DESIGN OF PLESSEY AW S II RADAR SPEED MONITORING SYSTEM BASED ON INTERNET OF THINGS
Abstract
The Indonesian Air Force (TNI AU) has the main task of maintaining state sovereignty, especially in the airspace which operates Radar as one of the Main Tools and Armament Systems (Alutsista) owned by the Indonesian Air Force. Radar is used to detect/detect military aircraft traffic, monitor the movements of domestic aircraft or foreign aircraft that enter the radar coverage of the Sovereignty of the Republic of Indonesia (NKRI). The rotation of the radar antenna can be affected by high wind speeds which can result in a drag and thrust on the rotation of the radar antenna, adjusting the direction of the wind. But at this time, the Indonesian Air Force does not yet have an internet-based antenna rotation speed monitoring system, so a system is needed to determine the rotational speed of a radar antenna that can be accessed remotely using internet media. The methods used in designing an internet of things based antenna speed rotation monitoring system include literature studies, hardware and software system design, selection of tools and materials according to their specifications and functions and testing and analysis to determine their capabilities. The results obtained from writing this final project are expected to be useful for the Indonesian Air Force, especially for the Radar Unit (Satrad). This design can be used as a prototype monitoring system for rotating speed per minute on a Radar antenna that can be accessed remotely. Apart from that, it can also reduce the number of personnel in assignment, so that it can divert personnel to other tasks that are more needed by the unit.
References
Arduino, 14 Februari 2023. [Online]. Available: https://www.arduino.cc/en/Main/Software .
Arif Rakhman Suharso, A., Muhamad Fauzi, R., Dwi Kurniawan, A., Renaldo, A., & Hartono. (2016). PERANCANGAN SISTEM RADAR PENDETEKSI OBJEK MENGGUNAKAN SENSOR ULTRASONIK BERBASIS ARDUINO. Jurnal Rekayasa Teknologi Nusa Putra, 3(1), 20-26.
B. Adrian, ”Menunggu Realisasi Pengadaan Radar, KSAU Tinjau Satrad Jayapura yang Sudah Selesai Dibangun,” 27 Agustus 2022. [Online]. Available: https://mylesat.com/2022/08/27/menunggu-realisasi-pengadaan-radar-ksau-tinjau-satrad-jayapura-yang-sudah-selesai-dibangun/.
Diarsyah Amarullah, Mochammad Djaohar, Massus Subekti, ”PENGATURAN KECEPATAN MOTOR DC SERI BERBASIS ARDUINO UNO,” Journal of Electrical and Vocational Education and Technology,, pp. Vol.4, No.2, ISSN 2548-9178, 2019.
G. W. Stimson, Introduction to Airborne Radar (2nd ed.), United Amerika Serikat: SciTech Pub-lishing., 2013.
J. &. H. L. I. Toomay, Radar: Principles, Technology, Applications., United Amerika Serikat: SciTech Publishing., 2012.
J. A. S. Mark A. Richard, Prinsiples of Modern Radar, United States of America: SciTech Pub-lishing, Edison, NJ, 2010.
J. Utomo, Rancang Bangun Pengendali Dan Monitoring, Lampung: Fakultas Teknik Universitas Lampung, 2016.
K. S. &. J. Hylén, ”Getting Started with Arduino IDE 2,” 4 April 2023. [Online]. Available: https://docs.arduino.cc/software /ide-v2/tutorials/getting-started-ide-v2.
L. SLM, ”Lab Sheet Instrumentasi,” Fakultas Teknik Universitas Negeri Yogyakarta, Yogyakar-ta, 2010.
Lestari, Optimasi Kontrol PID Pneumatik Control Valve Pada High Pressure Heater PLTU Pelabuhan Ratu Berbasis DCS MAXDNA, Cimahi: UNJANI, 2016.
M. Anggara, Sistem Kendali PID Untuk Kecepatan Motor DC BerbasisArduino Untuk Penguat Mosfet Dab Feedback Motor DC, Bandung: POLITEKNIK NEGERI BANDUNG, 2017.
M. F. Arif, ”Sistem Kontrol Kecepatan Motor DC D-6759 Berbasis Arduino Mega 2560,” Maka-lah Seminar Universitas Brawijaya, Malang, 2015.
M. Margolis, Arduino Cookbook, United States of Amerika: O'reilly Media, Inc., 2011.
Mabesau, Doktrin TNI Angkatan Udara Swa Bhuwana Paksa, Jakarta: Mabesau, 2019.
Mabesau, Surat Keputusan Kepala Staf TNI Angkatan Udara Nomor Kep/4/III/1999, Jakarta: Mabes TNI Angkatan Udara, 1999.
Muhammad Iqbal Rangkuti, Ardianto Pranata, Ishak Ishak, Sistem Radar Untuk Monitoring Ob-jek Sekitar Berbasis Internet Of Things (IOT)
R. A. Fatoni, Sistem Navigasi Robot Beroda Berbasis Teknik Kendali PID Menggunakan Mikro-kontroller Arduino Mega2560, Cimahi: UNJANI, 2017.
Radi Birdayansyah, Noer Sudjarwanto, Osea Zebua, ”Pengendalian Kecepatan Motor DC Menggunakan Perintah Suara Berbasis Mikrokontroler Arduino,” Jurnal Rekayasa dan Teknologi Elektro, pp. Volume 9, No. 2, Mei 2015, 2015.
Setneg, Undang-Undang Nomor 34 Tahun 2004 tentang Tentara Nasional Indonesia, Jakarta: Sekretariat Negara Republik Indonesia, 2004.
Theta D Innarwaty Putri, Winarno Sugeng, Fuadi Ramdani, ”Sistem Pembayaran Elektronik Pa-da Transportasi Angkutan Kota Menggunakan Rotary Encoder,” MIND (Multimedia Artificial Intelligent Networking Database) Journal, pp. Vol 6 No. 1 Halaman 1-15, 2021.
Tjahja Odinanto, Bambang Suprijono, Winda Andrianta Widya Natasari, Perancangan Pengen-dali Kecepatan Motor Arus Searah 1 HP 220 Volt Dengan Metode PID Berbasis Mikrokontroller, Surabaya: Universitas ITATS, 2015.
Y. P. Haniah, ”Pengenalan Teknologi Radar Untuk Pemetaan Spasial di Kawasan Tropis,” TEKNIK – Vol. 32 No.2 Tahun 2011, ISSN 0852-1697, p. Hal. 115, 2011.
Y. Y. Yudhanto, Pengantar Teknologi Internet Of Things (IoT), Surakarta: UNS, 2020.
