New solutions of fractional-order Burger-Huxley equation
Mohammad Partohaghighi, Mehmet Ali Akınlar, P. Agarwal, Yu‐Ming Chu
Abstract
A simple and powerful numerical method is proposed for solving the time-fractional Burger-Huxley equation (TFBH) equation within Caputo type fractional derivative. A fictitious coordinate θ is applied into the equation in order to convert the dependent variable u(x,t) into a new variable with an extra dimension. In the new space with the added fictitious dimension, a combination of the method of line and group preserving scheme (GPS) is introduced to find the approximate solutions. The reliability and accuracy of this scheme has been shown through some examples of the TFBH equation.
Topics & Concepts
MathematicsVariable (mathematics)Dimension (graph theory)Simple (philosophy)Space (punctuation)Fractional calculusMathematical analysisApplied mathematicsScheme (mathematics)Line (geometry)Computer sciencePure mathematicsGeometryEpistemologyPhilosophyOperating systemFractional Differential Equations SolutionsNonlinear Waves and SolitonsNumerical methods for differential equations