1. Building parameter analysis with S-UTD-CH model in multiple diffraction [Çoklu Kirinimlarda EKDZ Modeliyle Bina Parametrelerinin De?işiminin Analizi]
- Author
-
Tabakcio?lu M.B., Ayberkin D., and Bayburt University
- Subjects
Signal processing ,Balloons ,Multiple diffraction ,Electromagnetic wave propagation ,Ultra-high frequency ,Electromagnetic waves ,S-UTD-CH model ,Circular waveguides ,Ray tracing ,Impedance wedge ,Wave diffraction ,Ray-tracing technique ,Relative permittivity ,Coverage prediction ,Electromagnetic wave polarization ,Wave diffractions ,Building parameters ,ray tracing technique - Abstract
2015 23rd Signal Processing and Communications Applications Conference, SIU 2015 Electromagnetic wave propagation models are used in radio planning tool and coverage prediction. These models are based on ray tracing technique or numerical. Slope UTD with convex hull model is a model which has less computation time, higher accuracy of prediction and based on ray tracing technique. S-UTD-CH model is used in multiple diffraction due to that this model gives more accurate results in less computation time. Obstacles can be modelled as knife edge, wedge or cylinder in ultra-high frequencies. Inner angle, structure type and relative permittivity constant and conductivity of obstacle and polarization type of electromagnetic wave change the relative path loss at the receiver. In the study, how building parameter changes the relative path loss is discussed. © 2015 IEEE.
- Published
- 2015