This thesis concerns the statistical modelling of animal movement paths given observed GPS locations. With observations being in discrete time, mechanistic models of movement are often formulated as such. This popularity remains despite an inability to compare analyses through scale invariance and common problems handling irregularly timed observations. A natural solution is to formulate in continuous time, yet uptake of this has been slow, often excused by a difficulty in interpreting the ‘instantaneous’ parameters associated with a continuous-time model. The aim here was to bolster usage by developing a continuous-time model with interpretable parameters, similar to those of popular discrete-time models that use turning angles and step...
Recently, there has been much interest in describing the behaviour of animals by fitting various mov...
This article presents a new approach to modeling group animal movement in continuous time. The movem...
This thesis consists of two parts. First, I investigate the effect of using three partial differenti...
Mechanistic modelling of animal movement is often formulated in discrete time despite problems with ...
1. It is natural to regard most animal movement as a continuous-time process, generally observed at ...
Although animal locations gained via GPS, etc. are typically observed on a discrete time scale, move...
It is natural to regard most animal movement as a continuous-time process, generally observed at dis...
The study of animal movement is challenging because movement is a process modulated by many factors ...
In recent years, the field of movement ecology has been changed dramatically by the capacity to coll...
Movement is an essential process for almost all species in the animal kingdom. For example, survival...
Continuous‐time models have been developed to capture features of animal movement across temporal sc...
This article presents a new method for modelling collective movement in continuous time with behavio...
Animal movement is essential to our understanding of population dynamics, animal behavior, and the i...
Background: In recent years the field of movement ecology has been revolutionized by our ability to ...
Recently, there has been much interest in describing the behaviour of animals by fitting various mov...
This article presents a new approach to modeling group animal movement in continuous time. The movem...
This thesis consists of two parts. First, I investigate the effect of using three partial differenti...
Mechanistic modelling of animal movement is often formulated in discrete time despite problems with ...
1. It is natural to regard most animal movement as a continuous-time process, generally observed at ...
Although animal locations gained via GPS, etc. are typically observed on a discrete time scale, move...
It is natural to regard most animal movement as a continuous-time process, generally observed at dis...
The study of animal movement is challenging because movement is a process modulated by many factors ...
In recent years, the field of movement ecology has been changed dramatically by the capacity to coll...
Movement is an essential process for almost all species in the animal kingdom. For example, survival...
Continuous‐time models have been developed to capture features of animal movement across temporal sc...
This article presents a new method for modelling collective movement in continuous time with behavio...
Animal movement is essential to our understanding of population dynamics, animal behavior, and the i...
Background: In recent years the field of movement ecology has been revolutionized by our ability to ...
Recently, there has been much interest in describing the behaviour of animals by fitting various mov...
This article presents a new approach to modeling group animal movement in continuous time. The movem...
This thesis consists of two parts. First, I investigate the effect of using three partial differenti...