This research uses the Sinc Collocation method to numerically examine the Degasperis–Procesi and Benjamin–Bona–Mahony equations, achieving a high level of precision and accuracy on computational grounds with a variety of mesh points. The proposed technique involves global collocation using Sinc bases function (SBF) as an activation function. Initially, the time derivative discretization has been performed through finite difference scheme and the remaining spatial derivatives are approximated by $θ$ -weighted scheme to minimize the complexity in numerical computations. The main contribution of research is in modifying the proposed scheme to overcome the complexity involved in the whole process of finding solutions with a cardinal expansion of Sinc functions in nonlinear and singular systems. The solutions of Degasperis–Procesi and Benjamin–Bona–Mahony stiff nonlinear systems are illustrated numerically and graphically and the validation and verification of the obtained results are examined through stability analysis by calculating the spectral radius by bounding the value of $θ$ . A comparative study is presented with some of the well-known numerical techniques, which assured the accuracy and reliability of our technique.

Keywords:

PACS: 02.60.Cb

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References

1. J. Escher and Z. Yin, Banach Cent. Publ. 1(81), 157 (2008). Crossref, Google Scholar
2. L. Qian et al., Int. J. Mod. Phys. B 33(29), 1950351 (2019). Link, Web of Science, ADS, Google Scholar
3. R. Feola, F. Giuliani and M. Procesi, Commun. Math. Phys. 377(3), 1681 (2020). Crossref, Web of Science, ADS, Google Scholar
4. P. Veeresha and D. G. Prakasha, Commun. Theor. Phys. 72(10), 105002 (2020). Crossref, ADS, Google Scholar
5. Y. Kai, J. Ji and Z. Yin, Nonlinear Dyn. 107, 2745 (2022). Crossref, Web of Science, Google Scholar
6. E. Pindza and E. Maré, J. Comput. Methods Phys. 2014, 392962 (2014). Crossref, Google Scholar
7. K. Ammari and E. Crépeau, Syst. Control Lett. 127, 39 (2019). Crossref, Web of Science, Google Scholar
8. X. Li, Y. Xing and C. S. Chou, J. Sci. Comput. 83(1), 1 (2020). Crossref, Google Scholar
9. A. Babaei et al., Commun. Nonlinear Sci. Numer. Simul. 82, 104985 (2020). Crossref, Web of Science, Google Scholar
10. K. Al-Khaled et al., J. Comput. Appl. Math. 330, 417 (2018). Crossref, Web of Science, Google Scholar
11. W. Qiu, D. Xu and J. Guo, Numer. Methods Partial Differ. Equ. 43(6), 3392 (2020). Google Scholar
12. F. Stenger, J. Comput. Appl. Math. 121(1–2), 379 (2000). Crossref, Web of Science, ADS, Google Scholar
13. K. Al-Khaled, J. Comput. Appl. Math. 137(2), 245 (2001). Crossref, Web of Science, ADS, Google Scholar
14. F. Stenger, J. Approx. Theory 17(3), 222 (1976). Crossref, Web of Science, Google Scholar
15. H. R. Dullin, G. A. Gottwald and D. D. Holm, Fluid Dyn. Res. 33(1–2), 73 (2003). Crossref, Web of Science, ADS, Google Scholar
16. A. Degasperis, D. D. Holm and A. N. Hone, Theor. Math. Phys. 133(2), 1463 (2002). Crossref, Web of Science, Google Scholar
17. S. Liang and K. N. Wu, Nonlinear Dyn. 108, 4093 (2022). Crossref, Web of Science, Google Scholar
18. W. C. Chung, T. L. Chiu and K. W. Chow, Nonlinear Dyn. 99(4), 2961 (2020). Crossref, Web of Science, Google Scholar
19. J. Liang, J. Li and Y. Zhang, Nonlinear Dyn. 101(4), 2423 (2020). Crossref, Web of Science, Google Scholar
20. G. M. Coclite and K. H. Karlsen, J. Funct. Anal. 233(1), 60 (2006). Crossref, Web of Science, Google Scholar
21. H. Lundmark and J. Szmigielski, Inverse Probl. 19(6), 1241 (2003). Crossref, Web of Science, ADS, Google Scholar
22. Z. Fu et al., Acta Mech. Sin. 38(7), 422167 (2022). Crossref, Google Scholar
23. Q. Xi et al., Comput. Struct. 255, 106619 (2021). Crossref, Google Scholar
24. L. Sun, Z. Fu and Z. Chen, Appl. Math. Comput. 439, 127600 (2023). Google Scholar
25. S. B. G. Karakoc and S. K. Bhowmik, Comput. Math. Appl. 77(7), 1917 (2019). Crossref, Web of Science, Google Scholar
26. S. K. Bhowmik et al., Comput. Math. Appl. 72(9), 2315 (2016). Crossref, Web of Science, Google Scholar
27. A. Degasperis, D. D. Holm and A. N. Hone, Theor. Math. Phys. 133(2), 1463 (2002). Crossref, Web of Science, Google Scholar
