Controllable dynamical behaviors and the analysis of fractal Burgers hierarchy with the full effects of inhomogeneities of media
The aim of this work is three fold. First, via a fractional complex transformation
and a simplified bilinear method, N-shock-wave solutions for the variable-coefficient
fractal Burgers equations are obtained, with their relevant properties and features being
illustrated. The explicit functions describing the evolution of the amplitude, phase, and
velocity are also given. Second, through the characteristic-line method and graphical
analysis we discuss the solitonic propagation and collision, including the bidirectional
solitons and elastic interactions. Finally, a new approach to control the effects of inhomogeneities of media and nonuniformities of boundaries on the soliton behavior is
suggested