Controlling Within-Field Sheep Movement Using Virtual Fencing

Marini, Danila; Llewellyn, Rick; Belson, Sue; Lee, Caroline

doi:10.3390/ani8030031

Author(s)

Marini, Danila

Llewellyn, Rick

Belson, Sue

Lee, Caroline

Publication Date

2018

Abstract

Virtual fencing has the potential to increase the implementation of spatial grazing management and targeted grazing without the use of conventional fencing. Current virtual fencing that uses an algorithm that is patented through CSIRO involves a collar that emits a warning audio when an animal approaches a set boundary. If the animal continues walking towards the boundary, an electric stimulus is applied. Using manually operated collars to implement a similar virtual fence, a small group of sheep were restricted from accessing a section of a small paddock. Sheep were successfully kept out of the excluded zone of the paddock. By the third day, the sheep were able to avoid receiving an electrical stimulus by turning away from the boundary when the warning audio was applied. When the sheep were allowed full access to the paddock again, then they were quick to use the once restricted area.

Citation

Animals, 8(3), p. 1-11

ISSN

2076-2615

Link

https://hdl.handle.net/1959.11/23034

Language

en

Publisher

MDPI AG

Title

Controlling Within-Field Sheep Movement Using Virtual Fencing

Type of document

Journal Article

Entity Type

Publication

Author(s)	Marini, Danila Llewellyn, Rick Belson, Sue Lee, Caroline
Publication Date	2018
Abstract	Virtual fencing has the potential to increase the implementation of spatial grazing management and targeted grazing without the use of conventional fencing. Current virtual fencing that uses an algorithm that is patented through CSIRO involves a collar that emits a warning audio when an animal approaches a set boundary. If the animal continues walking towards the boundary, an electric stimulus is applied. Using manually operated collars to implement a similar virtual fence, a small group of sheep were restricted from accessing a section of a small paddock. Sheep were successfully kept out of the excluded zone of the paddock. By the third day, the sheep were able to avoid receiving an electrical stimulus by turning away from the boundary when the warning audio was applied. When the sheep were allowed full access to the paddock again, then they were quick to use the once restricted area.
Citation	Animals, 8(3), p. 1-11
ISSN	2076-2615
Link	https://hdl.handle.net/1959.11/23034
Language	en
Publisher	MDPI AG
Title	Controlling Within-Field Sheep Movement Using Virtual Fencing
Type of document	Journal Article
Entity Type	Publication

Controlling Within-Field Sheep Movement Using Virtual Fencing

Files: