Superresolution measurement of non-specular wave scattering from building surface roughness
暂无分享,去创建一个
This paper presents a superresolution measurement of non-specular scattering from 3D building surface roughness. The superresolution method was applied as an approach to handle signal parameters (DOA, TOA) of the individual incoming waves reflected from building surface roughness. In order to comprehend in detail the microscopic mechanisms of scattering, signal parameters are to be incorporated into the geometrical ray tracing. The results show that the multiple paths can be detected from many scatterers, such as ground, window glass, window frame, bricks surface, as well as directly from the transmitter. Most of the scattered waves arrive closely from specular directions. The calculation of glass and bricks reflection coefficient can be performed based on data measurement.
[1] Takeshi Manabe,et al. Measurements of reflection characteristics and refractive indices of interior construction materials in millimeter-wave bands , 1995, 1995 IEEE 45th Vehicular Technology Conference. Countdown to the Wireless Twenty-First Century.
[2] Jun-ichi Takada,et al. Spatio-temporal channel characterization in a suburban non line-of-sight microcellular environment , 2002, IEEE J. Sel. Areas Commun..
[3] T. Rappaport,et al. A comparison of theoretical and empirical reflection coefficients for typical exterior wall surfaces in a mobile radio environment , 1996 .