Title :
Conceptual design for fully autonomous aerial and ground system for precision agriculture
Author :
Joordens, Matthew ; Brodie, Tom A. ; Oberli, Thomas P. ; Swinsburg, Phil
Author_Institution :
Sch. of Eng., Deakin Univ. Geelong, Geelong, VIC, Australia
Abstract :
There are few regulatory restrictions involving the use of fully autonomous unmanned aerial systems in unpopulated, farming areas of Australia. The combination of a fully autonomous aerial and ground systems would provide efficient and cost effective retrieval of soil and vegetation data for use in precision agriculture. The aerial system will survey the site and collect spectral imagery to analyse plant density, stress and nutrition. The ground sensors will collect soil moisture content readings throughout the site. The data from both systems will be collated at a central base station. The base station will also provide housing and interface with the aerial system.
Keywords :
autonomous aerial vehicles; irrigation; moisture; precision engineering; robot vision; soil; surveying; vegetation mapping; wireless sensor networks; Australia; central base station; conceptual design; fully autonomous aerial-and-ground system; fully-autonomous unmanned aerial systems; ground sensors; plant density analysis; plant nutrition analysis; plant stress analysis; precision agriculture; site survey; soil data retrieval; soil moisture content reading collection; spectral imagery collection; unpopulated farming areas; vegetation data retrieval; wireless sensor networks; Agriculture; Base stations; Cameras; Sensors; Soil; Systems engineering and theory; Wireless sensor networks; Precision agriculture; autonomous; unmanned aerial system; wireless sensor network;
Conference_Titel :
System of Systems Engineering Conference (SoSE), 2015 10th
Conference_Location :
San Antonio, TX
DOI :
10.1109/SYSOSE.2015.7151983
