References
- Akyildiz IF, Stuntebeck EP. Wireless underground sensor networks: research challenges. Ad Hoc Netw. 2006;4(6):669–686.
- Li L, Vuran MC, Akyildiz IF. Characteristics of underground channel for wireless underground sensor networks. Proceedings of the IFIP Mediterranean Ad Hoc Networking Workshop; 2007 June 12–15; Corfu, Greece.
- Yu XQ, Zhang ZL, Han WT. Evaluation of communication in wireless underground sensor networks. 3rd International Conference on Advances in Energy, Environment and Chemical Engineering; 2017 May 26–28; Chengdu, China.
- Li TY, Shen J, Sui F, et al. Influence of soil temperature on electromagnetic wave. J Heilongjiang August First Land Reclam Univ. 1993;1:36–38.
- Silva AR, Vuran MC. Communication with aboveground devices in wireless underground sensor networks: An empirical study. 2010 IEEE International Conference on Communications; 2010 May 23–27; Cape Town, South Africa.
- Silva AR, Vuran MC. Empirical evaluation of wireless underground-to-underground communication in wireless underground sensor networks. 5th IEEE International Conference on Distributed Computing in Sensor Systems; 2009 June 8-10; CA, USA.
- Yu X. Study on the propagation of electromagnetic waves in wireless underground sensor networks in soil media [master’s thesis]. Northwest A&F University; 2013.
- Yu X, Han W, Wu P, et al. Test of signal propagation characteristic of wireless underground sensor networks with different soil frequencies. J Agric Mach. 2015;4(218):252–260.
- Dong N. Research on wireless communication characteristic in near ground soil [master’s thesis]. Beijing University of Posts and Telecommunications; 2013.
- Wu X, Pan W. Side wave propagation in electromagnetic wave propagation logging. Chin J Geophys. 1992;1:93–95.
- Ritsema CJ, Kuipers H, Kleiboer L, et al. A new wireless underground network system for continuous monitoring of soil water contents. Water Resour Res. 2009;45(4):195–211.
- Valente A, Morais R, Serodio C, et al. A ZigBee sensor element for distributed monitoring of soil parameters in environmental monitoring. SENSORS 2007 IEEE; 2007 Oct 28-31; Atlanta, GA, USA.
- Stuber GL. Principles of mobile communication. Kluwer: Kluwer Academic Publishers; 2001.
- Vuran MC, Akyildiz IF. Channel model and analysis for wireless underground sensor networks in soil medium. Phys Commun. 2010;3(4):245–254.
- Zhang J. Absorption and scattering attenuation of inhomogeneous media [master’s thesis]. Institute of Geophysics China Earthquake Administration; 2013.
- Weldon TP, Rathore AY.1999. Wave propagation model and simulations for landmine detection. Tech Rep. University of N. Carolina at Charlotte.
- Stuntebeck E P, Pompili D, Melodia T. Wireless underground sensor networks using commodity terrestrial motes. IEEE Workshop on Wireless Mesh Networks; 2006 Sept. 25–28; Reston, VA, USA.
- Zemmour H, Baudoin G, Diet A. Soil effects on the underground to aboveground communication link in ultra wideband wireless underground sensor networks. IEEE Antennas Wirel Propag Lett. 2017;16:218–221.
- Nie M, Zhao X, Yang G, et al. Influence of blizzard on free space quantum communication channel and its performance analysis. Laser J. 2017;3:5–10.
- Tian W, Ren X. Transmission characteristics of electromagnetic wave through soil surface covered by snow. Sci Technol Rev. 2013;31(9):28–29.