On the Importance of Diffuse Scattering Model Parameterization in Indoor Wireless Channels at mm-Wave Frequencies

In this paper, the impact of considering diffuse multipath components at mm-wave frequencies as well as the significance of selecting appropriate diffuse scattering model parameters is shown. Two different diffuse models, namely, the Lambertian model and the directive model, have been parameterized for several materials typically present in indoor environments. These models are formulated to embed the diffuse scattering phenomenon easily into ray tracing tools. The estimation of the parameters has been performed by comparing measurements and simulations using the models. Once the best fitting parameters have been estimated, they are included in the diffuse components simulation section of a general ray tracing tool. This tool has been used to simulate the power delay profile at 60 GHz in an indoor scenario, including single and double bounce diffuse components. Thanks to the estimated model parameters, the wireless channel at the 60-GHz band can be analyzed, including the diffuse scattering phenomenon, without the need for any previous measurement or simulation. Thus, the channel analysis with ray tracing tools, including dense components, becomes easier, faster, and more reliable.

[1]  Martine Lienard,et al.  Deterministic and Experimental Indoor mmW Channel Modeling , 2014, IEEE Antennas and Wireless Propagation Letters.

[2]  Chin-Sean Sum,et al.  IEEE 802.15.3c: the first IEEE wireless standard for data rates over 1 Gb/s , 2011, IEEE Communications Magazine.

[3]  Takeshi Manabe,et al.  Effects of Antenna Directivity and Polarization on Indoor Multipath Propagation Characteristics at 60 GHz , 1996, IEEE J. Sel. Areas Commun..

[4]  V. Degli-Esposti,et al.  A diffuse scattering model for urban propagation prediction , 2001 .

[5]  E. Vitucci,et al.  Measurement and Modelling of Scattering From Buildings , 2007, IEEE Transactions on Antennas and Propagation.

[6]  M. Kyro,et al.  Empirical characterization of scattering pattern of built surfaces at mm-wave frequencies , 2013, 2013 7th European Conference on Antennas and Propagation (EuCAP).

[7]  Vittorio Degli-Esposti,et al.  Ray-Tracing-Based mm-Wave Beamforming Assessment , 2014, IEEE Access.

[8]  Maria-Teresa Martinez-Ingles,et al.  Using tuned diffuse scattering parameters in ray tracing channel modeling , 2015, 2015 9th European Conference on Antennas and Propagation (EuCAP).

[9]  Katsuyuki Haneda,et al.  Sixty gigahertz indoor radio wave propagation prediction method based on full scattering model , 2014 .

[10]  P. Beckmann,et al.  The scattering of electromagnetic waves from rough surfaces , 1963 .

[11]  Ernst Bonek,et al.  3-D double-directional radio channel characterization for urban macrocellular applications , 2003 .

[12]  Vittorio Degli-Esposti,et al.  Experimental parameterization of a diffuse scattering model at 60 GHz , 2015, 2015 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC).

[13]  Vittorio Degli-Esposti,et al.  Semi-deterministic modeling of diffuse scattering component based on propagation graph theory , 2014, 2014 IEEE 25th Annual International Symposium on Personal, Indoor, and Mobile Radio Communication (PIMRC).