Analysing the Effects of Propagation Impairments using ITU-R Model

---

Abstract

The primary goal of this work is to record the effects of atmospheric signal deterioration on the wireless communication signals that are often used in daily life. Numerous research has been carried out to support and address the attenuation influence of temperature, humidity, acetone, rain, CO, CO2 and Ammonia various wavelength channels. Transmission Impurities cause phenomena such as scattering and diffraction at lower frequencies. The impacts of the atmosphere are calculated using properties that are comparable to those created. In this project a NODE MCU (Microcontroller Unit) system to measure atmospheric impedances in propagation impairments. Experimental results showed that the attenuation effect caused by rain began at specific frequencies. The NODE MCU was the apparatus we employed to test atmospheric impedances in propagation impairments.

---

Keywords

Atmosphere, Propagation Impairments, NODE MCU, Temperature, Humidity, Acetone, Rain, CO, CO2 and Ammonia