A novel integral transform operator and its applications

Document Type : Research Article

Authors

Department of Mathematics, Punjabi University, Patiala, Punjab-147002, India.

Abstract

The proposed study is focused to introduce a novel integral transform op-erator, called Generalized Bivariate (GB) transform. The proposed trans-form includes the features of the recently introduced Shehu transform, ARA transform, and Formable transform. It expands the repertoire of existing Laplace-type bivariate transforms. The primary focus of the present work is to elaborate fashionable properties and convolution theorems for the proposed transform operator. The existence, inversion, and duality of the proposed transform have been established with other existing transforms. Implementation of the proposed transform has been demonstrated by ap-plying it to different types of differential and integral equations. It validates the potential and trustworthiness of the GB transform as a mathematical tool. Furthermore, weighted norm inequalities for integral convolutions have been constructed for the proposed transform operator.

Keywords

Main Subjects

References

[1] Aboodh, K.S. The new integral transform ’Aboodh transform’, Glob. J. Pure Appl. Math. 9(1) (2013), 35–43.
[2] Aggarwal, S., Gupta, A.R. and Kumar, D. Mohand transform of error function, Int. J. Res. Advent Technol. 7(5) (2019), 224–231.
[3] Aggarwal, S., Gupta, A.R., Sharma, S.D., Chauhan, R. and Sharma, N. Mahgoub transform (Laplace-Carson transform) of error function, International Journal of Latest Technology in Engineering, Management & Applied Science 8(4) (2019), 92–98.
[4] Ahmadi, S.A.P., Hosseinzadeh, H. and Cherati, A.Y. A new integral transform for solving higher order linear ordinary Laguerre and hermite differential equations, Int. J. Appl. Comput. Math. 5(5) (2019), 1–7.
[5] Akinyemi, L. and Iyiola, O.S. Exact and approximate solutions of time-fractional models arising from physics via Shehu transform, Math. Meth-ods Appl. Sci. 43(12) (2020), 7442–7464.
[6] Atangana, A. and Kilicman, A. A novel integral operator transform and its application to some f FODE and FPDE with some kind of singulari-ties, Math. Probl. Eng. (2013), Art. ID 531984, 7 pp.
[7] Babolian, E., Biazar, J. and Vahidi, A. A new computational method for Laplace transforms by decomposition method, Appl. Math. Comput. 150(3) (2004), 841–846.
[8] Barnes, B. Polynomial integral transform for solving differential equa-tions, Eur. J. Pure Appl. Math. 9(2) (2016), 140–151.
[9] Bochner, S., Chandrasekharan, K. and Chandrasekharan, K. Fourier transforms, Princeton University Press, 1949.
[10] Davies, B. and Martin, B. Numerical inversion of the Laplace transform: a survey and comparison of methods, J. Comput. Phys. 33(1) (1979), 1–32.
[11] Djebali, R., Mebarek-Oudina, F. and Rajashekhar, C. Similarity solu-tion analysis of dynamic and thermal boundary layers: further formula-tion along a vertical flat plate, Physica Scripta 96(8) (2021), 085206.
[12] Elzaki, T. M. The new integral transform Elzaki transform, Glob. J. Pure Appl. Math. 7(1) (2011), 57–64.
[13] Filipinas, J.L.D.C. and Convicto, V.C. On another type of transform called Rangaig transform, International Journal 5(1) (2017), 42–48.
[14] Grinshpan, A.Z. Weighted norm inequalities for convolutions, differen-tial operators, and generalized hypergeometric functions, Integral Equa-tions Operator Theory 75(2) (2013), 165–185.
[15] Gupta, V.G., Shrama, B. and Kiliçman, A. A note on fractional Sumudu transform, J. Appl. Math. (2010), Art. ID 154189, 9 pp.
