How does TROPICAL WEATHER impact RADIO SIGNAL STRENGTH?
Best insight from top research papers
Tropical weather has a significant impact on radio signal strength. The presence of seasonal hydrometeors, such as rain, in the atmosphere can cause degradation in the propagation of terahertz (THz) signals . Rain attenuation, in particular, has a pronounced effect on THz signal propagation, with higher rain rates leading to increased attenuation levels . Additionally, temperature and relative humidity can affect the signal strength of UHF signals, with temperature showing a positive correlation with measured path loss . In the North Central region of Nigeria, signal strength values were found to be higher during the wet season compared to the dry season . The attenuation of THz signals in foggy atmospheres in the Indian subcontinent has also been studied, with the signal attenuation found to be significant at around 2.0 THz frequency . Overall, tropical weather conditions, including rain, humidity, and fog, can lead to attenuation and degradation of radio signals.
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| Papers (4) | Insight |
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| The paper states that tropical climate, including rain attenuation, can cause interruption of electromagnetic signals and weaken radio signals. However, it does not specifically mention the impact of tropical weather on radio signal strength. | |
| The paper discusses the impact of tropical weather on radio signal strength, specifically in the context of terahertz (THz) signals. It analyzes the attenuation and dispersion characteristics of THz signals in fog-laden atmosphere in the tropical climate zone. However, it does not provide a direct answer to how tropical weather impacts radio signal strength. | |
| The paper states that in the North Central region of Nigeria, radio signal strength is higher during the wet season compared to the dry season. | |
| The paper discusses the impact of tropical weather, specifically tropical rain-fall, on the attenuation and dispersion characteristics of terahertz waves. It does not directly mention the impact on radio signal strength. |
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