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ITU Journal: ICT Discoveries, Vol. 2(1), December 2019
[16] H2020 ThoR Deliverable D2.2; Overall [20] J. Eckhardt, T. Doeker, S. Rey, T.Kürner,
System Design, www.thorproject.eu “Measurements in a Real Data Centre at 300
GHz and Recent Results”, Proc. EuCAP’19,
[17] S. Priebe, M. Kannicht, M. Jacob and T. Kürner,
“Ultra Broadband Indoor Channel Krakow, Poland, Apr. 2019
Measurements and Calibrated Ray Tracing [21] D. He, K. Guan, et al., “Stochastic Channel
Propagation Modeling at THz Frequencies,” J. Modeling for Kiosk Applications in the
Commun. and Netw, Vol. 15, No. 6, Terahertz Band”. IEEE Trans. THz Sci.
pp. 547-558., Dec. 2013. Technol., Vol. 7, No. 5, pp. 502-513, 2017.
[18] C. Jansen, S. Priebe, C. Möller, M. Jacob, H. [22] A. Zajic and P. Juyal, "Modeling of THz chip-
Dierke, M. Koch, T. Kürner, “Diffuse Scattering to-chip wireless channels in metal
from Rough Surfaces in THz Communication enclosures," Proc. EuCAP’18, London, UK, Apr.
Channels”. IEEE Trans. THz Sci. Technol., 2018.
Vol. 1, No. 2, pp. 462-472, 2011.
[23] A. Fricke, M. Achir, P. Le Bars, T. Kürner, “A
[19] J. Kokkoniemi, V. Petrov, D. Moltchanov, J. Model for the Reflection of Terahertz Signals
Lehtomaeki, Y. Koucheryavy and M. Juntti, from Printed Circuit Board Surfaces”, Int. J.
"Wideband Terahertz Band Reflection and Micrw. Wireless Technol., Vol. 10, No. 2, pp.
Diffuse Scattering Measurements for Beyond 179-186, Mar. 2018.
5G Indoor Wireless Networks," Proc. EW’16,
Oulu, Finland, May 2016.
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