Dead-reckoning animal movements in R: a reappraisal using Gundog.Tracks

Author:

Gunner Richard M.ORCID,Holton Mark D.,Scantlebury Mike D.,van Schalkwyk O. Louis,English Holly M.,Williams Hannah J.,Hopkins Phil,Quintana Flavio,Gómez-Laich Agustina,Börger Luca,Redcliffe James,Yoda Ken,Yamamoto Takashi,Ferreira Sam,Govender Danny,Viljoen Pauli,Bruns Angela,Bell Stephen H.,Marks Nikki J.,Bennett Nigel C.,Tonini Mariano H.,Duarte Carlos M.,van Rooyen Martin C.,Bertelsen Mads F.,Tambling Craig J.,Wilson Rory P.

Abstract

Abstract Background Fine-scale data on animal position are increasingly enabling us to understand the details of animal movement ecology and dead-reckoning, a technique integrating motion sensor-derived information on heading and speed, can be used to reconstruct fine-scale movement paths at sub-second resolution, irrespective of the environment. On its own however, the dead-reckoning process is prone to cumulative errors, so that position estimates quickly become uncoupled from true location. Periodic ground-truthing with aligned location data (e.g., from global positioning technology) can correct for this drift between Verified Positions (VPs). We present step-by-step instructions for implementing Verified Position Correction (VPC) dead-reckoning in R using the tilt-compensated compass method, accompanied by the mathematical protocols underlying the code and improvements and extensions of this technique to reduce the trade-off between VPC rate and dead-reckoning accuracy. These protocols are all built into a user-friendly, fully annotated VPC dead-reckoning R function; Gundog.Tracks, with multi-functionality to reconstruct animal movement paths across terrestrial, aquatic, and aerial systems, provided within the Additional file 4 as well as online (GitHub). Results The Gundog.Tracks function is demonstrated on three contrasting model species (the African lion Panthera leo, the Magellanic penguin Spheniscus magellanicus, and the Imperial cormorant Leucocarbo atriceps) moving on land, in water and in air. We show the effect of uncorrected errors in speed estimations, heading inaccuracies and infrequent VPC rate and demonstrate how these issues can be addressed. Conclusions The function provided will allow anyone familiar with R to dead-reckon animal tracks readily and accurately, as the key complex issues are dealt with by Gundog.Tracks. This will help the community to consider and implement a valuable, but often overlooked method of reconstructing high-resolution animal movement paths across diverse species and systems without requiring a bespoke application.

Funder

Department for Economy Global Challenges Research

Agencia Nacional de Promoción Científica y Tecnológica

Japan Society for the Promotion of Science

Global Collaborative Research, King Abdullah University of Science and Technology

Publisher

Springer Science and Business Media LLC

Subject

Computer Networks and Communications,Instrumentation,Animal Science and Zoology,Signal Processing

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