On conformable differential equation with variable coefficient
- Keywords:
- Conformable derivative, differential equation, existence and regularity, Banach fixed-point theorem
- Abstract
-
In this paper, we consider the differential equation with conformable derivative and variable coefficients. By applying Banach’s fixed point theorem, we show the global existence of the mild solution. We establish some results of the solution concerning the continuity of the parameters. In addition, we also study the convergence of the mild solution when the fractional order tends to 1−.
- References
-
[1] H. Afshari, V. Roomi, and M. Nosrati, Existence and uniqueness for a fractional differential equation involving Atangana--Baleanu derivative by using a new contraction, Letters in Nonlinear Analysis and its Applications 1 (2023), no. 2, 52--56.
[2] B. Ahmad, M. Alghanmi, A. Alsaedi, and R. V. Agarwal, On an impulsive hybrid system of conformable fractional differential equations with boundary conditions, Internat. J. Systems Sci. 51 (2020), no. 5, 958--970.
[3] F. M. Alharbi, D. Baleanu, and A. Ebaid, Physical properties of the projectile motion using the conformable derivative, Chinese Journal of Physics 58 (2019), 18--28.
[4] H. Batarfi, J. Losada, J. J. Nieto, and W. Shammakh, Three-point boundary value problems for conformable fractional differential equations, J. Funct. Spaces (2015), 1--6, Art. ID 706383.
[5] B. Bayour and D. F. M. Torres, Existence of solution to a local fractional nonlinear differential equation, J. Comput. Appl. Math. 312 (2017), 127--133.
[6] A. Benkerrouche, M. Souid, E. Karapinar, and A. Hakem, On the boundary value problems of Hadamard fractional differential equations of variable order, Math. Methods Appl. Sci. 46 (2023), no. 3, 3187--3203.
[7] M. Bouaouid, K. Hilal, and S. Melliani, Existence of mild solutions for conformable fractional differential equations with nonlocal conditions, Rocky Mountain J. Math. 50 (2020), no. 3, 871--879.
[8] W. S. Chung, Fractional Newton mechanics with conformable fractional derivative, Journal of Computational and Applied Mathematics 290 (2015), 150--158.
[9] Vo Thi Thanh Ha, Hung Ngo, and Phuong Nguyen Duc, Identifying inverse source for diffusion equation with conformable time derivative by fractional Tikhonov method, Advances in the Theory of Nonlinear Analysis and its Application 6 (2022), no. 4, 433--450.
[10] S. He, K. Sun, X. Mei, B. Yan, and S. Xu, Numerical analysis of a fractional-order chaotic system based on conformable fractional-order derivative, Eur. Phys. J. Plus 132 (2017), DOI 10.1140/epjp/i2017-11306-3.
[11] E. Karapinar, H. D. Binh, N. H. Luc, and N. H. Can, On continuity of the fractional derivative of the time-fractional semilinear pseudo-parabolic systems, Adv. Difference Equ. (2021), Paper No. 70, 24 pp.
[12] E. Karapinar, H. D. Binh, N. H. Luc, and N. H. Can, On continuity of the fractional derivative of the time-fractional semilinear pseudo-parabolic systems, Advances in Difference Equations 2021 (2021), DOI 10.1186/s13662-021-03232-z.
[13] E. Karapinar, A. Fulga, M. Rashid, L. Shahid, and H. Aydi, Large contractions on quasi-metric spaces with an application to nonlinear fractional differential-equations, Mathematics 7 (2019), DOI 10.3390/math7050444.
[14] R. Khalil, M. Al Horani, A. Yousef, and M. Sababheh, A new definition of fractional derivative, J. Comput. Appl. Math. 264 (2014), 65--70.
[15] Salim Krim, Abdelkrim Salima, and Mouffak Benchohra, On implicit Caputo tempered fractional boundary value problems with delay, Letters in Nonlinear Analysis and its Applications 1 (2023), no. 1, 12--29.
[16] V. F. Morales-Delgado, J. F. Gómez-Aguilar, R. F. Escobar-Jiménez, and M. A. Taneco-Hernández, Fractional conformable derivatives of Liouville--Caputo type with low-fractionality, Physica A: Statistical Mechanics and its Applications 503 (2018), 424--438.
[17] W. Qiu, M. Fev{c}kan, D. O'Regan, and J. R. Wang, Convergence analysis for iterative learning control of conformable impulsive differential equations, Bull. Iranian Math. Soc. 48 (2022), no. 1, 193--212.
