Reflected Stochastic Differential Equation Models for Constrained Animal Movement

Ephraim M. Hanks; Devin S. Johnson; Mevin B. Hooten

doi:10.1007/s13253-017-0291-8

Reflected Stochastic Differential Equation Models for Constrained Animal Movement

Ephraim M. Hanks
, Devin S. Johnson
, Mevin B. Hooten

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Movement for many animal species is constrained in space by barriers such as rivers, shorelines, or impassable cliffs. We develop an approach for modeling animal movement constrained in space by considering a class of constrained stochastic processes, reflected stochastic differential equations. Our approach generalizes existing methods for modeling unconstrained animal movement. We present methods for simulation and inference based on augmenting the constrained movement path with a latent unconstrained path and illustrate this augmentation with a simulation example and an analysis of telemetry data from a Steller sea lion (Eumatopias jubatus) in southeast Alaska.

Original language	English (US)
Pages (from-to)	353-372
Number of pages	20
Journal	Journal of Agricultural, Biological, and Environmental Statistics
Volume	22
Issue number	3
DOIs	https://doi.org/10.1007/s13253-017-0291-8
State	Published - Sep 1 2017

All Science Journal Classification (ASJC) codes

Statistics and Probability
General Environmental Science
Agricultural and Biological Sciences (miscellaneous)
General Agricultural and Biological Sciences
Statistics, Probability and Uncertainty
Applied Mathematics

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10.1007/s13253-017-0291-8

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abstract = "Movement for many animal species is constrained in space by barriers such as rivers, shorelines, or impassable cliffs. We develop an approach for modeling animal movement constrained in space by considering a class of constrained stochastic processes, reflected stochastic differential equations. Our approach generalizes existing methods for modeling unconstrained animal movement. We present methods for simulation and inference based on augmenting the constrained movement path with a latent unconstrained path and illustrate this augmentation with a simulation example and an analysis of telemetry data from a Steller sea lion (Eumatopias jubatus) in southeast Alaska.",

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AU - Hanks, Ephraim M.

AU - Johnson, Devin S.

AU - Hooten, Mevin B.

PY - 2017/9/1

Y1 - 2017/9/1

N2 - Movement for many animal species is constrained in space by barriers such as rivers, shorelines, or impassable cliffs. We develop an approach for modeling animal movement constrained in space by considering a class of constrained stochastic processes, reflected stochastic differential equations. Our approach generalizes existing methods for modeling unconstrained animal movement. We present methods for simulation and inference based on augmenting the constrained movement path with a latent unconstrained path and illustrate this augmentation with a simulation example and an analysis of telemetry data from a Steller sea lion (Eumatopias jubatus) in southeast Alaska.

AB - Movement for many animal species is constrained in space by barriers such as rivers, shorelines, or impassable cliffs. We develop an approach for modeling animal movement constrained in space by considering a class of constrained stochastic processes, reflected stochastic differential equations. Our approach generalizes existing methods for modeling unconstrained animal movement. We present methods for simulation and inference based on augmenting the constrained movement path with a latent unconstrained path and illustrate this augmentation with a simulation example and an analysis of telemetry data from a Steller sea lion (Eumatopias jubatus) in southeast Alaska.

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ER -

Reflected Stochastic Differential Equation Models for Constrained Animal Movement

Abstract

All Science Journal Classification (ASJC) codes

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