Existence and asymptotic analysis of positive solutions for a singular fractional differential equation with nonlocal boundary conditions
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[1] Zhuyan Shao,et al. Triple positive solutions for semipositone fractional differential equations m-point boundary value problems with singularities and p–q-order derivatives , 2018, Nonlinear Analysis: Modelling and Control.
[2] Yonghong Wu,et al. The eigenvalue problem for a singular higher order fractional differential equation involving fractional derivatives , 2012, Appl. Math. Comput..
[3] Jian Liu,et al. AN APPLICATION OF VARIATIONAL METHODS TO SECOND-ORDER IMPULSIVE DIFFERENTIAL EQUATION WITH DERIVATIVE DEPENDENCE , 2014 .
[4] Yonghong Wu,et al. The spectral analysis for a singular fractional differential equation with a signed measure , 2015, Appl. Math. Comput..
[5] Jingmei Liu,et al. Ground state solution for a Schrödinger–Poisson equation with critical growth , 2018 .
[6] Aixia Qian. Infinitely many sign-changing solutions for a Schrö dinger equation , 2011 .
[7] Lishan Liu,et al. Finite time blow-up for a thin-film equation with initial data at arbitrary energy level , 2018 .
[8] Abdon Atangana,et al. Fractal-fractional differentiation and integration: Connecting fractal calculus and fractional calculus to predict complex system , 2017 .
[9] Yonghong Wu,et al. The uniqueness of positive solution for a singular fractional differential system involving derivatives , 2013, Commun. Nonlinear Sci. Numer. Simul..
[10] Lishan Liu,et al. Positive solutions for a system of nonlinear fractional nonlocal boundary value problems with parameters and p-Laplacian operator , 2017 .
[11] Xinguang Zhang,et al. Exact Iterative Solution for an Abstract Fractional Dynamic System Model for Bioprocess , 2017 .
[12] Jian Liu,et al. Multiple solutions for impulsive problems with non-autonomous perturbations , 2017, Appl. Math. Lett..
[13] Yonghong Wu,et al. Nontrivial solutions for a fractional advection dispersion equation in anomalous diffusion , 2017, Appl. Math. Lett..
[14] Xiuli Lin,et al. On the Existence of Solutions for Impulsive Fractional Differential Equations , 2017 .
[15] Lishan Liu,et al. Approximate controllability and optimal controls of fractional dynamical systems of order 1 , 2015 .
[16] Ying Wang,et al. Extremal solutions for p-Laplacian fractional integro-differential equation with integral conditions on infinite intervals via iterative computation , 2015 .
[17] Lishan Liu,et al. Multiple positive solutions for a system of impulsive integral boundary value problems with sign-changing nonlinearities , 2018, Appl. Math. Lett..
[18] Xiaocui Li,et al. Entire solutions for a reaction–diffusion equation with doubly degenerate nonlinearity , 2018, Advances in difference equations.
[19] Lishan Liu,et al. Positive solutions for a class of fractional 3-point boundary value problems at resonance , 2017 .
[20] Lishan Liu,et al. Existence and uniqueness for an m-point boundary value problem at resonance on infinite intervals , 2012, Comput. Math. Appl..
[21] Jiqiang Jiang,et al. Positive solutions to singular Dirichlet-type boundary value problems of nonlinear fractional differential equations , 2018 .
[22] Lishan Liu,et al. The convergence analysis and error estimation for unique solution of a p-Laplacian fractional differential equation with singular decreasing nonlinearity , 2018, Boundary Value Problems.
[23] Anmin Mao,et al. Nontrivial solutions of nonlocal fourth order elliptic equation of Kirchhoff type in R3 , 2018 .
[24] Yonghong Wu,et al. Finite time blow-up for a class of parabolic or pseudo-parabolic equations , 2018, Comput. Math. Appl..
[25] Yonghong Wu,et al. Existence results for multiple positive solutions of nonlinear higher order perturbed fractional differential equations with derivatives , 2012, Appl. Math. Comput..
[26] Qamar Din,et al. Asymptotic behavior of a Nicholson-Bailey model , 2014, Advances in Difference Equations.
[27] Fanwei Meng,et al. Traveling wave solutions for fractional partial differential equations arising in mathematical physics by an improved fractional Jacobi elliptic equation method , 2017 .
