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Informing pandemic response in the face of uncertainty: An evaluation of the U.S. COVID-19 Scenario Modeling Hub

DOI

This repository contains data and code to reproduce results in

Howerton, Emily, Lucie Contamin, Luke C. Mullany, Michelle Qin, Nicholas G. Reich, Samantha Bents, Rebecca K. Borchering, et al. 2023. “Evaluation of the US COVID-19 Scenario Modeling Hub for Informing Pandemic Response under Uncertainty.” Nature Communications 14 (1): 7260. https://doi.org/10.1038/s41467-023-42680-x.

Requirements

Some functions used in this analysis are included in the package SMHEvaluationUtils, which can be installed from GitHub using

remotes::install_github("eahowerton/SMHEvaluationUtils")

Repository structure

This repository contains four main folders:

  1. \code: all code to perform analyses and generate figures
  2. \data-raw: all data used for analysis, including scenarios modeled, individual model and ensemble projections, ground truth data, and information about US states projected.
  3. \data-output: all data generated through this analysis, including null projections, projection coverage and WIS scores, etc.
  4. \figures: all figures created for main text and supplementary material

Analysis

Evaluation of SMH COVID-19 projections can be executed in the following steps, corresponding to the subfolders within \code. There are also three utility files stored in \code that are used throughout all steps, including read_data_files.R, which contains a function to load data; prepare_projections.R, which contains code to load truth data and load/format projections; and plot_setup.R, which contains objects used across all plots (e.g., labels, color schemes, etc.).

  1. setup scenario plausibility: assess the plausibility of SMH scenarios for Rounds 1-16. This includes:

    • define_variant_takeover.R: find the dates when each variant (Alpha, Delta, and Omicron) reached 50% nationally.
    • round_specific_timing.R: define the timeline for each scenario (including date scenarios were released, data cutoff date, start date of projections, etc.)
    • vacc_scenario_plaus.R: download vaccine uptake data from US CDC, and use this to compare realized vaccine uptake to scenario specified vaccine uptake
    • waning_scenario_plaus.R: use published estimates of rates of waning immunity to assess the validity of waning scenario specifications
  2. generate null projections: generate three alternative comparator (or null) models. We compare performance of SMH projections and these models.

    • get_null_proj_FH.R: generate 4-week ahead comparator model by downloading forecasts from 4-week ahead ensemble model from the U.S. COVID-19 Forecast Hub
    • get_null_proj_GAM.R: generate trend continuation comparator model by fitting a generalized additive model to historical data
    • get_null_proj_naive.R: generate naive comparator model by downloading forecasts from baseline model from the U.S. COVID-19 Forecast Hub
  3. classify trends: classify trends in projected and observed incidence (i.e., as increasing, flat, or decreasing)

    • setup_incdec_analysis.R: load projections and observations for trend classification analysis
    • classify_incdec.R: classify observations and projections as increasing, decreasing or flat
  4. score projections: calculate coverage and weighted interval score (WIS) for projections from individual models, ensemble and comparator models

    • calculate_scores.R: calculate coverage and WIS for all projections; saves results in data folder
    • calculate_skillscore.R: calculate relative WIS (or "skill score") for individual models, ensembles, and scenarios (plus bootstrapping)
    • scoring_functions.R: functions to implement WIS and skill score calculations
  5. generate main figures: create 5 figures in main text

    • figure_1.R
    • figure_2.R
    • figure_3.R
    • figure_4.R
    • figure_5.R
  6. generate supplemental figures: create supplementary figures

    • plot_nulls.R: plot null projections
    • plot_coverage.R: plot additional coverage results
    • plot_WIS.R: plot additional WIS results
    • plot_incdec.R: plot additional results from trend classification analysis (classifying trends as increasing, flat, or decreasing)
    • incdec_sensitivity_analyses.R: perform sensitivity analyses on assumptions in trend classification analysis and plot results
    • plot_round_overview.R: summarize results across scores for each round and target
    • plot_MOBS_waning.R: plot example projections with two different waning assumptions (Figure S60)
  7. calculate values used in main text:

    • summarize_exclusions.R: summarize the projections that were excluded from analyses
    • values_for_text.R: calculate values that are included in main text

Data license and reuse

We are grateful to the teams who have generated these scenarios. The groups have made their public data available under different terms and licenses. You will find the licenses (when provided) within the model-specific folders in the data-processed directory. Please consult these licenses before using these data to ensure that you follow the terms under which these data were released.

All source code that is specific to the overall project is available under an open-source MIT license. We note that this license does NOT cover model code from the various teams or model scenario data (available under specified licenses as described above).

Additional information

For more information about the U.S. Scenario Modeling Hub, please visit https://github.com/midas-network/covid19-scenario-modeling-hub and https://covid19scenariomodelinghub.org.

Funding and support

LC, JL, JK, JE, and HH were supported by NIGMS 5U24GM132013. EH, KS and RB were supported by NSF RAPID awards DEB-2028301, DEB-2037885, DEB-2126278 and DEB-2220903. EH was also supported by the Eberly College of Science Barbara McClintock Science Achievement Graduate Scholarship in Biology at the Pennsylvania State University. MC, JTD, KM, XX, APyP, and AV were supported by HHS/CDC 6U01IP001137, HHS/CDC 5U01IP0001137 and the Cooperative Agreement no. NU38OT000297 from the Council of State and Territorial Epidemiologists (CSTE). PP, SV, AA, BL, BK, JO, BH, HM, AW, MM, JC, SH, PB, DM acknowledge support from NIH Grant R01GM109718, VDH Grant PV-BII VDH COVID-19 Modeling Program VDH-21-501-0135, NSF Grant No. OAC-1916805, NSF Expeditions in Computing Grant CCF-1918656, NSF RAPID CCF-2142997, NSF RAPID OAC-2027541, US Centers for Disease Control and Prevention 75D30119C05935, DTRA subcontract/ARA S-D00189-15-TO-01-UVA, and UVA strategic funds. Model computation was supported by NSF XSEDE TG-BIO210084 and UVA; and used resources, services, and support from the COVID-19 HPC Consortium (https://covid19-hpc-consortium.org). AB, KB, ML, SF and LM were supported by CSTE NU38OT000297, CDC Supplement U01IP001136-Suppl, and NIH Supplement R01AI151176-Suppl. ER, JI, MM, and JS were supported by TRACS/NIH grant UL1TR002489; CSTE and CDC cooperative agreement no. NU38OT000297. Funding for the JHU-IDD team was provided by the National Science Foundation (2127976; ST, CPS, JK, ECL, AH), Centers for Disease Control and Prevention (200-2016-91781; ST, CPS, JK, AH, JL, JCL, SLL, CM, S-mJ), US Department of Health and Human Services/Department of Homeland Security (ST, CPS, JK, ECL, AH, JL), California Department of Public Health (ST, CPS, JK, ECL, JL), Johns Hopkins University (ST, CPS, JK, ECL, JL), Amazon Web Services (ST, CPS, JK, ECL, AH, JL, JCL), National Institutes of Health (R01GM140564; JL, 5R01AI102939; JCL), and the Swiss National Science Foundation (200021-172578; JCL). Disclaimer. The findings and conclusions in this report are those of the authors and do not necessarily represent the views of the Centers for Disease Control and Prevention. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. This activity was reviewed by CDC and was conducted consistent with applicable federal law and CDC policy.$^§$

$^§$See e.g., 45 C.F.R. part 46, 21 C.F.R. part 56; 42 U.S.C. §241(d); 5 U.S.C. §552a; 44 U.S.C. §3501 et seq.

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