In this paper, a nonlinear fractional emerging telecommunication model with higher–
order dispersive cubic–quintic is studied by using two recent computational schemes. This kind
of model is arising in many applications such as machine learning and deep learning, cloud computing,
data science, dense sensor network, artificial intelligence convergence, integration of Internet of
Things, self–service IT for business users, self-powered data centers, and dense sensor networks
(DSNs) that is used in the turbine blades monitoring and health monitoring. Two practical algorithms
(modified Khater method and sech–tanh functions method) are applied to higher–order dispersive
cubic–quintic nonlinear complex fractional Schro¨ dinger (NLCFS) equation. Many novel
traveling wave solutions are constructed that do not exist earlier. These solutions are considered as
the icon key in the emerging telecommunication field, were they able to explain the physical nature
of the waves spread, especially in the dispersive medium. For more illustration, some attractive
sketches are also depicted for the interpretation physically of the achieved solutions.
Research Abstract
Research Department
Research Journal
Alexandria Engineering Journal
Research Member
Research Publisher
ٍcience direct
Research Rank
1
Research Vol
59
Research Website
https://www.sciencedirect.com/science/article/pii/S1110016820301617
Research Year
2020
Research Pages
1425–1433