{10}$), especially under extreme conditions. We demonstrate that conventional loss functions underrepresent distributional tails (rare pollution events) and show that SynCast, guided by domain-aware objectives and extreme value theory, significantly enhances performance in highly impacted regions without compromising global accuracy. This approach provides a scalable foundation for next-generation air quality early warning systems and supports climate-health risk mitigation in vulnerable regions.

Related papers

A Causality-Aware Spatiotemporal Model for Multi-Region and Multi-Pollutant Air Quality Forecasting [40.464076620990866]
AirPCM combines multi-pollutant dynamics with explicit meteorology-pollutant causality modeling.<n>AirPCM consistently surpasses state-of-the-art baselines in both predictive accuracy and generalization capability.
arXiv Detail & Related papers (2025-09-25T14:54:23Z)
MVAR: MultiVariate AutoRegressive Air Pollutants Forecasting Model [18.785110680719235]
Existing studies predominantly focus on single-pollutant forecasting, neglecting the interactions among different pollutants and their diverse spatial responses.<n>We propose MultiVariate AutoRegressive air pollutants forecasting model, which reduces the dependency on long-time-window inputs.<n>We construct a comprehensive dataset covering 6 major pollutants across 75 cities in North China from 2018 to 2023, including ERA5 reanalysis data and FuXi-2.0 forecast data.
arXiv Detail & Related papers (2025-07-16T08:30:41Z)
Air Quality Prediction with A Meteorology-Guided Modality-Decoupled Spatio-Temporal Network [47.699409089023696]
Air quality prediction plays a crucial role in public health and environmental protection.<n>Existing works underestimate the critical role atmospheric conditions in air quality prediction.<n> MDSTNet is an encoder framework explicitly that captures atmosphere-pollution dependencies for prediction.<n>ChinaAirNet is the first dataset combining air quality records with multi-pressure-level meteorological observations.
arXiv Detail & Related papers (2025-04-14T09:18:11Z)
Causal Links Between Anthropogenic Emissions and Air Pollution Dynamics in Delhi [0.0]
Delhi-National Capital Region experiences air pollution episodes due to complex interactions between anthropogenic emissions and meteorological conditions.<n>This study investigates the causal links of anthropogenic emissions on $PM_2.5$ and $O_3$ concentrations using predictive modeling and causal inference techniques.
arXiv Detail & Related papers (2025-03-24T17:25:44Z)
Offline Meteorology-Pollution Coupling Global Air Pollution Forecasting Model with Bilinear Pooling [5.236306661644172]
Traditional physics-based models forecast global air pollution by coupling meteorology and pollution processes.<n>Existing deep learning (DL) solutions employ online coupling strategies for global air pollution forecasting.<n>This study pioneers a DL-based offline coupling framework that utilizes bilinear pooling to achieve offline coupling between meteorological fields and pollutants.
arXiv Detail & Related papers (2025-03-24T07:24:31Z)
A HEART for the environment: Transformer-Based Spatiotemporal Modeling for Air Quality Prediction [0.0]
llull-environment is a sophisticated and scalable forecasting system for air pollution.<n>It contains an encoder-decoder convolutional neural network to forecast mean pollution levels for four key pollutants.<n>This paper investigates the augmentation of this neural network with an attention mechanism to improve predictive accuracy.
arXiv Detail & Related papers (2025-02-26T10:54:27Z)
AirCast: Improving Air Pollution Forecasting Through Multi-Variable Data Alignment [46.56288727659417]
Air pollution remains a leading global health risk, exacerbated by rapid industrialization and urbanization.<n>We introduce AirCast, a novel multi-variable air pollution forecasting model.<n>AirCast employs a multi-task head architecture that simultaneously forecasts atmospheric conditions and pollutant concentrations.
arXiv Detail & Related papers (2025-02-25T07:34:18Z)
Efficient Localized Adaptation of Neural Weather Forecasting: A Case Study in the MENA Region [62.09891513612252]
We focus on limited-area modeling and train our model specifically for localized region-level downstream tasks. We consider the MENA region due to its unique climatic challenges, where accurate localized weather forecasting is crucial for managing water resources, agriculture and mitigating the impacts of extreme weather events. Our study aims to validate the effectiveness of integrating parameter-efficient fine-tuning (PEFT) methodologies, specifically Low-Rank Adaptation (LoRA) and its variants, to enhance forecast accuracy, as well as training speed, computational resource utilization, and memory efficiency in weather and climate modeling for specific regions.
arXiv Detail & Related papers (2024-09-11T19:31:56Z)
MambaDS: Near-Surface Meteorological Field Downscaling with Topography Constrained Selective State Space Modeling [68.69647625472464]
Downscaling, a crucial task in meteorological forecasting, enables the reconstruction of high-resolution meteorological states for target regions. Previous downscaling methods lacked tailored designs for meteorology and encountered structural limitations. We propose a novel model called MambaDS, which enhances the utilization of multivariable correlations and topography information.
arXiv Detail & Related papers (2024-08-20T13:45:49Z)
Residual Corrective Diffusion Modeling for Km-scale Atmospheric Downscaling [58.456404022536425]
State of the art for physical hazard prediction from weather and climate requires expensive km-scale numerical simulations driven by coarser resolution global inputs. Here, a generative diffusion architecture is explored for downscaling such global inputs to km-scale, as a cost-effective machine learning alternative. The model is trained to predict 2km data from a regional weather model over Taiwan, conditioned on a 25km global reanalysis.
arXiv Detail & Related papers (2023-09-24T19:57:22Z)

This list is automatically generated from the titles and abstracts of the papers in this site.