Abstract
An optimal filter for Poisson observations is developed as a variant of the traditional Kalman filter. Poisson distributions are characteristic of infectious diseases, which model the number of patients recorded as presenting each day to a health care system. We develop both a linear and a nonlinear (extended) filter. The methods are applied to a case study of neonatal sepsis and postinfectious hydrocephalus in Africa, using parameters estimated from publicly available data. Our approach is applicable to a broad range of disease dynamics, including both noncommunicable and the inherent nonlinearities of communicable infectious diseases and epidemics such as from COVID-19.
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CITATION STYLE
Ebeigbe, D., Berry, T., Schiff, S. J., & Sauer, T. (2020). Poisson Kalman filter for disease surveillance. Physical Review Research, 2(4). https://doi.org/10.1103/PhysRevResearch.2.043028
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