[18] Vahid Roomi, Hojjat Afshari, and Monireh Nosrati, Existence and uniqueness for a fractional differential equation involving Atangana--Baleanu derivative by using a new contraction, Letters in Nonlinear Analysis and its Applications 1 (2023), no. 2, 52--56.
[19] A. Souahi, A. Ben Makhlouf, and M. A. Hammami, Stability analysis of conformable fractional-order nonlinear systems, Indag. Math. 28 (2017), 1265--1274.
[20] N. H. Tuan, N. V. Tien, D. O'Regan, N. H. Can, and N. V. Thinh, New results on continuity by order of derivative for conformable parabolic equations, Fractals 31 (2023), no. 4.
[21] N. H. Tuan, N. V. Tien, and C. Yang, On an initial boundary value problem for fractional pseudo-parabolic equation with conformable derivative, Math. Biosci. Eng. 19 (2022), no. 11, 11232--11259.
[22] Nguyen Hoang Tuan, Nguyen Minh Hai, and Phuong Nguyen Duc, On the nonlinear Volterra equation with conformable derivative, Advances in the Theory of Nonlinear Analysis and its Application 7 (2023), no. 2, 292--302.
[23] G. Xiao, J. R. Wang, and D. O'Regan, Existence and stability of solutions to neutral conformable stochastic functional differential equations, Qualitative Theory of Dynamical Systems 21 (2022), DOI 10.1007/s12346-021-00538-x.
[24] C. Zhai and Y. Liu, An integral boundary value problem of conformable integro-differential equations with a parameter, J. Appl. Anal. Comput. 9 (2019), no. 5, 1872--1883.
[25] W. Zhong and L. Wang, Basic theory of initial value problems of conformable fractional differential equations, Adv. Differ. Equ. 2018 (2018), 1--14.
[26] W. Zhong and L. Wang, Positive solutions of conformable fractional differential equations with integral boundary conditions, Bound. Value Probl. (2018), Paper No. 136, 12 pp.
[27] H. W. Zhou, S. Yang, and S. Q. Zhang, Conformable derivative approach to anomalous diffusion, Physica A: Statistical Mechanics and its Applications 491 (2018), 1001--1013.
- Additional Files
- Published
- 12-12-2025
- Issue
- Vol. 3 No. 1 (2025)
- Section
- Research Article
- License
-
Copyright (c) 2025 Yusuf Gurefe
This work is licensed under a Creative Commons Attribution 4.0 International License.
How to Cite
Similar Articles
- Zahra Eidinejad, On the existence and uniqueness of pseudo almost automorphic solutions for integro differential equations with reflection , Letters on Applied and Pure Mathematics: Vol. 2 No. 1 (2024)
- Vo Ngoc Minh, The continuity of solution set of a multi-point boundary problem with a control system , Letters on Applied and Pure Mathematics: Vol. 1 No. 1 (2023)
- Caibin Zeng, Time fractional stochastic Navier-Stokes equations driven by fractional Brownian motion , Letters on Applied and Pure Mathematics: Vol. 2 No. 1 (2024)
- Yusuf Gurefe, Le Dinh Long, Reconstructing the right-hand side of a Poisson equation with random noise , Letters on Applied and Pure Mathematics: Vol. 1 No. 1 (2023)
- Donal O'Regan, On nonlinear Sobolev equations with terminal observations in \(L^p\) spaces , Letters on Applied and Pure Mathematics: Vol. 1 No. 1 (2023)
- Devendra Kumar, On approximation and error estimate for Poisson equation in Banach space , Letters on Applied and Pure Mathematics: Vol. 2 No. 1 (2024)
- Le Dinh Long, Ngo Ngoc Hung, Recovering initial condition backward problem for composite fractional relaxation equations , Letters on Applied and Pure Mathematics: Vol. 3 No. 1 (2025)
- Jiaqian Yuan, Jian Zhou, Yunshun Wu, Existence of nontrivial solutions for Schrödinger-Poisson system with sign-changing potential , Letters on Applied and Pure Mathematics: Vol. 2 No. 1 (2024)
- Mengjiao Feng, Junyilang Zhao, Existence and stability of periodic solutions in a multi-species GA predator-prey system with multiple delays on time scales , Letters on Applied and Pure Mathematics: Vol. 3 No. 1 (2025)
- ChangYong Xiang, Finite time blow-up for an inhomogeneous strongly damped fourth-order wave equation with nonlinear memory , Letters on Applied and Pure Mathematics: Vol. 3 No. 1 (2025)
You may also start an advanced similarity search for this article.