28. Z. Wen, Nonlinear Dyn. 77(1), 247 (2014). Crossref, Web of Science, Google Scholar
29. I. Ahmad et al., Arabian J. Sci. Eng. 48(1), 953 (2023). Crossref, Web of Science, Google Scholar
30. L. Rosier, On the Benjamin-Bona-Mahony equation with a localized damping (2016), arXiv:1605.09574. Google Scholar
31. J. Zhou and L. Tian, Math. Probl. Eng. 2009, 249361 (2009). Google Scholar
32. T. B. Benjamin, J. L. Bona and J. J. Mahony, Philos. Trans. R. Soc. A Math. Phys. Sci. 272(1220), 47 (1972). Crossref, Web of Science, ADS, Google Scholar
33. M. K. Elboree, Nonlinear Dyn. 89, 2979 (2017). Crossref, Web of Science, Google Scholar
34. A. R. Seadawy and A. Sayed, Abstract Appl. Anal. 2014, 926838 (2014). Crossref, Google Scholar
35. K. Zhu et al., Nonlinear Dyn. 97(4), 2413 (2019). Crossref, Web of Science, Google Scholar
36. W. Hereman, Shallow water waves and solitary waves, in Mathematics of Complexity and Dynamical Systems, R. A. Meyers (ed.) (Springer, New York, NY, 2012), pp. 1520–1532. Crossref, Google Scholar
37. X. Wu, W. Kong and C. Li, J. Comput. Appl. Math. 196(1), 229 (2006). Crossref, Web of Science, ADS, Google Scholar
38. K. Mohammadi, A. Alipanah and M. Ghasemi, Int. J. Comput. Math. 99(10), 1941 (2022). Crossref, Web of Science, Google Scholar
39. K. Parand and A. Pirkhedri, New Astron. 15(6), 533 (2010). Crossref, Web of Science, ADS, Google Scholar
40. W. Qiu, D. Xu and J. Guo, Appl. Math. Comput. 392, 125693 (2021). Web of Science, Google Scholar
41. M. A. Fariborzi and S. Noeiaghdam, J. Math. Model. 7(1), 63 (2019). Google Scholar
42. W. Qiu, D. Xu and J. Guo, Appl. Math. Comput. 392, 125693 (2021). Web of Science, Google Scholar
43. K. Al-Khaled et al., J. Comput. Appl. Math. 330, 417 (2018). Crossref, Web of Science, Google Scholar
44. A. Saadatmandi and M. Dehghan, Commun. Nonlinear Sci. Numer. Simul. 17(2), 593 (2012). Crossref, Web of Science, ADS, Google Scholar
45. M. Dehghan and A. Saadatmandi, Math. Comput. Model. 46(11–12), 1434 (2007). Crossref, Google Scholar
46. I. Ahmad et al., Heliyon 7(7), e07600 (2021). Crossref, Google Scholar
47. I. Ahmad et al., Eur. Phys. J. Plus 136(11), 1 (2021). Crossref, Google Scholar
48. M. Dehghan and F. Emami-Naeini, Appl. Math. Model. 37(22), 9379 (2013). Crossref, Web of Science, Google Scholar
49. K. Parand and A. Pirkhedri, New Astron. 15(6), 533 (2010). Crossref, Web of Science, ADS, Google Scholar
50. I. Ahmad et al., Nonlinear Dyn. 105, 691 (2021). Crossref, Web of Science, Google Scholar
51. I. Ahmad et al., Partial Differ. Equ. Appl. Math. 4, 100066 (2021). Crossref, Google Scholar
52. A. Babaei et al., Commun. Nonlinear Sci. Numer. Simul. 82, 104985 (2020). Crossref, Web of Science, Google Scholar
53. D. Kong, Y. Xu and Z. Zheng, Appl. Math. Comput. 355, 61 (2019). Web of Science, Google Scholar
54. K. Maleknejad and K. Nedaiasl, Comput. Math. Appl. 62(8), 3292 (2011). Crossref, Web of Science, Google Scholar
55. K. Parand, M. Dehghan and A. Pirkhedri, Phys. Lett. A 373(44), 4060 (2009). Crossref, Web of Science, ADS, Google Scholar
56. A. Saadatmandi and M. Razzaghi, Commun. Numer. Methods Eng. 23(7), 681 (2007). Crossref, Google Scholar
57. M. M. Khater et al., Alex. Eng. J. 60(1), 1797 (2021). Crossref, Web of Science, Google Scholar
58. D. Kumar, J. Singh and D. Baleanu, Physica A 492, 155 (2018). Crossref, Web of Science, ADS, Google Scholar
59. P. Veeresha and D. G. Prakasha, Commun. Theor. Phys. 72(10), 105002 (2020). Crossref, ADS, Google Scholar
60. B. Sagar and S. Saha Ray, Int. J. Mod. Phys. B 35(32), 2150326 (2021). Link, ADS, Google Scholar
61. S. Saha Ray and B. Sagar, Numer. Methods Partial Differ. Equ. 38(5), 1556 (2022). Crossref, Web of Science, Google Scholar
62. S. S. Ray, Eng. Comput. 38, 2629 (2022). Crossref, Web of Science, Google Scholar
63. B. Sagar and S. Saha Ray, Comput. Appl. Math. 41(6), 1 (2022). Crossref, Google Scholar
64. S. Lal and P. R. Sharma, Rend. Circ. Mat. Palermo (2) 70(2), 959 (2021). Crossref, Web of Science, Google Scholar
65. M. Wu, Y. Jiang and Y. Ge, Demonstr. Math. 55(1), 528 (2022). Crossref, Web of Science, Google Scholar