Analisis Dampak Kondisi Cuaca Ekstrem Terhadap Stabilitas Kinerja Jaringan Nirkabel

Axel Putra Alnis; Raja Akbar Sanjaini; Mahmudin Mahmudin

doi:10.61132/merkurius.v3i4.961

Authors

Axel Putra Alnis Universitas Islam Syekh Yusuf
Raja Akbar Sanjaini Universitas Islam Syekh Yusuf
Mahmudin Mahmudin Universitas Islam Syekh Yusuf

DOI:

https://doi.org/10.61132/merkurius.v3i4.961

Keywords:

connection stability, extreme weather, network performance, wireless network

Abstract

Wireless networks have become an important part of modern communication infrastructure. However, their performance is often influenced by various environmental factors, including extreme weather conditions. This study aims to analyze the impact of various weather conditions such as heavy rain, high humidity, and extreme temperatures on the stability and quality of wireless networks. The method used is a quantitative approach with data collection of network performance under various weather conditions over a certain period of time. The parameters analyzed include latency, jitter, throughput, and packet loss rate. Initial results show that extreme weather, particularly heavy rain and high humidity, can lead to a significant decrease in network connection stability. These findings are expected to contribute to the planning and optimization of network systems, especially in areas with unpredictable climates.

References

"Impact of Weather Conditions on Wireless Signal Propagation" Chen, L., & Zhang, R. (2020). Journal of Network and Computer Applications, 15(3), 45-60.

"Weather-Induced Attenuation in Wireless Networks: A Case Study" by Patel, R., and Jain, S. (2022). IEEE Wireless Communications Transactions, 21(2), 112-125.

A. Fahmi (2018). Jaringan Nirkabel Dasar-Dasar. Informatika Penerbit.

AccuWeather. (2025). Real-Time AccuWeather Weather Data. Retrieved from www.accuweather.com.

BMKG (2025). Cuaca Harian Laporan. Badan Geofisika, Klimatologi, and Meteorology.

Das, S., Maitra, A. K., & Shukla, A. K. (2020). Rain fade: attenuation modeling in the 10–100 GHz frequency using drop size distributions for tropical India. Progress in Electromagnetics Research B.

Kang, J. J., & Haskell-Dowland, P. (2021). How rain, wind, heat and other heavy weather can affect your internet connection. World Economic Forum.

Li, Y., Yang, J., Huang, Y., Yang, T., Wen, C.-K., & Jin, S. (2025). RainGaugeNet: CSI-Based Sub-6 GHz Rainfall Attenuation Measurement and Classification for ISAC Applications. arXiv.

P. Agrawal (2019). Networks and Wireless Communications. Cambridge University Press.

Putra, A., & Sanjaini, R. (2025). Analysis of Wireless Network Performance in Extreme Weather. Manuscript.

Rabbani, A. N. R., Yacoub, R. R., & Marpaung, J. (2023). Analysis of the impact of enclosing various materials on the strength of Wi‑Fi signal reception. Journal of Electrical Engineering, Energy, and Information Technology (J3EIT), 11(2).

Singh, P., and Kumar, S. (2019). "How Rain and Humidity Affect Wi-Fi Signal Strength." Journal of Communication Systems International, 12(4), 78-92.

Tanenbaum, A. S. (2020). Computer Networks. Pearson Education.

V. K. Garg (2021). Handbook of Wireless Network Performance. McGraw-Hill.

Vucetic, B., & Li, Y. (2022, March 4). Rain absolutely impacts telecommunications. The University of Sydney.

Wi-Fi Alliance. (2024). Best Practices for Wi-Fi Performance Optimization. Retrieved from www.wi-fi.org.