The use of technological intelligence model in solving terrorism dynamics: a case study of Nigeria

Gambo, Adamu; Dotia, Ahmed Kawu; Ibrahim, Mohammed Olanrewaju; Olusola, Lawani Abisola

doi:10.22034/cmde.2024.58503.2474

فهرست نشریات دارای اعتبار وزارت علوم، تحقیقات و فناوری

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	The use of technological intelligence model in solving terrorism dynamics: a case study of Nigeria
Computational Methods for Differential Equations
مقاله 15، دوره 13، شماره 1، فروردین 2025، صفحه 201-213 اصل مقاله (391.8 K)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22034/cmde.2024.58503.2474
نویسندگان
Adamu Gambo^* ¹؛ Ahmed Kawu Dotia²؛ Mohammed Olanrewaju Ibrahim³؛ Lawani Abisola Olusola⁴
¹Department of Mathematics, Nigerian Army University Biu, Nigeria.
²Department of Mathematics Nigerian Army University Biu, Nigeria.
³Department of Mathematics University of Ilorin, Nigeria.
⁴Department of Mathematics Tai Solarin University of Education Ijebu- Ode, Nigeria.
چکیده
Nigeria is one of the most populated countries in West Africa and is in seventh position globally. The issue of terrorism has become a common problem in Nigeria, and the government has been applying local strategies to address the situation but has yet to produce good results. The challenges necessitate the effort in this paper to develop a new deterministic model to curb terrorism and insurgency through technology intelligence in Nigeria. This analysis indicates that Unmanned Aerial Vehicles (UAV) and the transmission rate per capita are the most sensitive parameters. Also pictured from the graphs in Figures 2, 3, and 4 were drones used to reduce the number of informants of both the terrorist and kidnapper individuals in Nigeria. Finally, this paper recommended the model adopted for controlling terrorism in Nigeria.
کلیدواژه‌ها
Mathematical Modelling؛ Technologtcal intelligence؛ Terrorism and dynamics

مراجع
[1] G. Adamu and M. O. Ibrahim, Modeling and Analysis of Counter-Terrorism: Via Drone, Math. Comput Sci., 3(3) (2022), 57–75. [2] G. Adamu and M. O. Ibrahim, Elzaki transform method for solving deterministic modeling of terrorism, Iranian J. Numer. Anal. Optim., 12(2) (2022), 334–354. [3] G. Adamu and M. O. Ibrahim, Mathematical modeling of dynamics behaviour of terrorism and control, Caspian J. Math. Sci., 9(1) (2020), 68–85. [4] T. S. Akinyetun, Banditry in Nigeria: Insights from situational action and situational crime prevention theories, conflict trends, 2021(4) (2021), 32–38. [5] A. Farrow, Drone Warfare as a Military Instrument of Counterterrorism Strategy, Air. Space. Power. J., 28(4) (2016), 4–23. [6] Global Terrorism Index, Measuring the Impact of Terrorism, Inst. Econ. Peace, 2021. [7] Global Terrorism Index, Measuring the Impact of Terrorism, Inst. Econ. Peace, 2022. [8] Global Terrorism Index, Measuring the Impact of Terrorism, Inst. Econ. Peace, 2023. [9] S. A. Kambai, M. O. Durojaye, and R. T. Abah, A mathematical modeling of the impact of proliferation of arms and weapons on Nigeria and control, Int. J. Math. Analy. Model., 6(1) (2023), 153–172. [10] A. B. Okrinya and J. I. Consul, Mathematical Modeling of Kidnapping with Rehabilitation, J. Sci. Engi. Res., 5(8) (2018), 195–20. [11] J. P. Lassalle, The stability of dynamical systems, Socie. Indust. Appl. Math (SIAM), 1976. [12] O. E. Jonathan, A. J. Olusola, T. C. A. Bernadin, and T. M. Inoussa, Impacts of crime on socio-economic development, Mediterranean J. Social Sci., 12(5) (2021), 71. [13] M. Y. Li and J. S. Muldowney, A geometric approach to global-stability problems, SIAM J. Math. Anal., 27(4) (1996), 1070-1083. [14] M. Y. Li and J. S. Muldowney, On RA Smith’s autonomous convergence theorem, Rocky Mt. J. Math., 25(1) (1995), 365-378. [15] B. Mataru, O. J. Abonyo, and D. Malonza, Mathematical Model for Crimes in Developing Countries with Some Control Strategies, J. Appl. Math., (2023), 1–14. [16] D. R. Merkin, Introduction to the Theory of Stability, Springer. Sci. & Business Media, New York., (2012). [17] F. Mohammad and U. A. M. Roslan, Analysis on the crime model using dynamical approach, AIP confer. proce., 1870(1) (2017), 040067. [18] C. Okoye, O. C. Collins, and G. C. E. Mbah, Mathematical approach to the analysis of terrorism dynamics, Secur. J., 33(3) (2020), 427–438. [19] F. C. Onuoha, C. Nwangwu, and M. I. Ugwueze, Counterinsurgency operations of the Nigerian military and Boko Haram insurgency: expounding the viscid manacle, Secur. J., 33(3) (2020), 401–426. [20] S. M. Raimundo, H. M. Yang, F. A. Rubio, D. Greenhalgh, and E. Massad, Modeling criminal careers of different levels of offence, Appl. Math. Comput., 453 (2023), 128073. [21] S. Ryan, Drones, Aid and Education: The Three Ways to Counter Terrorism, London, South Bank University, 2019. [22] P. Vanden Driessche and J. Watmough, Reproduction numbers and sub-threshold endemic equilibria for compartmental models of disease transmission, Math. bios., 180(1-2) (2002), 29–48. [23] P. Van den Driessche, Reproduction numbers of infectious disease models, Infec. Dise. Modell., 2(3) (2017), 288– 303. [24] J. I. Walsh, The effectiveness of drone strikes in counterinsurgency and counter-terrorism campaigns, Stra. Stud. Inst. and US Army War Coll. Press. (2013). [25] Y. Wang and F. Bu, Modeling radicalization of terrorism under the influence of multiple ideologies, American Inst. Math. Sci., 7(3) (2022), 4833–4850. [26] J. P. Yaacoub, H. Noura, O. Salman, and A. Chehab, Security analysis of drones systems: Attacks, limitations, and recommendations, Internet of Things., (11) (2020), 100218.
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The use of technological intelligence model in solving terrorism dynamics: a case study of Nigeria