Open AccessUsing Bayesian Networks to Assist Decision-Making in Syndromic Surveillance
Author(s) -
Felipe J. ColónGonzález,
Iain Lake,
Gary Barker,
Gillian Smith,
Alex J. Elliot,
Roger Morbey
Publication year - 2016
Publication title -
online journal of public health informatics
Language(s) - English
Resource type - Journals
ISSN - 1947-2579
DOI - 10.5210/ojphi.v8i1.6415
Subject(s) - computer science , bayesian network , alarm , replicate , bayesian probability , machine learning , data mining , data science , artificial intelligence , engineering , statistics , mathematics , aerospace engineering
The decision as to whether an alarm (excess activity in syndromic surveillance indicators) leads to an alert (a public health response) is often based on expert knowledge. Expert-based approaches may produce faster results than automated approaches but could be difficult to replicate. Moreover, the effectiveness of a syndromic surveillance system could be compromised in the absence of such experts. Bayesian network structural learning provides a mechanism to identify and represent relations between syndromic indicators, and between these indicators and alerts. Their outputs have the potential to assist decision-makers determine more effectively which alarms are most likely to lead to alerts
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