(Indonesia Defence University, Jakarta, Indonesia)(2) Yayat Ruyat
(Indonesia Defence University, Jakarta, Indonesia)(3) Heri Budi Wibowo
(Indonesia Defence University, Jakarta, Indonesia)*corresponding author
AbstractMeningkatnya konflik dan terorisme secara global telah menjadi dorongan untuk meningkatkan teknologi perangkat militer yang digunakan dalam pengendalian massa. Ketika masyarakat berpikir bahwa negaranya aman, mereka tidak menyadari bahwa setiap negara di dunia mempunyai perselisihan. Misalnya saja massa yang tidak dapat dikendalikan, huru hara, teror bom, pembakaran, dan lain-lain. Penelitian ini berupaya untuk mengembangkan sebuah perangkat militer yang dapat membantu dalam mengendalikan massa dalam jumlah besar dengan bantuan pancaran gelombang mikro yang populer dengan sebutan “Heat Ray, " yang menimbulkan sensasi panas, meski pada tingkat aman, pada sasarannya. Selain itu, ia memiliki "Senapan Akustik" yang menghasilkan suara frekuensi tinggi, menyebabkan sakit kepala hebat dan mual dengan pancaran getaran. Dilengkapi juga dengan magnetometer untuk mendeteksi bom, peralatan tersebut diharapkan dapat menghadapi situasi kerusuhan massal dengan aman dan tanpa kematian. Model yang diusulkan adalah Unmanned Aerial Vehicle, UAV, yang dapat dioperasikan secara manual dalam mendeteksi bom dan menghindari gerombolan yang tidak diinginkan. Ini memberikan solusi yang dikendalikan dari jarak jauh untuk manajemen dan keamanan kerusuhan. KeywordsAnti-riot, non-lethal weapon, drones, Acoustic gun, Heat-ray.
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DOIhttps://doi.org/10.31604/jips.v12i4.2025.1535-1553 |
Article metrics10.31604/jips.v12i4.2025.1535-1553 Abstract views : 0 | PDF views : 0 |
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References
Altmann, J. (1999). Acoustic weapons? Sources and propagation of strong sound. The Journal of the Acoustical Society of America, 105(2_Supplement), 1025-1026.
Altmann, J. (2001). Acoustic weaponsâ€a prospective assessment. Science & Global Security, 9(3), 165-234.
Altmann, J. (2001). Nonâ€lethal weapons technologiesâ€the case for independent scientific analysis. Medicine, Conflict and Survival, 17(3), 234-247.
Arkin, W. M. (1997). Acoustic antiâ€personnel weapons: An inhumane future?. Medicine, Conflict and Survival, 13(4), 314-326.
Butt, A., Shah, S. I. A., & Zaheer, Q. (2019, February). Weapon launch system design of anti-terrorist UAV. In 2019 International Conference on Engineering and Emerging Technologies (ICEET) (pp. 1-8). IEEE.
Cabrera, D., Cabrera, L. Y., & Cabrera, E. (2023). The Steps to Doing a Systems Literature Review (SLR). Journal of Systems Thinking Preprints.
Cachelin, S. (2023). The Suppression and Othering of Black Lives Matter Protests Through Tear Gas. Journal of Black Studies, 54(6), 513-533.
Cannin, A. (2021). Directed-Energy Weapons. Air Space Power J, 35, 57-65.
Choi-Fitzpatrick, A., Juskauskas-DJI–DJI, T., & Scholar, M. B. S. I. All the Protestors Fit to Count: Using Unmanned Aerial Vehicles to Estimate Protest Event Size.
Coleman, S. (2015). Possible ethical problems with military use of non-lethal weapons. Case W. Res. J. Int'l L., 47, 185.
Colorado, J., Perez, M., Mondragon, I., Mendez, D., Parra, C., Devia, C., ... & Neira, L. (2017). An integrated aerial system for landmine detection: SDR-based Ground Penetrating Radar onboard an autonomous drone. Advanced Robotics, 31(15), 791-808.
Davison, N. (2009). Acoustic Weapons. In ‘Non-Lethal’Weapons (pp. 186-205). London: Palgrave Macmillan UK.
De Melo, R. R. S., Costa, D. B., Ãlvares, J. S., & Irizarry, J. (2017). Applicability of unmanned aerial system (UAS) for safety inspection on construction sites. Safety Science, 98, 174-185.
Fernández, M. G., López, Y. Ã., Arboleya, A. A., Valdés, B. G., Vaqueiro, Y. R., Andrés, F. L. H., & GarcÃa, A. P. (2018). Synthetic aperture radar imaging system for landmine detection using a ground penetrating radar on board an unmanned aerial vehicle. IEEE Access, 6, 45100-45112.
Frazier, A. (2018). Hunting with drones: Aerial search and seizure and weaponization of small unmanned aircraft systems. NDL Rev., 93, 481.
