Leveraging advances in data-driven deep learning methods for hybrid epidemic modeling.

Chen, Shi; Janies, Daniel; Paul, Rajib; Thill, Jean-Claude

Chen, Shi; Janies, Daniel; Paul, Rajib; Thill, Jean-Claude.

Afiliación

Chen S; Department of Public Health Sciences, University of North Carolina at Charlotte, Charlotte, NC, United States; School of Data Science, University of North Carolina at Charlotte, Charlotte, NC, United States. Electronic address: schen56@charlotte.edu.
Janies D; Department of Bioinformatics and Genomics, University of North Carolina at Charlotte, Charlotte, NC, United States.
Paul R; Department of Public Health Sciences, University of North Carolina at Charlotte, Charlotte, NC, United States; School of Data Science, University of North Carolina at Charlotte, Charlotte, NC, United States.
Thill JC; School of Data Science, University of North Carolina at Charlotte, Charlotte, NC, United States; Department of Geography and Earth Sciences, University of North Carolina at Charlotte, Charlotte, NC, United States.

Epidemics ; 48: 100782, 2024 Sep.

Article en En | MEDLINE | ID: mdl-38971085

ABSTRACT

ABSTRACT

Mathematical modeling of epidemic dynamics is crucial to understand its underlying mechanisms, quantify important parameters, and make predictions that facilitate more informed decision-making. There are three major types of models mechanistic models including the SEIR-type paradigm, alternative data-driven (DD) approaches, and hybrid models that combine mechanistic models with DD approaches. In this paper, we summarize our work in the COVID-19 Scenario Modeling Hub (SMH) for more than 12 rounds since early 2021 for informed decision support. We emphasize the importance of deep learning techniques for epidemic modeling via a flexible DD framework that substantially complements the mechanistic paradigm to evaluate various future epidemic scenarios. We start with a traditional curve-fitting approach to model cumulative COVID-19 based on the underlying SEIR-type mechanisms. Hospitalizations and deaths are modeled as binomial processes of cases and hospitalization, respectively. We further formulate two types of deep learning models based on multivariate long short term memory (LSTM) to address the challenges of more traditional DD models. The first LSTM is structurally similar to the curve fitting approach and assumes that hospitalizations and deaths are binomial processes of cases. Instead of using a predefined exponential curve, LSTM relies on the underlying data to identify the most appropriate functions, and is capable of capturing both long-term and short-term epidemic behaviors. We then relax the assumption of dependent inputs among cases, hospitalizations, and death. Another type of LSTM that handles all input time series as parallel signals, the independent multivariate LSTM, is developed. Independent multivariate LSTM can incorporate a wide range of data sources beyond traditional case-based epidemiological surveillance. The DD framework unleashes its potential in big data era with previously neglected heterogeneous surveillance data sources, such as syndromic, environment, genomic, serologic, infoveillance, and mobility data. DD approaches, especially LSTM, complement and integrate with the mechanistic modeling paradigm, provide a feasible alternative approach to model today's complex socio-epidemiological systems, and further leverage our ability to explore different scenarios for more informed decision-making during health emergencies.

Asunto(s)

COVID-19; Aprendizaje Profundo; SARS-CoV-2; Humanos; COVID-19/epidemiología; Epidemias/estadística & datos numéricos; Modelos Epidemiológicos

Palabras clave

Data-driven; Deep learning; Epidemic modeling; Hybrid model; Multivariate data

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Aprendizaje Profundo / SARS-CoV-2 / COVID-19 Límite: Humans Idioma: En Revista: Epidemics Año: 2024 Tipo del documento: Article Pais de publicación: Países Bajos

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