Title :
Wireless underground sensor network design for irrigation control: Simulation of RFID deployment
Author :
Parameswaran, Vinod ; Hong Zhou ; Zhongwei Zhang
Abstract :
Wireless Underground Sensor Networks (WUSN) using Electro-Magnetic (EM) wave communication has to address the challenges posed by the underground environment. An alternative to EM wave communication for WUSN is Magnetic Induction (MI). This research aims to study the possibility of using MI communication for WUSN designed for irrigation control in horticulture. As a case study, a typical Pecan farm in Australia has been considered. The case study would focus on the application of accurate soil moisture reporting and regulation for the farm, under all climatic conditions. This application addresses the issue of water-shortage confronting irrigation in Australia. This paper presents the results obtained from simulation of RFID deployment as part of WUSN design, and is a sequel to an earlier published work as part of an ongoing project.
Keywords :
electromagnetic induction; electromagnetic wave propagation; horticulture; irrigation; moisture; radiofrequency identification; sensor placement; soil; underground equipment; wireless sensor networks; EM wave communication; MI communication; RFID deployment; WUSN; electromagnetic wave communication; farm; horticulture; irrigation control; magnetic induction; soil moisture; water shortage confronting irrigation; wireless underground sensor network design; Coils; Equations; Mathematical model; Sensors; Soil moisture; Vegetation; Wireless sensor networks; Aboveground-to-Underground Communication (AG2UG); Active Reader Passive Tag (ARPT); Coil Displacement; Horticulture; Magnetic Induction (MI); Power Transfer Efficiency; RFID Design; Soil Moisture; Surface Sinks and Relays; Underground-to-Aboveground Communication (UG2AG); Underground-to-Underground Communication (UG2UG); Wireless Undeground Sensor Networks (WUSN);
Conference_Titel :
Sensing Technology (ICST), 2013 Seventh International Conference on
Conference_Location :
Wellington
Print_ISBN :
978-1-4673-5220-8
DOI :
10.1109/ICSensT.2013.6727770
