Research PaperNo Access

Dynamics of a new class of solitary wave structures in telecommunications systems via a (2+1)-dimensional nonlinear transmission line

Guanqi Tao

Experimental and Practice Innovation Education Center, Beijing Normal University, Zhuhai 519087, China

E-mail Address: tgqbnu@163.com

Corresponding authors.

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Jamilu Sabi’u

Department of Mathematics, Yusuf Maitama Sule University, Kano, Nigeria

E-mail Address: jsabiu@yumsuk.edu.ng

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Savaïssou Nestor

Department of Physics, Faculty of Science, University of Maroua, P.O. Box 814, Maroua, Cameroon

E-mail Address: savaissoun77@gmail.com

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Rehab M. El-Shiekh

Department of Mathematics, Faculty of Education, Ain Shams University, Cairo, Egypt

College of Business Administration in Majmaah, Majmaah University, 11952, Kingdom of Saudi Arabia

E-mail Address: r.abdelhaim@mu.edu.sa

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Lanre Akinyemi

Department of Mathematics, Lafayette College, Easton, PA, USA

E-mail Address: akinyeml@lafayette.edu

Corresponding authors.

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Emad Az-Zo’bi

Department of Mathematics and Statistics, Mutah University, Al-Karak, Jordan

E-mail Address: eaaz2006@mutah.edu.jo

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, and

Gambo Betchewe

Department of Physics, Faculty of Science, University of Maroua, P.O. Box 814, Maroua, Cameroon

E-mail Address: gambobetch@yahoo.fr

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https://doi.org/10.1142/S0217984921505965Cited by:32 (Source: Crossref)

Abstract

The telecommunications revolution finds its foundation thanks to new service offerings including voice, images, security of computer data and much more. Thereby, telecommunications can be defined as the transmission of information at a distance using electronic, computer, wired, optical or electromagnetic technologies. At an expense of these characteristics, this paper explores the dynamics of various travelingwaves, through telecommunications systems. In this perspective, we use a (2+1)-dimensional nonlinear transmission line equation, by solving it analytically using a novel developed techniques: The improved Sardar-subequation. As a result, we discover several novel voltage characteristics such as bright, trigonometric, exponential and dark function solutions. Using certain appropriate values, we provide several different surfaces of the solutions produced in this work. These findings will be essential in the telecommunications system used to represent wave propagations.

Keywords:

AMSC: 35G20, 35K99

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