[16] Haroon, F., Mukhtar, S. and Shah, R. Fractional view analysis of Fornberg– Whitham equations by using Elzaki transform, Symmetry 14(10) (2022), 2118.
[17] He, J.-H. Homotopy perturbation technique, Comput. Methods Appl. Mech. Engrg. 178(3-4) (1999), 257–262.
[18] Higazy, M. and Aggarwal, S. Sawi transformation for system of ordinary differential equations with application,Ain Shams Eng. J. 12(3) (2021), 3173–3182.
[19] Khan, M., Gondal, M.A., Hussain, I. and Vanani, S.K. A new compar-ative study between homotopy analysis transform method and homotopy perturbation transform method on a semi infinite domain, Math. Com-put. Model. 55(3-4) (2012), 1143–1150.
[20] Khan, Z.H. and Khan, W.A. N-transform properties and applications, NUST J. Eng. Sci. 1(1) (2008), 127–133.
[21] Kumar, S., Kumar, A., Kumar, D., Singh, J. and Singh, A. Analytical solution of Abel integral equation arising in astrophysics via Laplace transform, J. Egyptian Math. Soc. 23(1) (2015), 102–107.
[22] Maitama, S. and Zhao, W. New integral transform: Shehu transform a generalization of Sumudu and Laplace transform for solving differential equations, arXiv preprint arXiv:1904.11370 (2019).
[23] Mullineux, N. and Reed, J. Numerical inversion of integral transforms, Computers & Mathematics with Applications 3(4) (1977), 299–306.
[24] Ramadan, M.A., Raslan, K.R., El-Danaf, T.S. and Hadhoud, A.R. On a new general integral transform: some properties and remarks, J. Math. Comput. Sci. 6(1) (2016), 103–109.
[25] Raza, J., Mebarek-Oudina, F. and Ali Lund, L. The flow of magne-tised convective Casson liquid via a porous channel with shrinking and stationary walls, Pramana 96(4) (2022) 229.
[26] Saadeh, R.Z. and Ghazal, B.F. A new approach on transforms: Formable integral transform and its applications, Axioms 10(4) (2021), 332.
[27] Saadeh, R., Qazza, A. and Burqan, A. A new integral transform: Ara transform and its properties and applications, Symmetry 12(6) (2020), 925.
[28] Sadefo Kamdem, J. Generalized integral transforms with the homo-topy perturbation method, J. Math. Model. Algorithms Oper. Res. 13(2) (2014), 209–232.
[29] Schiff, J L. The Laplace transform: theory and applications, Springer Science & Business Media, 1999.
[30] Shah, K., Khalil, H. and Khan, R.A. Analytical solutions of fractional order diffusion equations by natural transform method, Iran. J. Sci. Tech-nol. Trans. A Sci. 42(3) (2018), 1479–1490.
[31] Silva, F.S., Moreira, D.M. and Moret, M.A. Conformable Laplace trans-form of fractional differential equations, Axioms 7(3) (2018), 55.
[32] Tripathi, R. and Mishra, H.K. Homotopy perturbation method with Laplace transform (LT-HPM) for solving Lane–Emden type differential equations (LETDEs), SpringerPlus 5(1) (2016), 1–21.
[33] Watugala, G. Sumudu transform: a new integral transform to solve dif-ferential equations and control engineering problems, Internat. J. Math. Ed. Sci. Tech. 24(1) (1993), 35–43.
[34] Widder, D.V. Laplace transform (PMS-6), Princeton university press, 2015.
[35] Yang, X.-J. A new integral transform with an application in heat-transfer problem, Ther. Sci. 20(3) (2016), 677–681.
[36] Y¨uzbaı, ., Sezer, M. and Kemancı, B. Numerical solutions of integro-differential equations and application of a population model with an im-proved Legendre method, Appl. Math. Model. 37(4) (2013), 2086–2101.
[37] Zhao, W. and Maitama, S. Beyond sumudu transform and natural transform : transform properties and applications, J. Appl. Anal. Com-put. 10(4) (2020), 1223–1241.
Send comment about this article
CAPTCHA Image

Files

Share

How to cite

Statistics