The effect of sampling rate on observed statistics in a correlated random walk

The effect of sampling rate on observed statistics in a correlated random walk

Tracking the movement of individual cells or animals can provide important information about their motile behaviour, with key examples including migrating birds, foraging mammals and bacterial chemotaxis. In many experimental protocols, observations are recorded with a fixed sampling interval and th...

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Bibliographic Details
Published in:Journal of the Royal Society interface Vol. 10; no. 85; p. 20130273
Main Authors: Rosser, G., Fletcher, A. G., Maini, P. K., Baker, R. E.
Format: Journal Article
Language:English
Published: England The Royal Society 06-08-2013
Subjects:
Animal Migration
Animals
Bacterial Motility
Bacterial Physiological Phenomena
Birds
Correlated Random Walk
Mammals
Models, Biological
Models, Statistical
Movement
Sampling Rate
Tracking
bacterial motility
sampling rate
correlated random walk
tracking
animal migration
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Summary:Tracking the movement of individual cells or animals can provide important information about their motile behaviour, with key examples including migrating birds, foraging mammals and bacterial chemotaxis. In many experimental protocols, observations are recorded with a fixed sampling interval and the continuous underlying motion is approximated as a series of discrete steps. The size of the sampling interval significantly affects the tracking measurements, the statistics computed from observed trajectories, and the inferences drawn. Despite the widespread use of tracking data to investigate motile behaviour, many open questions remain about these effects. We use a correlated random walk model to study the variation with sampling interval of two key quantities of interest: apparent speed and angle change. Two variants of the model are considered, in which reorientations occur instantaneously and with a stationary pause, respectively. We employ stochastic simulations to study the effect of sampling on the distributions of apparent speeds and angle changes, and present novel mathematical analysis in the case of rapid sampling. Our investigation elucidates the complex nature of sampling effects for sampling intervals ranging over many orders of magnitude. Results show that inclusion of a stationary phase significantly alters the observed distributions of both quantities.
Bibliography:ark:/67375/V84-J674RHJ4-X
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ArticleID:rsif20130273
href:rsif20130273.pdf
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1742-5689
1742-5662
DOI:10.1098/rsif.2013.0273