Improving Millimeter-Wave Channel Models for Suburban Environments with Site-Specific Geometric Features

Authors

  • Yaguang Zhang School of Electrical and Computer Engineering Purdue University, West Lafayette, IN 47907, USA
  • Soumya Jyoti Department of Electrical and Computer Engineering Texas A&M University, College Station, TX 77843, USA
  • Christopher R. Anderson Department of Electrical and Computer Engineering United States Naval Academy, Annapolis, MD 21402, USA
  • Nicolo Michelusi School of Electrical and Computer Engineering Purdue University, West Lafayette, IN 47907, USA
  • David J. Love School of Electrical and Computer Engineering Purdue University, West Lafayette, IN 47907, USA
  • Alex Sprintson Department of Electrical and Computer Engineering Texas A&M University, College Station, TX 77843, USA
  • James V. Krogmeier School of Electrical and Computer Engineering Purdue University, West Lafayette, IN 47907, USA

Keywords:

Channel modeling, millimeter wave, site-specific geometric features, suburban environments

Abstract

This paper proposes simple procedures to improve traditional statistical millimeter-wave channel models for suburban environments with site-specific geometric features. Blockages by buildings and vegetation were considered and existing models were verified with measurement data for an emulated microcell deployment. The results indicate that a holistic, network-level approach for channel modeling will help deal with the high dependence of millimeter waves on site-specific features.

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References

T. S. Rappaport, et al., “Millimeter wave mobile communications for 5G cellular: It will work!,” IEEE Access, vol. 1, pp. 335-349, 2013.

G. R. MacCartney and T. S. Rappaport, “73 GHz millimeter wave propagation measurements for outdoor urban mobile and backhaul communications in New York City,” in IEEE International Conference on Communications (ICC), 2014, IEEE, pp. 4862-4867, 2014.

T. S. Rappaport, G. R. MacCartney, S. Sun, H. Yan, and S. Deng, “Small-scale, local area, and transitional millimeter wave propagation for 5G communications,” IEEE Transactions on Antennas and Propagation, vol. 65, no. 12, pp. 6474-6490, 2017.

Y. Zhang, et al., “28-GHz channel measurements and modeling for suburban environments,” in IEEE International Conference on Communications (ICC), 2018, IEEE, pp. 1-6, 2018.

ITU, “Propagation data and prediction methods for the planning of shortrange outdoor radiocommunication systems and radio local area networks in the frequency range 300 MHz and 100 GHz,” Tech. Rep., June 2017. [Online]. Available: https://www. itu.int/rec/R-REC-P.1411-9-201706-I/en

H. M. Rahim, C. Y. Leow, and T. A. Rahman, “Millimeter wave propagation through foliage: Comparison of models,” in 2015 IEEE 12th Malaysia International Conference on Communications (MICC), pp. 236-240, Nov. 2015.

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Published

2021-07-14

How to Cite

[1]
Yaguang Zhang, “Improving Millimeter-Wave Channel Models for Suburban Environments with Site-Specific Geometric Features”, ACES Journal, vol. 34, no. 02, pp. 375–378, Jul. 2021.

Issue

2019: Vol 34 Iss 2

Section

General Submission