A non-AI preliminary algorithm for the prediction and detection of highly pathogenic African swine fever in pigs using health monitoring collars
Rachel Layton, David Beggs, Peter Mansell, Andrew Fisher, Daniel Layton, Brint Gardner, David Williams, Kelly Stanger

TL;DR
This paper introduces a non-AI algorithm using health collars to detect African swine fever in pigs early, improving animal monitoring and welfare.
Contribution
A novel non-AI algorithm for early detection of African swine fever using health monitoring collar data in pigs.
Findings
Collar monitors detected decreased pulse rate and increased variability post-challenge with African swine fever virus.
Abnormal readings increased before and during clinical disease onset in infected pigs.
The algorithm detected disease in 100% of infected pigs and predicted onset in 67%.
Abstract
Collar monitoring devices are used in animals for the minimally invasive collection of physiological data, using software and algorithms to provide general health trends. There is potential to utilise the raw data collected from these devices to improve animal monitoring strategies and intervention points in animal disease studies. We aimed to develop an algorithm for the early detection of highly pathogenic African swine fever disease in research pigs (Sus scrofa), using data collected via modified PetPaceTM health monitoring collars. Pigs from two other studies (n = 6 per study, total n = 12) were opportunistically available and fitted with collar monitors for the daily collection of pulse rate, respiratory rate and heart rate variability, prior to and after experimental challenge with highly pathogenic African swine fever virus. Collar monitors detected a decreased mean, and…
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Taxonomy
TopicsAnimal Disease Management and Epidemiology · Microbial infections and disease research · Food Supply Chain Traceability
