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RANCANG BANGUN KENDALI JARAK JAUH SENJATA SS2-V4 UNTUK MENDUKUNG PENGAMANAN PASUKAN BERBASIS KAMERA PENGINTAI Krisnawati; Anggraini Puspita Sari; Nur Rachman Supadmana Muda
SinarFe7 Vol. 1 No. 1 (2018): Sinarfe7-1B 2018
Publisher : FORTEI Regional VII Jawa Timur

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Abstract

Pengamanan perbatasan atau wilayah merupakan bagian penting dari suatu operasi militer perang (OMP), hal ini dilakukan untuk mencegah dan menghindari kemungkinan adanya infiltrasi atau pihak lawan yang akan memasuki wilayah perbatasan kita. Salah satu upaya adalah dibuat pos penjaga perbatasan disetiap titik wilayah perbatasan yang dianggap rawan. Hal ini dapat menimbulkan kerawanan karena tergantung oleh kemampuan prajurit selama 24 jam untuk menjaga pos pengamanan tersebut, faktor kelengahan dapat terjadi karena kurang disiplin dalam menjaga pos tersebut. Dengan demikian dibutuhkan suatu peralatan yang dapat membantu prajurit dalam menjaga tempat yang rawan sehingga kemungkianan tindakan penerobosan atau infiltrasi pihak musuh dapat dicegah. Ide dari peneliti bertujuan untuk merancang bangun kendali jarak jauh senjata SS2-V4 untuk mendukung pengamanan pasukan berbasis kamera pengintai. Sistem alat ini dapat memantau tempat/daerah rawan secara otomatis, karena dilengkapi oleh kamera yang dipancarkan keoperator dipos kendali dan apa bila menangkap gerakan atau infiltrasi pasukan musuh maka operator dapat melakukan penembakan dari jarak jauh sistem kendali jarak jauh menggunakan telemetri, WiFi dikendalikan oleh joystick dan ponsel android.
Rancang Bangun Alat Pengirim Sandi Untuk Mengenali Tank Kawan Atau Lawan Yang Dapat Di Terapkan Pada Tank Abdul Rasyid Aswansyah; Nachrowie,; Nur Rachman Supadmana Muda
SinarFe7 Vol. 1 No. 1 (2018): Sinarfe7-1B 2018
Publisher : FORTEI Regional VII Jawa Timur

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Abstract

Sandi yang dikirimkan melalui frekuensi telemetry 433Mhz yang telah ditentukan frekuensinya untuk mendapatkan sandi balasan dari kendaraan tempur tank yang mendekat pada pos penghadangan saat di medan perang, sehingga dengan begitu pasukan yang menduduki pos penghadangan akan mengetahui kendaraan tempur tank tersebut kawan atau lawan. Sandi diproses pada sistem penyandian yang di tanamkan pada Arduino UNO328 yang kemudian akan ditampilkan pada LCD 16x2 kemudian ditransmisikan melalui telemetry. Proses pengiriman sandi sistem IFF (Identification Friend or Foe) tersebut bertujuan agar mendapatkan balasan sandi dan mengidentifikasi kendaraan tempur tank tersebut kawan atau lawan.
DESIGN OF ENEMY DESTROYER KAMIKAZE DRONE BY DIPOLE_31 TECHNOLOGY Nur Rachman Supadmana Muda; Ridwan Asri Sudarsono
JURNAL PENGABDIAN MANDIRI Vol. 3 No. 11: Nopember 2024
Publisher : Bajang Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53625/jpm.v3i11.8990

Abstract

The research aims to design and develop a kamikaze drone Dipole_31 prototype based on the ESP32 microcontroller designed as a high-precision long-range enemy target destruction system. The drone was created to focus on high performance and operational efficiency, making it suitable for targeted destruction missions. The research method uses a structured experimental approach to test various key parameters, such as maximum range, flight speed, flight duration, accuracy of attack on the target, blast impact radius, and overall destructive power. The main components of the drone include the ESP32 microcontroller as a control center, brushless motors for propulsion, GPS modules for navigation, and transmitters and receivers for remote control. In addition, fuzes or explosives are installed to ensure the effectiveness of target destruction. The test results show that this kamikaze drone is capable of flying up to a distance of 150 km with a maximum speed of 500 km/h and a flight duration of 120 minutes. The blast radius reached 50 meters, and the drone showed a target accuracy of 99%, with a margin of error of only 1% from 10 tests.The results of this study show that the design of kamikaze drones has met the established technical specifications and has high operational application potential for long-range destruction missions. This drone combines advanced control and navigation technology with reliable destructive capabilities, making it an effective strategic solution in modern military technology
DESIGN AND DEVELOPMENT OF A STEALTH UNIC FOR SILENT OPERATION WITH ESP32-BASED AUTONOMOUS CONTROL Nur Rachman Supadmana Muda; Hasby Fajrus Shodiq
Jurnal Cakrawala Ilmiah Vol. 4 No. 4: Desember 2024
Publisher : Bajang Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53625/jcijurnalcakrawalailmiah.v4i4.9250

Abstract

This research aims to design and build a stealth kamikaze drone for Silent Operation, named Unic, with an autonomous control system. In a modern context that increasingly emphasizes military technology, the existence of drones capable of conducting precision attacks without detection has become essential. This drone is designed to target enemy objectives with the aim of effectively detonating targets without being detected. The design process includes the selection of key components using ESP32, the development of autonomous navigation algorithms, and the integration of secure communication systems. In terms of stealth, the drone is equipped with silent-designed brushless motors that produce noise levels below 25 dB to reduce the likelihood of being heard from a distance. This research also includes performance testing of the drone in simulated scenarios, focusing on maneuverability, navigation accuracy, and stealth capabilities to avoid radar detection and other surveillance systems. Test results show that Unic can perform autonomous flights with high accuracy, optimizing stealth to evade radar and sound detection. These findings are expected to contribute to the development of military drone technology and enhance the effectiveness of national defense strategies. Future research will focus on improving sensor capabilities and anti-jamming systems to support operations in complex environments.
PROTOTYPE OF SHEPAT DRONE BASED ON BOMB FIXEDWING Nur Rachman Supadmana Muda
International Journal of Social Science Vol. 4 No. 6: April 2025
Publisher : Bajang Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53625/ijss.v4i6.9904

Abstract

The rapid development of drone technology has led to innovations in various fields, including surveillance, security, and transportation. One of the latest advancements is the Shepat Drone prototype, designed based on the aerodynamics of the bomb fixed-wing concept. This study aims to develop a drone that adopts the flight mechanics and stability characteristics of a bomb fixed-wing system, which is known for its high maneuverability and energy efficiency. The methodology involves aerodynamic analysis, biomimetic-based structural design, and performance testing through simulations and direct experiments. The results indicate that the Shepat Drone prototype exhibits better stability in various environmental conditions and higher energy efficiency compared to conventional rotary-wing drones. With this approach, the Shepat Drone has the potential for applications in search and rescue, environmental monitoring, military operations, and industrial use.