Applications of machine learning in animal behaviour studies

Applications of machine learning in animal behaviour studies

In many areas of animal behaviour research, improvements in our ability to collect large and detailed data sets are outstripping our ability to analyse them. These diverse, complex and often high-dimensional data sets exhibit nonlinear dependencies and unknown interactions across multiple variables,...

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Bibliographic Details
Published in:Animal behaviour 2017-02, Vol.124, p.203-220
Main Authors: Valletta, John Joseph, Torney, Colin, Kings, Michael, Thornton, Alex, Madden, Joah
Format: Article
Language:eng
Subjects:
animal behaviour data
classification
clustering
dimensionality reduction
machine learning
predictive modelling
random forests
social networks
supervised learning
unsupervised learning
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Summary:In many areas of animal behaviour research, improvements in our ability to collect large and detailed data sets are outstripping our ability to analyse them. These diverse, complex and often high-dimensional data sets exhibit nonlinear dependencies and unknown interactions across multiple variables, and may fail to conform to the assumptions of many classical statistical methods. The field of machine learning provides methodologies that are ideally suited to the task of extracting knowledge from these data. In this review, we aim to introduce animal behaviourists unfamiliar with machine learning (ML) to the promise of these techniques for the analysis of complex behavioural data. We start by describing the rationale behind ML and review a number of animal behaviour studies where ML has been successfully deployed. The ML framework is then introduced by presenting several unsupervised and supervised learning methods. Following this overview, we illustrate key ML approaches by developing data analytical pipelines for three different case studies that exemplify the types of behavioural and ecological questions ML can address. The first uses a large number of spectral and morphological characteristics that describe the appearance of pheasant, Phasianus colchicus, eggs to assign them to putative clutches. The second takes a continuous data stream of feeder visits from PIT (passive integrated transponder)-tagged jackdaws, Corvus monedula, and extracts foraging events from it, which permits the construction of social networks. Our final example uses aerial images to train a classifier that detects the presence of wildebeest, Connochaetes taurinus, to count individuals in a population. With the advent of cheaper sensing and tracking technologies an unprecedented amount of data on animal behaviour is becoming available. We believe that ML will play a central role in translating these data into scientific knowledge and become a useful addition to the animal behaviourist's analytical toolkit. •Machine learning (ML) offers a hypothesis-free approach to modelling complex data.•We present a review of ML techniques pertinent to the study of animal behaviour.•Key ML approaches are illustrated using three different case studies.•ML offers a useful addition to the animal behaviourist's analytical toolbox.
ISSN:0003-3472
1095-8282