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JOURNALS // Ufimskii Matematicheskii Zhurnal
Ufimsk. Mat. Zh., 2020, Volume 12, Issue 4, Pages 122–138 (Mi ufa539)
Inverse problem for fractional order pseudo-parabolic equation with involution
D. Serikbaev

References
1. B. Ahmad, A. Alsaedi, M. Kirane, R. Tapdigoglu, “An inverse problem for space and time fractional evolution equations with an involution perturbation”, Quaest. Math., 40:2 (2017), 151–160  crossref  mathscinet  zmath  elib
2. N. Al-Salti, M. Kirane, B.T. Torebek, “On a class of inverse problems for a heat equation with involution perturbation”, Hacet. J. Math. Stat., 48:3 (2019), 669–681  mathscinet
3. T.B. Benjamin, J.L. Bona, J.J. Mahony, “Model equations for long waves in nonlinear dispersive systems”, Philosoph. Trans. Royal Soc. A: Mathem. Phys. Engineer. Sci., 272:1220 (1972), 47–78  mathscinet  zmath
4. G.I. Barenblatt, J. Garcia-Azorero, A. De Pablo, J.L. Vazquez, “Mathematical model of the non-equilibrium water-oil displacement in porous strata”, Appl. Anal., 65:1–2 (1997), 19–45  crossref  mathscinet  zmath
5. P.J. Chen, M.E. Gurtin, “On a theory of heat conduction involving two temperatures”, Z. Angew. Math. Phys., 19:4 (1968), 614–627  crossref  zmath
6. Marcel Dekker, New York, 2003  mathscinet  zmath
7. C. Fetecau, C-a. Fetecau, M. Kamran, D. Vieru, “Exact solutions for the flow of a generalized Oldroyd-B fluid induced by aconstantly accelerating plate between two side walls perpendicular to the plate”, J. Non-Newtonian Fluid Mech., 156:3 (2009), 189–201  crossref  mathscinet  zmath
8. V.E. Fedorov, R.R. Nazhimov, “Inverse problems for a class of degenerate evolution equations with Riemann-Liouville derivative”, Fract. Calc. Appl. Anal., 22:2 (2019), 271–286  crossref  mathscinet  zmath
9. A. Hazanee, D. Lesnic, M.I. Ismailov, N.B. Kerimov, “Inverse time-dependent source problems for the heat equation with nonlocal boundary conditions”, Appl. Math. Comput., 346 (2019), 800–815  mathscinet  zmath
10. M. Kirane, N. Al-Salti, “Inverse problems for a nonlocal wave equation with an involution perturbation”, J. Nonl. Sci. Appl., 9:3 (2016), 1243–1251  crossref  mathscinet  zmath  elib
11. N. Kinash, J. Janno, “Inverse problems for a perturbed time fractional diffusion equation with final overdetermination”, Math. Meth. Appl. Sci., 41:5 (2018), 1925–1943  crossref  mathscinet  zmath
12. I.A. Kaliev, M.M. Sabitova, “Problems of determining the temperature and density of heat sources from the initial and final temperatures”, J. Appl. Ind. Math., 4:3 (2010), 332–339  crossref  mathscinet  elib
13. M. Kirane, B. Samet, B.T. Torebek, “Determination of an unknown source term temperature distribution for the sub-diffusion equation at the initial and final data”, Electron. J. Diff. Equat., 2017:257 (2017), 1–13  mathscinet
14. A.A. Kilbas, H.M. Srivastava, J.J. Trujillo, Theory and applications of fractional differential equations, Elsevier, North-Holland, 2006  mathscinet  zmath
15. Y. Kian, M. Yamamoto, “Reconstruction and stable recovery of source terms and coefficients appearing in diffusion equations”, Inverse Probl., 35:11 (2019), 115006  crossref  mathscinet  zmath
16. Y. Luchko, R. Gorenflo, “An operational method for solving fractional differential equations with the Caputo derivatives”, Acta Math. Vietnam., 24:2 (1999), 207–233  mathscinet  zmath
17. A.S. Lyubanova, A. Tani, “An inverse problem for pseudo-parabolic equation of filtration. The existence, uniqueness and regularity”, Appl. Anal., 90:10 (2011), 1557–1571  crossref  mathscinet  zmath
18. A.S. Lyubanova, A. Tani, “On inverse problems for pseudoparabolic and parabolic equations of filtration”, Inverse Probl. Sci. Eng., 19:7 (2011), 1023–1042  crossref  mathscinet  zmath  elib
19. A.S. Lyubanova, A.V. Velisevich, “Inverse problems for the stationary and pseudoparabolic equations of diffusion”, Appl. Anal., 98:11 (2019), 1997–2010  crossref  mathscinet  zmath
20. J.J. Nieto, “Maximum principles for fractional differential equations derived from Mittag-Leffler functions”, Appl. Math. Lett., 23:10 (2010), 1248–1251  crossref  mathscinet  zmath
21. I. Orazov, M.A. Sadybekov, “On a class of problems of determining the temperature and density of heat sources given initial and final temperature”, Siber. Math. J., 53:1 (2012), 146–151  mathnet  crossref  mathscinet  zmath  elib
22. W. Rundell, “Determination of an unknown nonhomogeneous term in a linear partial differential equation from overspecified boundary data”, Appl. Anal., 10:3 (1980), 231–242  crossref  mathscinet  zmath
23. M. Ruzhansky, N. Tokmagambetov, B. T. Torebek, “Inverse source problems for positive operators. I: Hypoelliptic diffusion and subdiffusion equations”, J. Inverse Ill-posed Probl., 27:6 (2019), 891–911  crossref  mathscinet  zmath
24. W. Rundell, Z. Zhang, “Recovering an unknown source in a fractional diffusion problem”, J. Comput. Phys., 368 (2018), 299–314  crossref  mathscinet  zmath
25. T. Simon., “Comparing Frechet and positive stable laws”, Electron. J. Probab., 19:16 (2014), 1–25  mathscinet
26. M. M. Slodic̆ka, K. S̆is̆kova, K. V. Bockstal, “Uniqueness for an inverse source problem of determining a space dependent source in a time-fractional diffusion equation”, Appl. Math. Lett., 91 (2019), 15–21  crossref  mathscinet  zmath
27. D. Tong, Y. Liu, “Exact solutions for the unsteady rotational flow of non-Newtonian fluid in an annular pipe”, Inter. J. Engin. Sci., 43:3–4 (2005), 281–289  crossref  mathscinet  zmath  elib
28. B.T. Torebek, R. Tapdigoglu, “Some inverse problems for the nonlocal heat equation with Caputo fractional derivative”, Math. Methods Appl. Sci., 40:18 (2017), 6468–6479  crossref  mathscinet  zmath

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