Papers Published Information

1. Sushma B., J. Gireesha, C. G. Pavithra, “Impact of thermal radiation on stretching sheet: a numerical approach using new similarity transformations,” Proc. of the International Conference on Advances in Mathematical Science and Their Technological Applications (ICAMSTA-2025) and 34th Congress of APTSMS, Dept. of Mathematics, Osmania University, Hyderabad, Telangana, India, Dec. 12–14, 2025

2. S. C. Shiralashetti, A. B. Deshi, M. H. Kantli, “B-Spline Biorthogonal Wavelet Multigrid Method for the Numerical Solution of Couple Stress Full Reynolds Equation”, Proceedings of Institute of Applied Mathematics, Vol. 13, No. 1, pp. 3-34, 2024. DOI: 10.30546/2225-0530.13.1.2024.024.

3. S. C. Shiralashetti, M. H. Kantli, A. B. Deshi, “Numerical Solution of Linear and Nonlinear Elliptic Partial Differential Equations Using Lifting Scheme”, Palestine Journal of Mathematics, Palestine Polytechnic University-PPU, Vol.11, No.1, pp. 345-353, 2022.

4. M. H. Kantli: A Modified Wavelet Multigrid Method for the Numerical Solution of Convection-Diffusion problem, Journal of Fractional Calculus and Applications, 12(3):15, 1-12 (2021). Impact Factor: 3.126.

5. N.M. Bujurke, M.H. Kantli: Numerical Simulation of Influence of Surface Features on the Elastohydrodynamic Lubrication of Sliding Line Contact Using Krylov Subspace Method, Computational Mathematics and Modeling, 32, 198-220 (2021). Springer

6. S. C. Shiralashetti, M. H. Kantli, A. B. Deshi, “Wavelet Lifting Scheme for the Numerical Solution of Dynamic Reynolds Equation for Micropolar Fluid Lubrication”, International Journal of Computational Methods, World Scientific, Vol. 18, No. 09, pp. 2150033, 2021. https://doi.org/10.1142/S021987622150033X. (Ranking Q2)

7. M.H. Kantli, M.M. Holliyavar: Wavelet Preconditioned Method for the Numerical Solution of Stochastic Differential Equations, International Journal of Modern Mathematical Sciences, 19:2, 90-99 (2021).

8. M.H. Kantli, A modified wavelet multigrid method for the numerical solution of convection-diffusion problem, Journal of Fractional Calculus and Applications, Vol. 12(3). No. 15, pp. 1-12, ISSN: 2090-5858. http://math-frac.org/Journals/JFCA/ (2021). SJR: 1.858.

9. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: Biorthogonal wavelet-based multigrid method for the numerical solution of elliptic partial differential equations, International Journal of Computational Material Science and Engineering, DOI: 10.1142/S2047684120500190, 2050019 (2021). World Scientific. Impact Factor: 1.38.

10. R.A. Mundewadi, B.A. Mundewadi, M.H. Kantli: Iterative Scheme of Integral and Integro-differential Equations using Daubechies Wavelets New Transform Method, International Journal of Applied and Computational Mathematics, 6:135, (2020), https://doi.org/10.1007/s40819-020-00879-2, Springer. Impact Factor: 1.65.

11. N.M. Bujurke, M.H. Kantli: Jacobian-free Newton-Krylov subspace method with wavelet-based preconditioner for analysis of transient elastohydrodynamic lubrication problems with surface asperities, Applied Mathematics and Mechanics, 41, 881-898, (2020). https://doi.org/10.1007/s10483-020-2616-8, Springer. Impact Factor: 1.205.

12. M.H. Kantli, S.C. Shiralashetti, Finite difference Wavelet–Galerkin method for the numerical solution of elastohydrodynamic lubrication problems, Journal of Analysis, 26:2, 285-295, (2018). Springer. Impact Factor: 1.583.

13. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: Biorthogonal wavelet based full-approximation schemes for the numerical solution of elasto-hydrodynamic lubrication problems, Journal of Mathematical Modeling, 6:1, 105-122, (2018). Impact Factor: 0.98.

14. M.H. Kantli, M.M. Holliyavar: “Wavelet Preconditioners of Electrohydrodynamic flow problem”, Journal of Information and Computing Science, 12:3, 203-209, (2017). World Academic Press. SJR: 0.161.

15. N.M. Bujurke, M.H. Kantli, B.M. Shettar: “Jacobian free Newton-GMRES method for the solution of elastohydrodynamic grease lubrication in line contact using wavelet based pre-conditioners”, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 88:2, 247-265, (2018). Springer. Impact Factor: 0.754.

16. M.H. Kantli, B.M. Shettar, N.M. Bujurke: “Jacobian free Newton-GMRES method for analysing combined effects of surface roughness and couple stress character of lubricant on EHL line contact”, Proceedings of the Indian National Science Academy, 83:1, 175-196, (2017). INSA. Impact Factor: 0.754.

17. N.M. Bujurke, M. H. Kantli, B.M. Shettar: “Wavelet preconditioned Newton-Krylov method for elastohydrodynamic lubrication of line contact problems”, Applied Mathematical Modelling, 46, 285-298, (2017). Elsevier. Impact Factor: 5.129.

18. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: New wavelet based full-approximation scheme for the numerical solution of nonlinear elliptic partial differential equations, Alexandria Engineering Journal, 55, 2797-2804, (2016). Elsevier. Impact Factor: 3.732.

19. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi, P.B. Mutalik Desai: A modified wavelet multigrid method for the numerical solution of boundary value problems, Journal of Information & Optimization Sciences, 38:1, 151-172, (2017). Taylor & Francis.

20. S.C. Shiralashetti, M.H. Kantli: “Wavelet based decoupled method for the investigation of surface roughness effects in elastohydrodynamic lubrication problems using couple stress fluid”, Ain Shams Engineering Journal, 9, 757-766, 2018, Elsevier. Impact Factor: 3.18.

21. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: A new wavelet multigrid method for the numerical solution of elliptic type differential equations, Alexandria Engineering Journal, 57, 203-209, (2018). Elsevier. Impact Factor: 3.732.

22. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: Haar wavelet based numerical solution of nonlinear differential equations arising in fluid dynamics, International Journal of Computational Material Science and Engineering, 5:2, 1650010-1-13 (2016). World Scientific. Impact Factor: 1.38.

23. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: A Comparative study of the Daubechies wavelet based new Galerkin and Haar wavelet collocation methods for the numerical solution of differential equations, Journal of Information and Computing Science (JIC), 12:1, 052-063, (2017). World Academic Press. Indexed in Scopus.

24. S.C. Shiralashetti, A.B. Deshi, M.H. Kantli, L.M. Angadi: Modified wavelet multigrid method for the numerical solution of partial differential equation arising in fluid dynamics, Open Journal of Applied & Theoretical Mathematics (OJATM), 2:4, 611-632, (2016). Indexed in Scopus.

25. S.C. Shiralashetti, M.H. Kantli: “A New Daubechies orthogonal discrete wavelet transform with permutation preconditioner method for the numerical solution of EHL problems”, American Journal of Heat and Mass Transfer (AJHMT), (2016), 3(3), 164-180. Indexed in Scopus.

26. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: “Haar wavelet based numerical solution of elasto-hydrodynamic lubrication with line contact problems”, Journal of Information and Computing Sciences (JIC), 11:3, 169-179, (2016). World Academic Press. Indexed in Scopus.

27. S.C. Shiralashetti, M.H. Kantli: “Investigation of Couple Stress Fluid and Surface Roughness Effects in the elastohydrodynamic Lubrication Problems usingWavelet-Based Decoupled Method”, Lubricants, 2016, 4, 9; doi:10.3390/lubricants4010009. MDPI. Impact Factor: 2.447.

28. S.C. Shiralashetti, L. M. Angadi, M.H. Kantli, A.B. Deshi: Numerical solution of parabolic partial differential equations using adaptive grid Haar wavelet collocation method, Asian-European Journal of Mathematics, 0, 1750026 (2016). World Scientific. Impact Factor: 0.71.

29. S.C. Shiralashetti, L. M. Angadi, M.H. Kantli, A.B. Deshi: Numerical solution of parabolic partial differential equations using adaptive grid Haar wavelet collocation method, Asian-European Journal of Mathematics, 0, 1750026 (2016). World Scientific. Impact Factor: 0.71.

30. S.C. Shiralashetti, L. M. Angadi, A.B. Deshi, M.H. Kantli: “Haar wavelet method for the numerical solution of Klein-Gordan equations”, Asian-European Journal of Mathematics, (2016), 9(1), 1650012, DOI: 10.1142/S1793557116500121. World Scientific. Impact Factor: 0.71.

31. S.C. Shiralashetti, M.H. Kantli: “Wavelet Galerkin method for the numerical solution of elastohydrodynamic lubrication problems”, International Journal of Scientific and Innovative Mathematical Research (IJSIMR), 3(2), (2015), 523-527. Indexed in Scopus.

32. S.C. Shiralashetti, M.H. Kantli, A.B. Deshi: Wavelet based numerical solution of elasto-hydrodynamic lubrication problems via lifting scheme, American Journal of Heat and Mass Transfer, 3:5, 313-332, (2016). Indexed in Scopus.

33. S.C. Shiralashetti, L. M. Angadi, A.B. Deshi, M.H. Kantli: Haar wavelet method for the numerical solution of Benjamin-Bona-Mahony equations, Journal of Information and Computing Science (JIC), 11:2, 136-145, (2016). World Academic Press. Indexed in Scopus.

34. S.C. Shiralashetti, M.H. Kantli: Numerical solution of typical initial value problems using Haar wavelet transform method, International Journal of Current Research, 5:5, 1168-1171, (2013). Indexed in Scopus.

35. S.C. Shiralashetti, M.H. Kantli, N.M. Bujurke: Wavelet Based Multigrid Method For The Numerical Solutions Of Differential Equations Arising In Fluid Dynamics, Proc. Int. Cof. On Applications of Fractals and Wavelets, 2015, 172-185.

36. S.C. Shiralashetti, M.H. Kantli, N.M. Bujurke: Haar Wavelet Transform Method for Solving Singular BVP of ODE, Proc. Int. Cof. On Fluid Dynamics and its Applications, 2011, 572-579.

37. S.C. Shiralashetti, M.H. Kantli, S.S. Naregal: Wavelet based algebraic multigrid method for the solution of PDE’s arising in fluid dynamics, Proc. Int. Cof. On Fluid Dynamics and its Applications, 2011, 597-606.

38. S.C. Shiralashetti, R.A. Mundewadi, M.H. Kantli, A.B. Deshi: Haar wavelet based numerical method for solution voltarra integral equations, Proc. Int. Cof. On Applications of Fractals and Wavelets, 2015, 153-165.