Solving Problem of Robotic Control of Advanced Missile Via Integral GuptaTransform

Rahul  Gupta; rohit gupta rotu; Anupreet; Dinesh  Verma

Authors

Rahul Gupta Lecturer, Dept. of Physics, G.D. Goenka Public School., Jammu, J&K, India
rohit gupta rotu Lecturer, Dept. of Physics, G.D. Goenka Public School, Jammu, J&K, India
Anupreet Assistant Professor., Dept. of Computer Science and Engg., Yogananda College of Engg. and Tech., Jammu, J&K, India
Dinesh Verma Professor, Dept. of Mathematics, NIILM University, Kaithal, Haryana, India

Keywords:

Robotic Control , Advanced missile Problem, Integral Gupta transform (GT), second order linear differential equation

Abstract

A new technique has been brought into play in this article for solving the second-order linear differential equation representing the problem of automatic or robotic control of advanced missiles. The problem of robotic control of the Advanced missile is one of the problems represented by second-order linear differential equations. The Integral Gupta transform (GT) has not at any time been put in an application to solve the problem of robotic control of the advanced missile. In the article, Integral Gupta transform (GT) has been brought into play to solve the problem of robotic control of the advanced missile and reveals that it is a constructive tool for solving such problems. The graphs of the solutions obtained are plotted to indicate the generality and clarity of the proposed method.

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References

Belkacem Said-Houari, “Differential Equations: Methods and Appli-cations”, Springer International Publishing: Switzerland, 2015.

L. S. Sawant, “Applications of Laplace Transform in Engineering Fields”, International Research, Journal of Engineering and Technology, Volume 5 Issue 5, 2018, 3100-3105.

John H. Blakelock, “Automatic Control of Aircraft and Missiles”, 2nd edition, Wiley: Canada, 1991.

Emad Kuffi, Elaf Sabah Abbas, Salman Obeid Mebayet, Al-Tememe transform in solving developed missile automatic control problem, International Journal of Engineering &Technology, 7 (4), 2018, pp. 6565-6567.

Gopal, Control Systems Principles and Design, 3rd edition, Tata McGraw Hill Publication.

S. Palani, Automatic Control System, 2nd edition, Ane Books Pvt.ltd.

R. Gupta, R. Gupta, L. Talwar, Anamika and D. Verma, "Analysis of RLC Network Connected to Steady Stimulating Source via Gupta Transform,"2022 International Conference on Automation, Computing and Renewable Systems (ICACRS), Pudukkottai, India, 2022, pp. 9-12, doi: 10.1109/ICACRS55517.2022.10029269.

Rahul Gupta, Rohit Gupta, Dinesh Verma. Propounding a New Integral Transform: Gupta Transform with Applications in Science and Engineering, International Journal of Scientific Research in Multidisciplinary Studies, volume 6, issue 3, pp. 14-19, March (2020).

Rahul Gupta, Rohit Gupta, Dinesh Verma, Analysis of LCR Network Circuits with Exponential Sources by New Integral Transform Gupta Transform, Engineering and Scientific International Journal (ESIJ), 9(2), pp. 27-29, 2022.

Rahul Gupta., Rohit Gupta, Response of Undamped Oscillators Exposed to Rectangular Pulse Force, International Journal of Scientific Research in Physics and Applied Sciences, 11(2), 10-14, 2023

R. Gupta, N. Pandita and R. Gupta, "Solving One-Dimensional Heat and Wave Equations Via Gupta Integral Transform," 2022 International Conference on Sustainable Computing and Data Communication Systems (ICSCDS), 2022, pp. 921-925, doi: 10.1109/ICSCDS53736.2022.9760823.

Rahul Gupta, Rohit Gupta, Yuvraj Singh, Inderdeep Singh, Dinesh Verma, Reaction of undamped systematically driven vibrators via Gupta Transform, International Journal of Engineering, Science and Technology, 15(3), pp. 58-63, 2023.