Mohammed Bawatna, M Schiek, J Huisman, M Schlosser, R Heil and S Van Waasen
Forschungszentrum Julich GmbH, Germany
University of Duisburg-Essen, Germany
Scientific Tracks Abstracts: Int J Sens Netw Data Commun
Recently, many applications that require the Wireless Underground Sensors Network (WUSN) technology has emerged, such as automatic smart irrigation systems and monitoring underground water/gas pipelines. Creating a robust WUSN in a heterogeneous soil medium is one of the most difficult challenges that face both of the researchers and developers, due to the extreme path loss, reduced propagation velocity, reflection, scattering, noise and multipath fading. The main objective of this research is to monitor the landslide prone hillslopes in the hostile environments based on the technology of WUSNs and the ZEA-2 intelligent Network Operating Device (iNODE) system. Therefore, we will focus on the efficiency and the quality of the wireless underground channels at sub-GHz RF bands, in particular: the total attenuation due to reflection and propagation effects in the dry and wet soil. The developments in the physical and data link layers require the measuring of Power Delay Profile (PDP), and investigate the problem of fluctuation. Therefore, testbed measurements were taken in the Electromagnetic Compatibility (EMC) laboratory for further accuracy. Validations of the experimental channel measurements with the numerical estimation in Bogena et al., model show a good approximation. In addition, we include the numerical estimation for underground-to-underground channels, and the antennas gain effect. We provide these results that will present not only the guidelines for the re-design of more reliable and dependable matching filters, selected antennas and the required power to transmit but also to pave the ways for future studies in underground beam forming and antenna diversity.
Mohammed Bawatna received MSc in Electronic and Communication Engineering in 2015 at Al-Quds University in East-Jerusalem (Palestine). He has been pursuing his PhD at Central Institute of Engineering, Electronics and Analytics Institute (ZEA 2) of the Forschungszentrum Jülich GmbH in Germany since 2016. In cooperation with partners from IBG-3, Forschungszentrum Jülich GmbH a near real-time monitoring system to improve early warning of slope instability shall be developed. His primary research interests include Networking and Wireless Communication.
E-mail: [email protected]
International Journal of Sensor Networks and Data Communications received 253 citations as per Google Scholar report