Radio propagation path loss models for 5G cellular networks in the 28 GHZ and 38 GHZ millimeter-wave bands

IEEE Communications Magazine

Volumn 52, Issue 9, 2014, Pages 78-86

  Sulyman, Ahmed ^a   Nassar, Almuthanna ^a   Samimi, Mathew ^b   Maccartney, George ^b   Rappaport, Theodore ^b   Alsanie, Abdulhameed ^a  

^a KING SAUD UNIVERSITY   (Saudi Arabia)

^b POLYTECHNIC UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CELLULAR NETWORK; MILLIMETER-WAVE BAND; PROPAGATION PATHS;

EID: 84907192287     PISSN: 01636804     EISSN: None     Source Type: Journal    
DOI: 10.1109/MCOM.2014.6894456     Document Type: Article

References (14)

1. Z. Pi and F. Khan, "An Introduction to Millimeter-Wave Mobile Broadband Systems," IEEE Commun. Mag., vol. 49, no. 6, June 2011, pp. 101-07
2. T. S. Rappaport et al., "Millimeter Wave Mobile Communications for 5G Cellular: It Will Work!," IEEE Access, vol. 1, May 2013, pp. 335-49
3. S. Rangan, T. S. Rappaport, and E. Erkip, "Millimeter-Wave Cellular Wireless Networks: Potentials and Challenges," Proc. IEEE, vol. 102, no. 3, Mar. 2014, pp. 366-86
4. T. S. Rappaport et al., "Broadband Millimeter-Wave Propagation Measurements and Models Using Adaptive- Beam Antennas for Outdoor Urban Cellular Communications," IEEE Trans. Antennas and Propagation, vol. 61, no. 4, Apr. 2013, pp. 1850-59
5. F. Khan, Z. Pi, and S. Rajagopal, "Millimeter-Wave Mobile Broadband with Large Scale Spatial Processing for 5G Mobile Communication," Proc. IEEE 50th Annual Allerton Conf., Oct. 2012, pp. 1517-23
6. T. S. Rappaport, J. N. Murdock, and F. Gutierrez, "State of the Art in 60 GHz Integrated Circuits and Systems for Wireless Communications," Proc. IEEE, vol. 99, no. 8, Aug. 2011, pp. 1390-436
7. S. Akoum, O. El Ayach, and R. W. Heath, "Coverage and Capacity in mmWave Cellular Systems," Proc. IEEE Conf. 46th Asilomar Conf., Nov. 2012, pp. 688-92
8. J. N. Murdock et al., "A 38 GHz Cellular Outage Study for an Urban Campus Environment," Proc. IEEE Wireless Commun. Net. Conf., Apr. 2012, pp. 3085-90
9. Masaharu Hata, "Empirical Formula for Propagation Loss in Land Mobile Radio Services," IEEE Trans. Vehic. Tech., vol. VT-29, no. 3, Aug. 1980, pp. 317-25
10. P. D. Katev, "Propagation Models for Wimax at 3.5 GHz," IEEE-Elektro 2012 Conf., 2012, pp. 61-65
11. T. S. Rappaport, Wireless Communications: Principles and Practice, 2nd ed., Prentice-Hall, 2002
12. A. T. Nassar, A. I. Sulyman, and A. Alsanie, "Achievable RF Coverage and System Capacity Using Millimeter Wave Cellular Technologies in 5G Networks," Proc. IEEE-CCECE 2014, Toronto, Canada, May 2014
13. G. R. MacCartney, M. K. Samimi, and T. S. Rappaport, "Omnidirectional Path Loss Models in New York City at 28 GHz and 73 GHz," IEEE Personal, Indoor, and Mobile Radio Communications, Sept. 2-5, 2014
14. TEMS CellPlanner (TCP) tool: http://www.mentum.com, accessed Aug. 2013