Analisis Pemanfaatan Gelombang Elektromagnetik pada  WX Radar System untuk Mrnghindati Loss off Aircraft Control

Restu Dwi Setiyo Utami; Sudarti Sudarti; Yushardi Yushardi

doi:10.55606/jcsrpolitama.v1i6.3036

Authors

Restu Dwi Setiyo Utami Universitas Jember
Sudarti Sudarti Universitas Jember
Yushardi Yushardi Universitas Jember

DOI:

https://doi.org/10.55606/jcsrpolitama.v1i6.3036

Keywords:

electromagnetic waves, utilization of electromagnetic waves, weather radar, WX Radar System, Loss of Aircraft Control

Abstract

Loss of Aircraft Control incidents have occurred frequently in the past few years. In the last 7 years, 5 aircraft have experienced Loss of Aircraft Control. Loss of Aircraft Control itself is the disappearance of the aircraft from the monitoring radar. The causes of loss of aircraft contact include the effects of weather. In the aviation system, weather does have a very big influence. To minimize the loss of aircraft contact, each aircraft is equipped with a weather radar or what is known as the WX Radar System. WX Radar System is an example of the application of electromagnetic waves, namely radio waves that work with the principle of the doppler effect. Where the radar will emit electromagnetic waves with a low frequency which will then be reflected back by weather particles in the earth's atmosphere. The results of the reflection are then displayed in the cockpit of the aircraft so that the pilot knows the weather conditions outside the aircraft so as to avoid things that are not desired such as loss of aircraft contact or Loss of Aircraft Control.

References

Ardianto, H., & Islam, S. (2015). WX RADAR SYSTEM PADA PESAWAT BOEING 737 SERIES. Teknika STTKD: Jurnal Teknik, Elektronik, Engine, 2(2), 29-45.

Chu, X. (2020). Modeling and Simulation of WX and Interference Display of AEW Radar Simulator. Journal of System Simulation, 27(1), 69-75.

Doerry, A. W., & Liu, G. Performance Limits for Airborne Weather Detection Radar.

Fakhriannur, H. R. (2019). ANALISIS INTERFERENSI FREKUENSI 5600 MHz PADA RADAR CUACA BMKG STUDI KASUS DI STASIUN KLIMATOLOGI KELAS I BANJARBARU (Doctoral dissertation, Universitas Islam Kalimantan MAB).

Hasanah, A. A., Karna, N. B. A., & Fahmi, A. (2020). Implementasi Radio Am Untuk Komunikasi Bawah Laut. eProceedings of Engineering, 7(3).

Irwanto, I. (2021). Perhitungan Radius Gelombang Pada Sistem Pemancar Radio Republik Indonesia Di Provinsi Banten. Jurnal Inovasi Penelitian, 1(12), 2713-2726.

Iswardani, F. A., Sudarti, S., & Yushardi, Y. (2023). ANALISIS STUDI LITERATUR PEMANFAATAN GELOMBANG ELEKTROMAGNETIK (ELF) BAGI INDUSTRI PERTANIAN. Jurnal Sains Riset, 13(1), 15-21.

Prakasa, A., & Utami, F. D. (2019). Sistem Informasi Radar Cuaca Terintegrasi BMKG. JTECE (Journal of Telecommunication, Electronics, and Control Engineering), 1(02), 78-87.

Purwadi, A., Utomo, D. T., & Harahap, P. (2023). Sistem Mitigasi Bencana Tanah Longsor Berbasis Gelombang Radio. RELE (Rekayasa Elektrikal dan Energi): Jurnal Teknik Elektro, 5(2), 70-75.

Ramadhanty, R. S., Hariyanto, B. B., & Suharto, T. I. (2023). DESAIN ANTENA MIKROSTRIP RADAR CUACA PESAWAT PADA FREKUENSI 9, 4 GHZ. Journal of Public Transportation Community, 3(1).

Saputra, A. W., Karna, N. B. A., & Fahmi, A. (2020). Penggunaan Gelombang Radio Untuk Komunikasi Bawah Laut Menggunakan Modulasi Frekuensi. eProceedings of Engineering, 7(3).

Seniari, N. M., & Baus Widhi Darma, S. (2020). Penyuluhan Bahaya Radiasi Gelombang Elektromagnetik Pada Organ Tubuh Mahluk Hidup di Kelurahan Pagutan Barat Mataram. Prosiding Pepadu, 2, 230-235.Iswardani, F. A., Sudarti, S., & Yushardi, Y. (2023). ANALISIS STUDI LITERATUR PEMANFAATAN GELOMBANG ELEKTROMAGNETIK (ELF) BAGI INDUSTRI PERTANIAN. Jurnal Sains Riset, 13(1), 15-21.

Tristanti, D. D. T., & Sudarti, S. (2021). Analisis Kemampuan Multirepresentasi Verbal dan Tabel Tentang Konsep Spektrum Gelombang Elektromagnetik pada Mahasiswa Fisika. PSEJ (Pancasakti Science Education Journal), 6(2), 46-51.