Add to ORKGThis contribution presents a new physically based methodology for the prediction of rain attenuation experienced by a microwave terrestrial link. The meteorological environment for the site of interest is reproduced through a set of synthetic rain fields generated by the MultiEXCELL model starting from the local rainfall statistics. The fade levels are calculated numerically by simulating the interaction of a given link geometry with the precipitation field. Eventually, the performance of the proposed methodology is evaluated against the reference data included in the ITU-R DBSG3 database of line-of-sight radio link measurements. When compared to the method currently adopted by the ITU-R in recommendation P.530–13, the proposed methodology ...
Abstract — In this paper, a semi-empirical method for the prediction of rain attenuation in slant pa...
Radio waves propagate through the earth's atmosphere will be attenuated due to presence of the atmos...
Rain as a weather phenomenon is one of the things that greatly affects propagation of radio waves. A...
This contribution presents a new physically based methodology for the prediction of rain attenuation...
This contribution presents a novel physically based approach to modeling the rain attenuation affect...
This contribution investigates the path reduction factor (PF) on terrestrial links, a typical elemen...
This contribution investigates the path reduction factor (PF) on terrestrial links, a typical elemen...
This contribution investigates the path reduction factor (PF) on terrestrial links, a typical elemen...
Microwave radio links, operating in the millimeter wave region, must account for the effects of rain...
The results of rain attenuation on terrestrial microwave links in a tropical climate has been report...
In today's rapidly expanding communications industry, there is an ever-increasing demand for gr...
The radio waves propagates through the earth atmosphere will be attenuated due to presence of the at...
An improved approach of predicting rain attenuation cumulative distribution (CD) over terrestrial mi...
Abstract — In this paper, a semi-empirical method for the prediction of rain attenuation in slant pa...
Radio waves propagate through the earth's atmosphere will be attenuated due to presence of the atmos...
Rain as a weather phenomenon is one of the things that greatly affects propagation of radio waves. A...
This contribution presents a new physically based methodology for the prediction of rain attenuation...
This contribution presents a novel physically based approach to modeling the rain attenuation affect...
This contribution investigates the path reduction factor (PF) on terrestrial links, a typical elemen...
This contribution investigates the path reduction factor (PF) on terrestrial links, a typical elemen...
This contribution investigates the path reduction factor (PF) on terrestrial links, a typical elemen...
Microwave radio links, operating in the millimeter wave region, must account for the effects of rain...
The results of rain attenuation on terrestrial microwave links in a tropical climate has been report...
In today's rapidly expanding communications industry, there is an ever-increasing demand for gr...
The radio waves propagates through the earth atmosphere will be attenuated due to presence of the at...
An improved approach of predicting rain attenuation cumulative distribution (CD) over terrestrial mi...
Abstract — In this paper, a semi-empirical method for the prediction of rain attenuation in slant pa...
Radio waves propagate through the earth's atmosphere will be attenuated due to presence of the atmos...
Rain as a weather phenomenon is one of the things that greatly affects propagation of radio waves. A...