Identification of animal movement patterns using tri-axial magnetometry

Williams, Hannah J.; Holton, Mark D.; Shepard, Emily L. C.; Largey, Nicola; Norman, Brad; Ryan, Peter G.; Duriez, Olivier; Scantlebury, Michael; Quintana, Flavio; Magowan, Elizabeth A.

Publikation:
Identification of animal movement patterns using tri-axial magnetometry

Dateien

Williams_2-1hblmqudfrgu58.PDFGröße: 3.51 MBDownloads: 5

Datum

2017

Autor:innen

Williams, Hannah J.

Holton, Mark D.

Shepard, Emily L. C.

Largey, Nicola

Norman, Brad

Ryan, Peter G.

Duriez, Olivier

Scantlebury, Michael

Quintana, Flavio

Magowan, Elizabeth A.

URI (zitierfähiger Link)

http://nbn-resolving.de/urn:nbn:de:bsz:352-2-1hblmqudfrgu58

DOI (zitierfähiger Link)

https://doi.org/10.1186/s40462-017-0097-x

Open Access-Veröffentlichung

Open Access Gold

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Biologie: Publikationen

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Published

Erschienen in

Movement Ecology. BioMed Central. 2017, 5(1), 6. eISSN 2051-3933. Available under: doi: 10.1186/s40462-017-0097-x

Zusammenfassung

Background Accelerometers are powerful sensors in many bio-logging devices, and are increasingly allowing researchers to investigate the performance, behaviour, energy expenditure and even state, of free-living animals. Another sensor commonly used in animal-attached loggers is the magnetometer, which has been primarily used in dead-reckoning or inertial measurement tags, but little outside that. We examine the potential of magnetometers for helping elucidate the behaviour of animals in a manner analogous to, but very different from, accelerometers. The particular responses of magnetometers to movement means that there are instances when they can resolve behaviours that are not easily perceived using accelerometers.

Methods We calibrated the tri-axial magnetometer to rotations in each axis of movement and constructed 3-dimensional plots to inspect these stylised movements. Using the tri-axial data of Daily Diary tags, attached to individuals of number of animal species as they perform different behaviours, we used these 3-d plots to develop a framework with which tri-axial magnetometry data can be examined and introduce metrics that should help quantify movement and behaviour.

Results Tri-axial magnetometry data reveal patterns in movement at various scales of rotation that are not always evident in acceleration data. Some of these patterns may be obscure until visualised in 3D space as tri-axial spherical plots (m-spheres). A tag-fitted animal that rotates in heading while adopting a constant body attitude produces a ring of data around the pole of the m-sphere that we define as its Normal Operational Plane (NOP). Data that do not lie on this ring are created by postural rotations of the animal as it pitches and/or rolls. Consequently, stereotyped behaviours appear as specific trajectories on the sphere (m-prints), reflecting conserved sequences of postural changes (and/or angular velocities), which result from the precise relationship between body attitude and heading. This novel approach shows promise for helping researchers to identify and quantify behaviours in terms of animal body posture, including heading.

Conclusion Magnetometer-based techniques and metrics can enhance our capacity to identify and examine animal behaviour, either as a technique used alone, or one that is complementary to tri-axial accelerometry.

Fachgebiet (DDC)

570 Biowissenschaften, Biologie

Zitieren

ISO 690

WILLIAMS, Hannah J., Mark D. HOLTON, Emily L. C. SHEPARD, Nicola LARGEY, Brad NORMAN, Peter G. RYAN, Olivier DURIEZ, Michael SCANTLEBURY, Flavio QUINTANA, Elizabeth A. MAGOWAN, 2017. Identification of animal movement patterns using tri-axial magnetometry. In: Movement Ecology. BioMed Central. 2017, 5(1), 6. eISSN 2051-3933. Available under: doi: 10.1186/s40462-017-0097-x

BibTex

@article{Williams2017-12Ident-70065,
  year={2017},
  doi={10.1186/s40462-017-0097-x},
  title={Identification of animal movement patterns using tri-axial magnetometry},
  number={1},
  volume={5},
  journal={Movement Ecology},
  author={Williams, Hannah J. and Holton, Mark D. and Shepard, Emily L. C. and Largey, Nicola and Norman, Brad and Ryan, Peter G. and Duriez, Olivier and Scantlebury, Michael and Quintana, Flavio and Magowan, Elizabeth A.},
  note={Article Number: 6}
}

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    <dcterms:abstract>Background
Accelerometers are powerful sensors in many bio-logging devices, and are increasingly allowing researchers to investigate the performance, behaviour, energy expenditure and even state, of free-living animals. Another sensor commonly used in animal-attached loggers is the magnetometer, which has been primarily used in dead-reckoning or inertial measurement tags, but little outside that. We examine the potential of magnetometers for helping elucidate the behaviour of animals in a manner analogous to, but very different from, accelerometers. The particular responses of magnetometers to movement means that there are instances when they can resolve behaviours that are not easily perceived using accelerometers.

Methods
We calibrated the tri-axial magnetometer to rotations in each axis of movement and constructed 3-dimensional plots to inspect these stylised movements. Using the tri-axial data of Daily Diary tags, attached to individuals of number of animal species as they perform different behaviours, we used these 3-d plots to develop a framework with which tri-axial magnetometry data can be examined and introduce metrics that should help quantify movement and behaviour.

Results
Tri-axial magnetometry data reveal patterns in movement at various scales of rotation that are not always evident in acceleration data. Some of these patterns may be obscure until visualised in 3D space as tri-axial spherical plots (m-spheres). A tag-fitted animal that rotates in heading while adopting a constant body attitude produces a ring of data around the pole of the m-sphere that we define as its Normal Operational Plane (NOP). Data that do not lie on this ring are created by postural rotations of the animal as it pitches and/or rolls. Consequently, stereotyped behaviours appear as specific trajectories on the sphere (m-prints), reflecting conserved sequences of postural changes (and/or angular velocities), which result from the precise relationship between body attitude and heading. This novel approach shows promise for helping researchers to identify and quantify behaviours in terms of animal body posture, including heading.

Conclusion
Magnetometer-based techniques and metrics can enhance our capacity to identify and examine animal behaviour, either as a technique used alone, or one that is complementary to tri-axial accelerometry.</dcterms:abstract>
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Publikation: Identification of animal movement patterns using tri-axial magnetometry

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Publikation:
Identification of animal movement patterns using tri-axial magnetometry