Rayleigh Step-Selection Functions
December 28, 2023
This project aimed to find connections between step-selection functions (SSFs) and partial differential equation models of animal movement and, in doing so, improve the flexibility of SSFs. Please see the associated manuscript cited above for further details.
Citation Information
| Publication Year | 2023 |
|---|---|
| Title | Rayleigh Step-Selection Functions |
| Authors | Joseph M Eisaguirre |
| Product Type | Software Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Alaska Science Center |
Related
Rayleigh step-selection functions and connections to continuous-time mechanistic movement models Rayleigh step-selection functions and connections to continuous-time mechanistic movement models
Background The process known as ecological diffusion emerges from a first principles view of animal movement, but ecological diffusion and other partial differential equation models can be difficult to fit to data. Step-selection functions (SSFs), on the other hand, have emerged as powerful practical tools for ecologists studying the movement and habitat selection of animals.Methods SSFs...
Authors
Joseph Michael Eisaguirre, Perry J. Williams, Mevin B. Hooten
Related
Rayleigh step-selection functions and connections to continuous-time mechanistic movement models Rayleigh step-selection functions and connections to continuous-time mechanistic movement models
Background The process known as ecological diffusion emerges from a first principles view of animal movement, but ecological diffusion and other partial differential equation models can be difficult to fit to data. Step-selection functions (SSFs), on the other hand, have emerged as powerful practical tools for ecologists studying the movement and habitat selection of animals.Methods SSFs...
Authors
Joseph Michael Eisaguirre, Perry J. Williams, Mevin B. Hooten