Fractional differential equations can present the physical pathways with the storage and inherited properties due to the memory factor of fractional order. The purpose of this work is to interpret the collocation approach for tackling the fractional partial integro-differential equation (FPIDE) by employing the extended cubic B-spline (ECBS). To determine the time approximation, we utilize the Caputo approach. The stability and convergence analysis have also been analyzed. The efficiency and reliability of the suggested technique are demonstrated by two numerical applications, which support the theoretical results and the effectiveness of the implemented algorithm
Several fracture and fatigue problems are modelled by fractional differential equations and the numb...
In this paper, we give a new numerical method for solving a linear system of fractional integro-diff...
AbstractIn this article, we implement relatively new analytical techniques, the variational iteratio...
Fractional differential equations can present the physical pathways with the storage and inherited p...
Abstract The shifted Chebyshev polynomials of the fifth kind (SCPFK) and the collocation method are ...
In this article, we solve fractional Integro differential equations (FIDEs) through a well-known tec...
AbstractSome regularity properties of the solution of linear multi-term fractional differential equa...
Fractional order partial differential equations, as generalization of classical integer order partia...
In this study, we investigate numerical solutions of the fractional telegraph equation with the aid ...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
Several fracture and fatigue problems are modelled by fractional differential equations and the numb...
Several fracture and fatigue problems are modelled by fractional differential equations and the numb...
In this paper, we give a new numerical method for solving a linear system of fractional integro-diff...
AbstractIn this article, we implement relatively new analytical techniques, the variational iteratio...
Fractional differential equations can present the physical pathways with the storage and inherited p...
Abstract The shifted Chebyshev polynomials of the fifth kind (SCPFK) and the collocation method are ...
In this article, we solve fractional Integro differential equations (FIDEs) through a well-known tec...
AbstractSome regularity properties of the solution of linear multi-term fractional differential equa...
Fractional order partial differential equations, as generalization of classical integer order partia...
In this study, we investigate numerical solutions of the fractional telegraph equation with the aid ...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
The introduction of non-integer derivatives into the models of many processes of science and enginee...
Several fracture and fatigue problems are modelled by fractional differential equations and the numb...
Several fracture and fatigue problems are modelled by fractional differential equations and the numb...
In this paper, we give a new numerical method for solving a linear system of fractional integro-diff...
AbstractIn this article, we implement relatively new analytical techniques, the variational iteratio...