[28] Anmin Mao,et al. Existence and Multiplicity Results for Kirchhoff Problems , 2017 .
[29] Yonghong Wu,et al. Existence and asymptotic properties of solutions for a nonlinear Schrödinger elliptic equation from geophysical fluid flows , 2019, Appl. Math. Lett..
[30] Lishan Liu,et al. Existence results for impulsive fractional integro-differential equation of mixed type with constant coefficient and antiperiodic boundary conditions , 2017, Boundary Value Problems.
[31] Haitao Che,et al. A new simultaneous iterative method with a parameter for solving the extended split equality problem and the extended split equality fixed point problem , 2018, Numerical Algorithms.
[32] Yonghong Wu,et al. Positive solution of singular fractional differential system with nonlocal boundary conditions , 2014 .
[33] Anmin Mao,et al. Some nonlocal elliptic problem involving positive parameter , 2013 .
[34] I. Podlubny,et al. Physical interpretation of initial conditions for fractional differential equations with Riemann-Liouville fractional derivatives , 2005, math-ph/0512028.
[35] Jian Zhang,et al. Multiplicity of solutions of the bi-harmonic Schrödinger equation with critical growth , 2018 .
[36] JinRong Wang,et al. Exploring delayed Mittag-Leffler type matrix functions to study finite time stability of fractional delay differential equations , 2018, Appl. Math. Comput..
[37] Lishan Liu,et al. Solutions for a boundary value problem at resonance on [0, ∞) , 2013, Math. Comput. Model..
[38] Lishan Liu,et al. Convergence Analysis of iterative Scheme and error estimation of positive solution for a fractional differential equation , 2018, Math. Model. Anal..
[39] The matrix representation of the delta shape operator on time scales , 2016 .
[40] Jian Zhang,et al. Ground state of Kirchhoff type fractional Schrödinger equations with critical growth , 2018, Journal of Mathematical Analysis and Applications.
[41] H. Rezaei,et al. Stability of the Jensen equation in C*-algebras: a fixed point approach , 2012, Advances in Difference Equations.
[42] Anmin Mao,et al. Multiplicity of solutions to Schrödinger-Poisson system with concave-convex nonlinearities , 2018, Appl. Math. Lett..
[43] Amar Debbouche,et al. Editorial: Modern Fractional Dynamic Systems and Applications, MFDSA 2017: Special Issue In honor of: R.P. Agarwal, D. Baleanu, J.J. Nieto, D.F.M. Torres and Y. Zhou. Highly cited researchers in the field , 2018, J. Comput. Appl. Math..
[44] Zengqin Zhao,et al. Existence and uniqueness of symmetric positive solutions of 2n2n-order nonlinear singular boundary value problems , 2013, Appl. Math. Lett..
[45] Bo Zhu,et al. Local and global existence of mild solutions for a class of nonlinear fractional reaction-diffusion equations with delay , 2016, Appl. Math. Lett..
[46] Yonghong Wu,et al. The eigenvalue for a class of singular p-Laplacian fractional differential equations involving the Riemann-Stieltjes integral boundary condition , 2014, Appl. Math. Comput..
[47] Haijun Zhang,et al. Positive solutions of an infinite boundary value problem for nth-order nonlinear impulsive singular integro-differential equations in Banach spaces , 2012, Appl. Math. Comput..
[48] I. Podlubny. Fractional differential equations , 1998 .
[49] Lishan Liu,et al. Existence of infinitely solutions for a modified nonlinear Schrödinger equation via dual approach , 2018 .
[50] Xinguang Zhang,et al. Existence and nonexistence of radial solutions of the Dirichlet problem for a class of general k-Hessian equations , 2018, Nonlinear Analysis: Modelling and Control.
[51] Xinan Hao,et al. Positive solutions of semipositone singular fractional differential systems with a parameter and integral boundary conditions , 2018 .
[52] Aixia Qian,et al. Existence and concentration of positive solutions for quasilinear Schrödinger equations with critical growth , 2013 .
[53] Yonghong Wu,et al. Existence and nonexistence of blow-up solutions for a Schrödinger equation involving a nonlinear operator , 2018, Appl. Math. Lett..
