Collaborative forecasting of influenza-like illness in Italy: The Influcast experience

IF 3 3区医学 Q2 INFECTIOUS DISEASES Epidemics Pub Date : 2025-02-14 DOI:10.1016/j.epidem.2025.100819

Stefania Fiandrino , Andrea Bizzotto , Giorgio Guzzetta , Stefano Merler , Federico Baldo , Eugenio Valdano , Alberto Mateo Urdiales , Antonino Bella , Francesco Celino , Lorenzo Zino , Alessandro Rizzo , Yuhan Li , Nicola Perra , Corrado Gioannini , Paolo Milano , Daniela Paolotti , Marco Quaggiotto , Luca Rossi , Ivan Vismara , Alessandro Vespignani , Nicolò Gozzi

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引用次数: 0

Abstract

Collaborative hubs that integrate multiple teams to generate ensemble projections and forecasts for shared targets are now regarded as state-of-the-art in epidemic predictive modeling. In this paper, we introduce Influcast, Italy’s first epidemic forecasting hub for influenza-like illness. During the 2023/2024 winter season, Influcast provided 20 rounds of forecasts, involving five teams and eight models to predict influenza-like illness incidence up to four weeks in advance at the national and regional administrative level. The individual forecasts were synthesized into an ensemble and benchmarked against a baseline model. Across all models, the ensemble most frequently ranks among the top performers at the national level considering different metrics and forecasting rounds. Additionally, the ensemble outperforms the baseline and most individual models across all regions. Despite a decline in absolute performance over longer horizons, the ensemble model outperformed the baseline in all considered horizons. These findings show the importance of multimodel forecasting hubs in producing reliable short-term influenza-like illnesses forecasts that can inform public health preparedness and mitigation strategies.

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来源期刊

Epidemics INFECTIOUS DISEASES-

CiteScore

6.00

自引率

7.90%

发文量

审稿时长

140 days

期刊介绍： Epidemics publishes papers on infectious disease dynamics in the broadest sense. Its scope covers both within-host dynamics of infectious agents and dynamics at the population level, particularly the interaction between the two. Areas of emphasis include: spread, transmission, persistence, implications and population dynamics of infectious diseases; population and public health as well as policy aspects of control and prevention; dynamics at the individual level; interaction with the environment, ecology and evolution of infectious diseases, as well as population genetics of infectious agents.