Gupta, V., Kumbhare, A., & Jain, R. (2018, February). Advanced Anti-Terrorism Unmanned Ground Vehicle. In 2018 IEEE International Students' Conference on Electrical, Electronics and Computer Science (SCEECS) (pp. 1-5). IEEE.
Grassiani, E. (2022). The Shifting Face of the Enemy: ' Less than Lethal’Weaponry and the Criminalised Protestor. Journal of Illicit Economies and Development, 4(3).
Hassanalian, M., & Abdelkefi, A. (2017). Classifications, applications, and design challenges of drones: A review. Progress in Aerospace Sciences, 91, 99-131.
Huang, H., & Savkin, A. V. (2018). Towards the internet of flying robots: A survey. Sensors, 18(11), 4038.
Imam, S. K. (2021). Law Enforcement in Times of Violent Demonstrations. South Asian Journal of Management Sciences, 15(2).
Jiang, X., Pu, L., Guo, S., & Yang, D. O. (2016, April). Comprehensive Effectiveness Evaluation of Non-lethal Sonic Weapons. In 6th
International Conference on Electronic, Mechanical, Information and Management Society (pp. 1687-1693). Atlantis Press.
Junaedi, F., Sukmono, F. G., & Fuller, A. (2023). Kanjuruhan Disaster, Exploring Indonesia Mismanagement Football Match. In E3S Web of Conferences (Vol. 440, p. 03010). EDP Sciences.
Kanellakis, C., & Nikolakopoulos, G. (2017). Survey on computer vision for UAVs: Current developments and trends. Journal of Intelligent & Robotic Systems, 87, 141-168.
Kardasz, P., Doskocz, J., Hejduk, M., Wiejkut, P., & Zarzycki, H. (2016). Drones and possibilities of their using. J. Civ. Environ. Eng, 6(3), 1-7.
Lewer, N., & Davison, N. (2005). Non-lethal technologies—an overview. In Disarmament forum (Vol. 1, pp. 37-51). Geneva: UNIDIR.
Linhares, B., Happy, S., & Butt, S. (2010). Mechatronics in the advancement of public safety control. In Proc. 8th LACCEI Latin American and Caribbean Conf. for Engineering and Technology (LACCEI) (pp. WE1-1).
Littell, J. H., Corcoran, J., & Pillai, V. (2008). Systematic reviews and meta-analysis. Pocket Guide to Social Work Re.
Liu, M. C., Brenes Reyes, J. R., Sahoo, S., & Dyerâ€Witheford, N. (2022). Riot Platforms: Protest, Police, Planet. Antipode, 54(6), 1901-1922.
Manfreda, S., McCabe, M. F., Miller, P. E., Lucas, R., Pajuelo Madrigal, V., Mallinis, G., ... & Toth, B. (2018). On the use of unmanned aerial systems for environmental monitoring. Remote sensing, 10(4), 641.
Massingham, E. (2012). Conflict without casualties… a note of caution: non-lethal weapons and international humanitarian law. International Review of the Red Cross, 94(886), 673-685.
Mezzacappa, E. (2014). Effectiveness testing of non-lethal weapons. The Journal of Defense Modeling and Simulation, 11(2), 91-101.
Nikulin, A., De Smet, T. S., Baur, J., Frazer, W. D., & Abramowitz, J. C. (2018). Detection and identification of remnant PFM-1 Butterfly Mines’ with a UAV-based thermal-imaging protocol. Remote Sensing, 10(11), 1672.
Paul, J., & Barari, M. (2022). Metaâ€analysis and traditional systematic literature reviews—What, why, when, where, and how?. Psychology & Marketing, 39(6), 1099-1115.
Paul, J., & Criado, A. R. (2020). The art of writing literature review: What do we know and what do we need to know?. International business review, 29(4), 101717.
Paul, J., Lim, W. M., O’Cass, A., Hao, A. W., & Bresciani, S. (2021). Scientific procedures and rationales for systematic literature reviews (SPARâ€4â€SLR). International Journal of Consumer Studies, 45(4), O1-O16.
Shakhatreh, H., Sawalmeh, A. H., Al-Fuqaha, A., Dou, Z., Almeida, E., Khalil, I., ... & Guizani, M. (2019). Unmanned aerial vehicles (UAVs): A survey on civil applications and key research challenges. Ieee Access, 7, 48572-48634.
Starosielski, N. (2019). Thermal Violence: Heat Rays, Sweatboxes and the Politics of Exposure. Culture Machine, 17, 1-27.
Tsing, N. K. (2023). The Movement of No Return. In Hongkongers’ Fight for Freedom (pp. 17-28). Brill.
Vinokur, R. (2004). Acoustic noise is a non-lethal weapon. Sound and Vibration, 38(10), 19-23.
Yoo, L. S., Lee, J. H., Lee, Y. K., Jung, S. K., & Choi, Y. (2021). Application of a drone magnetometer system to military mine detection in the demilitarized zone. Sensors, 21(9), 3175.
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