2021
DOI: 10.1186/s40462-021-00242-0
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A hierarchical machine learning framework for the analysis of large scale animal movement data

Abstract: Background In recent years the field of movement ecology has been revolutionized by our ability to collect high-accuracy, fine scale telemetry data from individual animals and groups. This growth in our data collection capacity has led to the development of statistical techniques that integrate telemetry data with random walk models to infer key parameters of the movement dynamics. While much progress has been made in the use of these models, several challenges remain. Notably robust and scalab… Show more

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Cited by 15 publications
(22 citation statements)
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“…Although GPS locations in themselves cannot capture many important aspects of animal behavior that might affect vegetation structure, machine learning can be used to infer behavioral states such as foraging or dispersing based on observed distributions of step lengths and turning angles, and where available, body orientation and acceleration. (Nathan et al2012;Torney et al 2021;Yu et al 2021). Hidden Markov Models, for example, estimate unobserved behavioral states using common metrics from GPS or accelerometer data (McClintock et al 2020;Klarevas-Irby et al 2021).…”
Section: Using Telemetry To Quantify Animal Behaviormentioning
confidence: 99%
“…Although GPS locations in themselves cannot capture many important aspects of animal behavior that might affect vegetation structure, machine learning can be used to infer behavioral states such as foraging or dispersing based on observed distributions of step lengths and turning angles, and where available, body orientation and acceleration. (Nathan et al2012;Torney et al 2021;Yu et al 2021). Hidden Markov Models, for example, estimate unobserved behavioral states using common metrics from GPS or accelerometer data (McClintock et al 2020;Klarevas-Irby et al 2021).…”
Section: Using Telemetry To Quantify Animal Behaviormentioning
confidence: 99%
“…Examining the landscape level drivers of movement has typically employed parametric functions of environmental covariates via hidden Markov models (Langrock et al, 2012 ) or step selection functions (Avgar et al, 2016 ; Thurfjell et al, 2014 ). Recently, non‐parametric approaches have been proposed that allow continuous and time‐varying movement parameters to be incorporated into models (Michelot et al, 2021 ; Torney et al, 2021 ). An important next step in the development of these models is to identify the underlying spatially varying factors that influence animal movement.…”
Section: Introductionmentioning
confidence: 99%
“…We employ a velocity‐based movement model which is linked to an underlying latent spatial field via the introduction of a novel non‐stationary covariance matrix. While previous works (Hooten & Johnson, 2017 ; Torney et al, 2021 ) have also applied hierarchical GPs to animal movement, the novelty of our approach is that by linking the velocity‐based movement model to latent spatial fields we are able to reveal the persistent, spatially varying movement characteristics of mobile animal populations based on positional data collected from multiple individuals. To enable efficient inference of data sets consisting of potentially millions of data points, we employ Bayesian variational learning (Blei et al, 2017 ) a novel approach in this context that replaces traditional computationally expensive sampling‐based inference with fast stochastic optimisation.…”
Section: Introductionmentioning
confidence: 99%
“…The behaviour of an animal can be fundamentally divided into active and passive (Halle & Stenseth, 2000), with the former requiring a much higher energy expenditure (Rowcliffe et al, 2014). Quantifying the distribution of activity periods throughout the day provides important insights into species’ responses to their environment, foraging strategies, bioenergetics and adaptations (Aschoff, 1966; Torney et al, 2021). Moreover, knowledge of the partitioning of sympatric species along the temporal niche axis can yield insights into the mechanisms that facilitate stable coexistence (Nakabayashi et al, 2021).…”
Section: Introductionmentioning
confidence: 99%