[54] Lou Caccetta,et al. Entire large solutions for a class of Schrödinger systems with a nonlinear random operator , 2015 .
[55] Yonghong Wu,et al. Positive solutions to singular fractional differential system with coupled boundary conditions , 2013, Commun. Nonlinear Sci. Numer. Simul..
[56] Hui Sun,et al. Existence results for fractional integral boundary value problem involving fractional derivatives on an infinite interval , 2018, Mathematical Methods in the Applied Sciences.
[57] Teng Ren,et al. Maximum and minimum solutions for a nonlocal p-Laplacian fractional differential system from eco-economical processes , 2017 .
[58] Zengqin Zhao,et al. The Exact Iterative Solution of Fractional Differential Equation with Nonlocal Boundary Value Conditions , 2018, Journal of Function Spaces.
[59] Yonghong Wu,et al. Positive solutions for singular second order differential equations with integral boundary conditions , 2013, Math. Comput. Model..
[60] E. Misirli,et al. The modified Kudryashov method for solving some fractional-order nonlinear equations , 2014 .
[61] Lishan Liu,et al. The existence and nonexistence of entire large solutions for a quasilinear Schrödinger elliptic system by dual approach , 2018, Appl. Math. Lett..
[62] Yonghong Wu,et al. Variational structure and multiple solutions for a fractional advection-dispersion equation , 2014, Comput. Math. Appl..
[63] Yujun Cui,et al. An existence and uniqueness theorem for a second order nonlinear system with coupled integral boundary value conditions , 2015, Appl. Math. Comput..
[64] Yonghong Wu,et al. The uniqueness of positive solution for a fractional order model of turbulent flow in a porous medium , 2014, Appl. Math. Lett..
[65] Yonghong Wu,et al. The entire large solutions for a quasilinear Schrödinger elliptic equation by the dual approach , 2016, Appl. Math. Lett..
[66] Yonghong Wu,et al. Multiple positive solutions of a singular fractional differential equation with negatively perturbed term , 2012, Math. Comput. Model..
[67] Yonghong Wu,et al. Positive solutions of higher-order nonlinear fractional differential equations with changing-sign measure , 2012 .
[68] Yonghong Wu,et al. Entire blow-up solutions for a quasilinear p-Laplacian Schrödinger equation with a non-square diffusion term , 2017, Appl. Math. Lett..
[69] Zengqin Zhao,et al. Iterative technique for third-order differential equation with three-point nonlinear boundary value conditions , 2016 .
[70] Zengqin Zhao,et al. EXISTENCE OF POSITIVE SOLUTIONS TO A SINGULAR BOUNDARY-VALUE PROBLEM USING VARIATIONAL METHODS , 2014 .
[71] Lishan Liu,et al. Mild solution of semilinear impulsive integro‐differential evolution equation in Banach spaces , 2017 .
[72] Yujun Cui,et al. New Result on the Critical Exponent for Solution of an Ordinary Fractional Differential Problem , 2017 .
[73] Delfim F. M. Torres,et al. A fractional calculus on arbitrary time scales: Fractional differentiation and fractional integration , 2014, Signal Process..
[74] Yonghong Wu,et al. The iterative solutions of nonlinear fractional differential equations , 2013, Appl. Math. Comput..
[75] Yonghong Wu,et al. Local and global existence of mild solutions for a class of semilinear fractional integro-differential equations , 2017 .
[76] Fei Wang,et al. Quasi-synchronization for fractional-order delayed dynamical networks with heterogeneous nodes , 2018, Appl. Math. Comput..
[77] Xinguang Zhang,et al. Spectral Analysis for a Singular Differential System with Integral Boundary Conditions , 2016 .
[78] Lishan Liu,et al. Symmetric positive solutions to singular system with multi-point coupled boundary conditions , 2013, Appl. Math. Comput..
[79] Ying Wang,et al. Positive solutions of an abstract fractional semipositone differential system model for bioprocesses of HIV infection , 2015, Appl. Math. Comput..
[80] Xinguang Zhang,et al. Bifurcation analysis for a singular differential system with two parameters via to topological degree theory , 2017 .
[81] Hatice Kuşak Samancı. The matrix representation of the delta shape operator on time scales , 2016 .
[82] Modelling “unusual” behaviour after strain reversal with hierarchical fractional models , 2004 .