In this paper, the possibility of applying Kirchhoff 's scalar approximation model for determining the backscattering coefficient from rough surfaces is investigated. Surfaces of dielectric and metallic materials, which have low roughness are considered. Based on the roughness parameters and electrical properties of these materials, the backscattering coefficient is modelled as a function of
the incident angle of electromagnetic radiation used in laser scanning. It was represented that the type of scattering and the range of backscattering radiation angles, in the case of seemingly smooth surfaces, vary significantly when the roughness parameters change.
TY - CONF
AU - Martinenko, Anastasija
AU - Brajović, Ljiljana
AU - Malović, Miodrag
PY - 2022
UR - https://grafar.grf.bg.ac.rs/handle/123456789/2680
AB - In this paper, the possibility of applying Kirchhoff 's scalar approximation model for determining the backscattering coefficient from rough surfaces is investigated. Surfaces of dielectric and metallic materials, which have low roughness are considered. Based on the roughness parameters and electrical properties of these materials, the backscattering coefficient is modelled as a function of
the incident angle of electromagnetic radiation used in laser scanning. It was represented that the type of scattering and the range of backscattering radiation angles, in the case of seemingly smooth surfaces, vary significantly when the roughness parameters change.
PB - University of Banja Luka, Faculty of Architecture, Civil Engineering and Geodesy
C3 - STEPGRAD2022
T1 - Influence of material surface roughness on backscattering in laser scanning
DO - 10.7251/STP2215487M
ER -
@conference{
author = "Martinenko, Anastasija and Brajović, Ljiljana and Malović, Miodrag",
year = "2022",
abstract = "In this paper, the possibility of applying Kirchhoff 's scalar approximation model for determining the backscattering coefficient from rough surfaces is investigated. Surfaces of dielectric and metallic materials, which have low roughness are considered. Based on the roughness parameters and electrical properties of these materials, the backscattering coefficient is modelled as a function of
the incident angle of electromagnetic radiation used in laser scanning. It was represented that the type of scattering and the range of backscattering radiation angles, in the case of seemingly smooth surfaces, vary significantly when the roughness parameters change.",
publisher = "University of Banja Luka, Faculty of Architecture, Civil Engineering and Geodesy",
journal = "STEPGRAD2022",
title = "Influence of material surface roughness on backscattering in laser scanning",
doi = "10.7251/STP2215487M"
}
Martinenko, A., Brajović, L.,& Malović, M.. (2022). Influence of material surface roughness on backscattering in laser scanning. in STEPGRAD2022
University of Banja Luka, Faculty of Architecture, Civil Engineering and Geodesy..
https://doi.org/10.7251/STP2215487M
Martinenko A, Brajović L, Malović M. Influence of material surface roughness on backscattering in laser scanning. in STEPGRAD2022. 2022;.
doi:10.7251/STP2215487M .
Martinenko, Anastasija, Brajović, Ljiljana, Malović, Miodrag, "Influence of material surface roughness on backscattering in laser scanning" in STEPGRAD2022 (2022),
https://doi.org/10.7251/STP2215487M . .
