ACTIVE SENSOR WORKING SYSTEM ON ANTI-AIRCRAFT MISSILES
Keywords:
Aircraft, Active Sensor System, MissilesAbstract
Along with the development of the era, the rapid development of technology, especially in the field of national defense and security, where a country designs sophisticated weapons technology, namely missiles (guided missiles). These weapons are usually owned by developed countries which are useful as a means of defense so that there is no attack on the country. The weapons technology used utilizes the active sensor work system and also other important components in the missile. The development of these weapons has given rise to several types of guided missiles based on their range, such as tactical, medium-range, long-range and ballistic missiles. The use of important components in missiles such as missiles that are useful for carrying warheads, control systems that can control missiles while flying in the air, navigation systems that contain GPS, inertial techniques, and positioning techniques, fuel and propulsion systems that provide thrust and thermal protection as heat protection when crossing the atmosphere and flying in the air so as to produce missiles that can reach the target point accurately and with good effectiveness. In addition, the existence of fighter aircraft owned by a country is a supporting weapon in defense and utilization in the development of guided missile components creates anti-aircraft missiles that have rocket-based boosters that are useful for shortening the time to reach the target.
References
Adrinta, M. A., Muhammad, I., Anhari, S., Ghani, I. R., Ridho, F., & Ramadhani, S. R. (2017). Sensor. Jurusan Ilmu Komputer Universitas Sumatera Utara.
Agustian, E. S. (2021). Sistem Propulsi Roket Padat Untuk Rudal Anti Tank. In Jurnal Teknologi Kedirgantaraan (Vol. 6, Issue 2, pp. 23–29). https://doi.org/10.35894/jtk.v6i2.36
Agustian, E. S., Siahaan, T., Hafizah, M. E., & Hakim, A. N. (2021). Desain Konseptual Peluru Kendali Anti Tank Sebagai Senjata Pendukung Infanteri Tentara Nasional Indonesia Angkatan Darat (Tni Ad) the Conceptual Design of Anti Tank Guided Missile As a Support Weapon for Indonesian Army Infantry (Tni Ad). Jurnal Teknologi Persenjataan, 3(1), 8–21.
Anova, F. N., Elektro, F. T., & Telkom, U. (2019). Pengolahan sinyal radar pasif berdasarkan electronic support measure dengan metode time difference of arrival signal processing of passive radar based electronic support measure with time difference of arrival method. 6(1), 943–949.
Bahtiar, Y. A., Ariyanto, D., Taufik, M., & Handayani, T. (2019). Pemilah Organik dengan Sensor Inframerah Terintegerasi Sensor Induktif dan Kapasitif. Jurnal EECCIS, 13(3), 109–113.
Eko Susetyo Yulianto, Doddi Yuniardi, & Riyad Basir. (2023). Analisis Sistem Otomatisasi Alat Pengupas Tempurung Kelapa Menggunakan Arduino Uno. Jurnal Teknik Dan Science, 2(3), 47–56. https://doi.org/10.56127/jts.v2i3.1048
Fontana, S., & Di Lauro, F. (2022). An Overview of Sensors for Long Range Missile Defense. Sensors, 22(24), 1–19. https://doi.org/10.3390/s22249871
Harpini, D. C. A. D., Saputra, M. F. J., & Ally, M. D. (2017). Transformasi Dalam Performa Pesawat Terbang Di Generasi Berbeda. Bina Teknika, 13(1), 131. https://doi.org/10.54378/bt.v13i1.63
Hutabarat, JP, Sutiarnoto, S., & Bariah, C. (2013). Implikasi Penggunaan Teknologi Pesawat Siluman (Stealth Fighter) dalam Kaitannya dengan Kedaulatan suatu Negara Atas Ruang Udara Wilayahnya Ditinjau Menurut Hukum Internasional. Jurnal Hukum Internasional Sumatera , 1 (1), 14967
Kamelia, L., Sukmawiguna, Y., & Adiningsih, N. U. (2017). Rancang Bangun Sistem Exhaust Fan Otomatis Menggunakan Sensor Light Dependent Resistor. Jurnal ISTEK, 10(1), 154–169.
Ngabekti, O. (2017). Kerjasama Turki Dan Rusia Dalam Pengadaan Sistem Pertahanan Udara Rudal S-400. Skripsi.
Nugroho, L. (2018). Studi Komparasi Karakter Bentuk Estetik Desain Pesawat Tempur F-16 Dan SU-27.
Nurahman, A., & Pribadi, P. (2023). Rudal Canggih dari Tiga Negara Superpower: JASSM, Kinzhal, dan DF-41. Bincang Sains Dan Teknologi, 2(01), 21–29. https://doi.org/10.56741/bst.v2i01.295
Prasetyo, M. R. (2018). Perancangan Kendali Optimal LQT untuk Pengendalian dan Pemanduan pada Rudal. https://repository.its.ac.id/50101/%0Ahttps://repository.its.ac.id/50101/1/07111340000129-Undergraduate_Theses.pdf
Priyono, E. (2011). Peran & Kriteria Rudal Darat-Udara Dalam SISHANUDNAS. Jurnal: Industri Elektro dan Penerbangan, 1(3).
Putri, M. S. D., Gultom, R. A. G., & Wajdji, A. F. (2022). Manfaat Alutsista Radar Dalam Mendukung Sistem Pertahanan Udara Berlapis Tni Au. Citizen : Jurnal Ilmiah Multidisiplin Indonesia, 2(4), 664–670. https://doi.org/10.53866/jimi.v2i4.175
Rahma, M., & Udzma, N. (2024). Mengeksplorasi Konsep Pesawat Terbang Berdasarkan Hukum Fisika dan Perspektif Al-Qur’an. Religion : Jurnal Agama, Sosial, Dan Budaya, 3(3), 428–438. https://maryamsejahtera.com/index.php/Religion
Ramdani, M., Daneraici Setiawan, A., & Charisma, A. (2021). Perancangan Low Noise Amplifier Untuk Aplikasi Radar Pasif. 19(1), 6–12.
Saroinsong, H. S., Poekoel, V. C., & Manembu, P. D. . (2018). Rancang bangun wahana pesawat tanpa awak (Fixed Wing) berbasis Ardupilot. Jurnal Teknik Elektro Dan Komputer, 7(1), 73–84. https://ejournal.unsrat.ac.id/index.php/elekdankom/article/download/19195/18753
Wicaksono, F. M. (2019). Aplikasi Arduino dan Sensor. Informatika Bandung.
Widharma, I. G. S. (2020). Sensor Ultrasonik dalam Water Level Controller. Politeknik Negeri Bali 2020, 1(1), 1–11.
Yunardi, R. T. (2017). Analisa Kinerja Sensor Inframerah dan Ultrasonik untuk Sistem Pengukuran Jarak pada Mobile Robot Inspection. Setrum : Sistem Kendali-Tenaga-Elektronika-Telekomunikasi-Komputer, 6(1), 33. https://doi.org/10.36055/setrum.v6i1.1583
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