MA Samad, FD Diba, DY Choi - Remote sensing, 2021 - mdpi.com
Satellite communication is a promising transmission technique to implement 5G and beyond networks. Attenuation due to rain begins at a frequency of 10 GHz in temperate regions …
In this paper, real measurements were conducted to investigate the impact of rain on the propagation of millimeter waves at 26 GHz. The measurements were accomplished using a …
The high frequencies of millimeter wave (mm-wave) bands have been recognized for the fifth generation (5G) and beyond wireless communication networks. However, the radio …
P Mohan, KK Patil - Int. J. Intell. Eng. Syst, 2018 - inass.org
One of the most experimentally difficult problem in the world is weather forecasting, which is a basic mechanism in meteorology. Especially in data mining system, there are different …
Millimeter waves (mm‐waves) within frequency bands of 10 to 86 GHz will be used for both microwave and access link fifth‐generation (5G) systems. Thus, it is very important to …
SH Fang, YC Cheng, YR Chien - IEEE Sensors Journal, 2018 - ieeexplore.ieee.org
The received signal strengths (RSSs) of wireless radios are susceptible to environmental dynamics, such as weather conditions, which can severely degrade the performance of RSS …
The explosive daily dependence on wireless communication services necessitates the research to establish ultrawideband communication systems with ultrahigh bit rate …
Millimetre wave band is a solid contender to be utilized for the future 5G wireless systems deployment. Rain-induced attenuation is a major disadvantage at these frequencies. This …
This paper focuses on study of attenuation of microwave propagation at Ka-band frequencies due to precipitation over an Indian Tropical station, Thiruvananthapuram (8.5° …