Open AccessA Survey of Optical Fiber Communications: Challenges and Processing Time Influences
Author(s) -
Fairoz Q. Kareem,
Subhi R. M. Zeebaree,
Hivi Ismat Dino,
Mohammed A. M. Sadeeq,
Zryan Najat Rashid,
Dathar Abas Hasan,
Karzan Hussein Sharif
Publication year - 2021
Publication title -
asian journal of research in computer science
Language(s) - English
Resource type - Journals
ISSN - 2581-8260
DOI - 10.9734/ajrcos/2021/v7i430188
Subject(s) - wavelength division multiplexing , optical fiber , computer science , optical communication , transmission (telecommunications) , telecommunications network , fiber optic communication , telecommunications , optical performance monitoring , multiplexing , data transmission , wavelength , electronic engineering , fiber optic splitter , engineering , optics , fiber optic sensor , computer network , physics
Optical fibers are utilized widely for data transmission systems because of their capacity to carry extensive information and dielectric nature. Network architectures utilizing multiple wavelengths per optical fiber are used in central, metropolitan, or broad‐area applications to link thousands of users with a vast range of transmission speeds and capacities. A powerful feature of an optical communication link is sending several wavelengths through the 1300‐to‐1600‐ nm range of a fibre simultaneously. The technology of integrating several wavelengths onto a similar fiber is called wavelength division multiplexing (WDM). The principle of WDM utilized in concurrence with optical amplifiers has an outcome in communication links that permit rapid communications among users in the world's countries. This paper presents an overview of the challenges of fibre optic communication. This paper offers an outline of the areas to be the most relevant for the future advancement of optical communications. The invention of integrated optics and modern optical fibers takes place in the field of optical equipment and components.