Small Unmanned Aerial Vehicle System for Wildlife Radio Collar Tracking

Author

Dos Santos, Gilberto Antonio Marcon ; Barnes, Zachary ; Lo, Eric ; Ritoper, Bryan ; Nishizaki, Lauren ; Tejeda, Xavier ; Ke, Alex ; Han Lin ; Schurgers, Curt ; Lin, Albert ; Kastner, Ryan

Author_Institution

Univ. of California, San Diego, La Jolla, CA, USA

fYear

2014

fDate

28-30 Oct. 2014

Firstpage

761

Lastpage

766

Abstract

This paper describes a low cost system for tracking wildlife that is equipped with radio collars. Currently, researchers have to physically go into the field with a directional antenna to try to pinpoint the VHF (very high frequency) signal originating from a wildlife tracking collar. Depending on the terrain, it could take an entire day to locate a single animal. To vastly improve upon this traditional approach, the system proposed here utilizes a small fixed-wing aircraft drone with a simple radio on-board, flying an automated mission. Received signal strength is recorded, and used to create a heat map that shows the collar´s position. A prototype of this system was built using off-the-shelf hardware and custom signal processing algorithms. Initial field tests confirm the systems capabilities and its promise for wildlife tracking.

Keywords

aircraft; autonomous aerial vehicles; directive antennas; radio tracking; signal processing; VHF signal; custom signal processing algorithms; directional antenna; small fixed-wing aircraft drone; small unmanned aerial vehicle system; wildlife radio collar tracking; Finite element analysis; Global Positioning System; Hardware; Receivers; Signal to noise ratio; Wildlife; Digital Signal Processing; Radio Tracking; Small Unmanned Aerial Vehicles; Software-Defined Radio; Wildlife Telemetry;

fLanguage

English

Publisher

ieee

Conference_Titel

Mobile Ad Hoc and Sensor Systems (MASS), 2014 IEEE 11th International Conference on

Conference_Location

Philadelphia, PA

Print_ISBN

978-1-4799-6035-4

Type

conf

DOI

10.1109/MASS.2014.48

Filename

7035779