GeoAI for Public Health

Andreas Züfle, Taylor Anderson, Hamdi Kavak, Dieter Pfoser, Joon Seok Kim, Amira Roess

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Abstract

Infectious disease spread within the human population can be conceptualized as a complex system composed of individuals who interact and transmit viruses through spatio-temporal processes that manifest across and between scales. The complexity of this system ultimately means that the spread of infectious diseases is difficult to understand, predict, and respond to effectively. Research interest in GeoAI for public health has been fueled by the increased availability of rich data sources such as human mobility data, OpenStreetMap data, contact tracing data, symptomatic online surveys, retail and commerce data, genomics data, and more. This data availability has resulted in a wide variety of data-driven solutions for infectious disease spread prediction which show potential in enhancing our forecasting capabilities. This chapter (1) motivates the need for AI-based solutions in public health by showing the heterogeneity of human behavior related to health, (2) provides a brief survey of current state-of-the-art solutions using AI for infectious disease spread prediction, (3) describes a use-case of using large-scale human mobility data to inform AI models for the prediction of infectious disease spread in a city, and (4) provides future research directions and ideas.

Original languageEnglish
Title of host publicationHandbook of Geospatial Artificial Intelligence
PublisherCRC Press
Pages305-329
Number of pages25
ISBN (Electronic)9781003814924
ISBN (Print)9781032311661
DOIs
StatePublished - Jan 1 2023

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