Publications

Evaluation of the US COVID-19 Scenario Modeling Hub for informing pandemic response under uncertainty

Emily Howerton, Lucie Contamin, Luke C. Mullany, Michelle Qin, Nicholas G. Reich, Samantha Bents, Rebecca K. Borchering, Sung-mok Jung, Sara L. Loo, Claire P. Smith, John Levander, Jessica Kerr, J. Espino, Willem G. van Panhuis, Harry Hochheiser, Marta Galanti, Teresa Yamana, Sen Pei, Jeffrey Shaman, Kaitlin Rainwater-Lovett, Matt Kinsey, Kate Tallaksen, Shelby Wilson, Lauren Shin, Joseph C. Lemaitre, Joshua Kaminsky, Juan Dent Hulse, Elizabeth C. Lee, Clifton D. McKee, Alison Hill, Dean Karlen, Matteo Chinazzi, Jessica T. Davis, Kunpeng Mu, Xinyue Xiong, Ana Pastore y Piontti, Alessandro Vespignani, Erik T. Rosenstrom, Julie S. Ivy, Maria E. Mayorga, Julie L. Swann, Guido España, Sean Cavany, Sean Moore, Alex Perkins, Thomas Hladish, Alexander Pillai, Kok Ben Toh, Ira Longini Jr., Shi Chen, Rajib Paul, Daniel Janies, Jean-Claude Thill, Anass Bouchnita, Kaiming Bi, Michael Lachmann, Spencer J. Fox, Lauren Ancel Meyers, Ajitesh Srivastava, Przemyslaw Porebski, Srini Venkatramanan, Aniruddha Adiga, Bryan Lewis, Brian Klahn, Joseph Outten, Benjamin Hurt, Jiangzhuo Chen, Henning Mortveit, Amanda Wilson, Madhav Marathe, Stefan Hoops, Parantapa Bhattacharya, Dustin Machi, Betsy L. Cadwell, Jessica M. Healy, Rachel B. Slayton, Michael A. Johansson, Matthew Biggerstaff, Shaun Truelove, Michael C. Runge, Katriona Shea, Cécile Viboud & Justin Lessler

Publication

Nature communications
14, 7260 (2023)
November 20, 2023

NetSI authors

Matteo Chinazzi
Jessica Davis
Alessandro Vespignani

Research area

Network epidemiology

Resources

View online
Download PDF
Download PDF
Download PDF
Download PDF

Abstract

Our ability to forecast epidemics far into the future is constrained by the many complexities of disease systems. Realistic longer-term projections may, however, be possible under well-defined scenarios that specify the future state of critical epidemic drivers. Since December 2020, the U.S. COVID-19 Scenario Modeling Hub (SMH) has convened multiple modeling teams to make months ahead projections of SARS-CoV-2 burden, totaling nearly 1.8 million national and state-level projections. Here, we find SMH performance varied widely as a function of both scenario validity and model calibration. We show scenarios remained close to reality for 22 weeks on average before the arrival of unanticipated SARS-CoV-2 variants invalidated key assumptions. An ensemble of participating models that preserved variation between models (using the linear opinion pool method) was consistently more reliable than any single model in periods of valid scenario assumptions, while projection interval coverage was near target levels. SMH projections were used to guide pandemic response, illustrating the value of collaborative hubs for longer-term scenario projections.

Related publications

A multiscale modeling framework for Scenario Modeling: Characterizing the heterogeneity of the COVID-19 epidemic in the US
2024
Epidemics
+
Ensemble : Scenarios ensembling for communication and performance analysis
2024
Epidemics
+
Characterizing collective physical distancing in the U.S. during the first nine months of the COVID-19 pandemic
2022
PLOS Digital Health
+
Estimating the potential risk of transmission of arboviruses in the Americas and Europe: a modelling study
2024
The Lancet Planetary Health
+
Towards Inferring Network Properties from Epidemic Data
2023
Springer Link
+
Nonlinear bias toward complex contagion in uncertain transmission settings
2023
PNAS
+
The unequal effects of the health–economy trade-off during the COVID-19 pandemic
2023
Nature Human Behaviour
+
Deep Bayesian Active Learning for Accelerating Stochastic Simulation
2023
ACM Digital Library
+
MyNEU  •   Find Faculty & Staff  •    Find A-Z  •    Emergency Information
360 Huntington Ave., Boston, Massachusetts 02115  •  617.373.2000  •  TTY 617.373.3768
© 2023 Northeastern University