INVESTIGADORES
GOMEZ LAICH Agustina Marta
artículos
Título:
A spherical-plot solution to linking acceleration metrics with animal performance, state, behaviour and lifestyle
Autor/es:
RORY P. WILSON; MARK D. HOLTON; JAMES S. WALKER; EMILY L.C.SHEPARD; D. MIKE SCANTLEBURY; VIANNEY L. WILSON; GWENDOLINE I. WILSON; BRENDA TYSSE; MIKE GRAVENOR; JAVIER CIANCIO; MELITTA A. MCNARRY; KELLY A. MACKINTOSH; LAMA QASEM ; FRANK ROSELL; PATRICIA M. GRAF; FLAVIO QUINTANA; AGUSTINA GÓMEZ LAICH; JUAN EMILIO SALA; CHRISTINA C. MULVENNA; NICOLA J. MARKS; MARK W. JONES
Revista:
Movement Ecology
Editorial:
BioMed
Referencias:
Año: 2016
ISSN:
2051-3933
Resumen:
Background: We are increasingly using recording devices with multiple sensors operating at high frequencies to produce large volumes of data which are problematic to interpret. A particularly challenging example comes from studies on animals and humans where researchers use animal-attached accelerometers on moving subjects toattempt to quantify behaviour, energy expenditure and condition.Results: The approach taken effectively concatinated three complex lines of acceleration into one visualization that highlighted patterns that were otherwise not obvious. The summation of data points within sphere facets andpresentation into histograms on the sphere surface effectively dealt with data occlusion. Further frequency binning of data within facets and representation of these bins as discs on spines radiating from the sphere allowed patternsin dynamic body accelerations (DBA) associated with different postures to become obvious.Method: We examine the extent to which novel, gravity-based spherical plots can produce revealing visualizations to incorporate the complexity of such multidimensional acceleration data using a suite of different acceleration-derivedmetrics with a view to highlighting patterns that are not obvious using current approaches. The basis for the visualisation involved three-dimensional plots of the smoothed acceleration values, which then occupied points on the surface of asphere. This sphere was divided into facets and point density within each facet expressed as a histogram. Within each facet-dependent histogram, data were also grouped into frequency bins of any desirable parameters, most particularlydynamic body acceleration (DBA), which were then presented as discs on a central spine radiating from the facet. Greater radial distances from the sphere surface indicated greater DBA values while greater disc diameter indicated largernumbers of data points with that particular value.Conclusions: We indicate how this approach links behaviour and proxies for energetics and can inform our identification and understanding of movement-related processes, highlighting subtle differences in movement and its associatedenergetics. This approach has ramifications that should expand to areas as disparate as disease identification, lifestyle, sports practice and wild animal ecology.