Modelling larval movement data from individual bioassays

We consider modelling the movements of larvae using individual bioassays in which data are collected at a high‐frequency rate of five observations per second. The aim is to characterize the behaviour of the larvae when exposed to attractant and repellent compounds. Mixtures of diffusion processes, a...

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Veröffentlicht in:	Biometrical journal 2015-05, Vol.57 (3), p.485-501
Hauptverfasser:	McLellan, Chris R., Worton, Bruce J., Deasy, William, Birch, A. Nicholas E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Behavior, Animal - physiology Bioassays Biological Assay - methods Brassica Computer Simulation Diffusion Diptera - physiology Hidden Markov models Image Interpretation, Computer-Assisted - methods Larva - physiology Markov analysis Mixtures Model comparison Models, Biological Models, Statistical Movement - physiology Reproducibility of Results Sensitivity and Specificity
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container_title	Biometrical journal
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creator	McLellan, Chris R. Worton, Bruce J. Deasy, William Birch, A. Nicholas E.
description	We consider modelling the movements of larvae using individual bioassays in which data are collected at a high‐frequency rate of five observations per second. The aim is to characterize the behaviour of the larvae when exposed to attractant and repellent compounds. Mixtures of diffusion processes, as well as Hidden Markov models, are proposed as models of larval movement. These models account for directed and localized movements, and successfully distinguish between the behaviour of larvae exposed to attractant and repellent compounds. A simulation study illustrates the advantage of using a Hidden Markov model rather than a simpler mixture model. Practical aspects of model estimation and inference are considered on extensive data collected in a study of novel approaches for the management of cabbage root fly.
doi_str_mv	10.1002/bimj.201400035
format	Article
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subjects	Animals Behavior, Animal - physiology Bioassays Biological Assay - methods Brassica Computer Simulation Diffusion Diptera - physiology Hidden Markov models Image Interpretation, Computer-Assisted - methods Larva - physiology Markov analysis Mixtures Model comparison Models, Biological Models, Statistical Movement - physiology Reproducibility of Results Sensitivity and Specificity
title	Modelling larval movement data from individual bioassays
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