Understanding the spatial dynamics of animal movement is an essential component of maintaining ecological connectivity, conserving key habitats, and mitigating the impacts of anthropogenic disturbance. Altered movement and migratory patterns are often an early warning sign of the effects of environmental disturbance, and a precursor to population declines. Here, we present a hierarchical Bayesian framework based on Gaussian processes for analysing the spatial characteristics of animal movement. At the heart of our approach is a novel covariance kernel that links the spatially varying parameters of a continuous-time velocity model with GPS locations from multiple individuals. We demonstrate the effectiveness of our framework by first applyin...
As humans modify, destroy and create habitats, there is a pressing need for understanding the effect...
The analysis of animal movement within different landscapes may increase our understanding of how la...
1. Animals of many species demonstrate movement behaviour in which decisions are based on a variety ...
Understanding the spatial dynamics of animal movement is an essential component of maintaining ecolo...
Understanding the spatial dynamics of animal movement is an essential component of maintaining ecolo...
Animal movement has been the focus on much theoretical and empirical work in ecology over the last 2...
Background: In recent years the field of movement ecology has been revolutionized by our ability to ...
<p>Advances in satellite-based data collection techniques have served as a catalyst for new statisti...
International audienceThe analysis of animal movement within different landscapes may increase our u...
Background: The Brownian bridge movement model (BBMM) provides a biologically sound approximation of...
It is natural to regard most animal movement as a continuous-time process, generally observed at dis...
Detailed observation of the movement of individual animals offers the potential to understand spatia...
1. Understanding how animal movements change across space and time is a fundamental question in ecol...
We describe a flexible class of stochastic models that aim to capture key features of realistic patt...
It is natural to regard most animal movement as a continuous-time process, generally observed at dis...
As humans modify, destroy and create habitats, there is a pressing need for understanding the effect...
The analysis of animal movement within different landscapes may increase our understanding of how la...
1. Animals of many species demonstrate movement behaviour in which decisions are based on a variety ...
Understanding the spatial dynamics of animal movement is an essential component of maintaining ecolo...
Understanding the spatial dynamics of animal movement is an essential component of maintaining ecolo...
Animal movement has been the focus on much theoretical and empirical work in ecology over the last 2...
Background: In recent years the field of movement ecology has been revolutionized by our ability to ...
<p>Advances in satellite-based data collection techniques have served as a catalyst for new statisti...
International audienceThe analysis of animal movement within different landscapes may increase our u...
Background: The Brownian bridge movement model (BBMM) provides a biologically sound approximation of...
It is natural to regard most animal movement as a continuous-time process, generally observed at dis...
Detailed observation of the movement of individual animals offers the potential to understand spatia...
1. Understanding how animal movements change across space and time is a fundamental question in ecol...
We describe a flexible class of stochastic models that aim to capture key features of realistic patt...
It is natural to regard most animal movement as a continuous-time process, generally observed at dis...
As humans modify, destroy and create habitats, there is a pressing need for understanding the effect...
The analysis of animal movement within different landscapes may increase our understanding of how la...
1. Animals of many species demonstrate movement behaviour in which decisions are based on a variety ...