Shiam Khabir

Work place: Dept. of Computer Science, American International University-Bangladesh Dhaka-1229, Bangladesh

E-mail: shiamkhabir@gmail.com

Website: https://www.linkedin.com/in/shiam-khabir-9b381ab7/

Research Interests: Computer systems and computational processes, Virtual Reality, Network Architecture, Network Security, Data Structures and Algorithms

Biography

Shiam Khabir who is completed his B.Sc. degree in Computer Science & Engineering (CSE) in 2018 from American International University-Bangladesh (AIUB).  Now he is applying different foreign university to complete his masters. At the same time, he tries for a Govt. IT Job as well. His research interest includes wireless sensor network, virtual reality and network security.

LinkedIn Profile: https://www.linkedin.com/in/shiam-khabir-9b381ab7/

Author Articles
Li-Fi Technology: Increasing the Range of Li-Fi by Using Mirror

By S. M. Tanvir Abid Shiam Khabir Md. Abir Hasan Abhishek Saha Md Masuduzzaman

DOI: https://doi.org/10.5815/ijitcs.2019.01.06, Pub. Date: 8 Jan. 2019

Data transmission is one of the most important term used in our day to day activities in the fast-growing world. Li-Fi opens a new era to that. Li-Fi is known as Light Fidelity. Simply it transmits data by visible light. According to recent research Li-Fi has a range of approximately 10 meters. Also, it cannot pass through wall or any solid object. So, this research focuses mainly to increase the 10-meter range. For a regular sized room this range is enough. But if anyone wants to provide data inside a big hall or in any large room, it is not possible by only this range. He must provide more LED that is connected to the Li-Fi router. This research focuses to optimize the number of LED and to minimize the cost. To increase the range of LED two methods are proposed here. One of the method deals with the positioning of the LEDs and another method is to use concave mirror. Smarter way of positioning of light gives better coverage of light that increases the range of LED. As concave mirror gives real and increased mirror for a particular positioning of an object, which is proved both theoretically and mathematically.

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