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ITC571 Emerging Technologies & Innovation: Li-Fi Research Seminar

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Added on  2023/06/10

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Presentation
AI Summary
This presentation provides an overview of Li-Fi (Light Fidelity) technology, an emerging wireless optical networking technology that uses LEDs for data transmission. It highlights Li-Fi's potential for high-speed data exchange (up to 10 Gbps), its advantages such as faster speeds, increased security, and environmental friendliness, and its disadvantages, including the need for a light source and limitations due to physical barriers. The presentation also reflects on the implementation costs and the need for new infrastructure, while emphasizing the potential for enhanced security and fast information exchange in the future. References to relevant research papers are included to support the claims and findings presented. Desklib provides access to this presentation and many other study resources.
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School of Computing & Mathematics
ITC571
Emerging Technologies &
Innovation
Research
Seminar Presentation
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School of Computing & Mathematics
Introduction
Li-Fi is a wireless Optical networking technology
LEDs (Light Emitting Diodes) is being used for
data and information exchange (Kumbhar et
al., 2017)
Optical data transmission takes place while
executing data and information exchange.
It can allow 10 Gbps (gigabits-per-second)
speed for the data exchange.
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School of Computing & Mathematics
Literature Review
Fastest wireless network
1k times the radio’s spectrum
Highly secured (Zahrani, 2018)
Prevents piggybacking
Environment friendly
Unimpeded through radio interference

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Results/Findings
Services or Applications within organization
File transfer
Data and information exchange (Goswami & Shukla, 2017)
Security
Bulk data in single instance
Big files can be shared
No need of hardware and software
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School of Computing & Mathematics
Results/Findings
Disadvantages
It cannot be applicable without light source
Limited situations and locations
Limited to physical barriers (Soltani et al., 2017)
Signals outdoors’ interception
Interference could be caused due to sunlight
New infrastructure is necessary for the organization
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School of Computing & Mathematics
Reflection
Capstone linkage with project
This implementation can be costly
It can be restricted
However, the speed will make it more applicable in
future
Bulk transfers will allow fast information exchange
(Singh & Vaish, 2018)
Enhanced security will be the achievement
Implementation will require new infrastructure
establishment

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Refernces
Divakar, S., Sowmyashree, G. R., Kavya, S. N., & Naveen, K. B. (2017). RFID BASED
SMART BUS TRACKING SYSTEM USING LI-FI TECHNOLOGY.
Goswami, P., & Shukla, M. K. (2017). Design of a Li-Fi Transceiver. Wireless Engineering
and Technology, 8(04), 71.
Kumbhar, A., Wadkar, P., Virkar, M., & Bhalekar, S. (2017). LIFI Based Indoor Navigation
System for College. Imperial Journal of Interdisciplinary Research, 3(3).
Perwej, Y. (2017). The Next Generation of Wireless Communication Using Li-Fi (Light
Fidelity) Technology. Journal of Computer Networks, 4(1), 20-29.
Singh, S., & Vaish, A. (2018). Li-Fi: The Emerging Technology and the green avatar of Wi-Fi.
Soltani, M. D., Kazemi, H., Safari, M., & Haas, H. (2017, March). Handover Modeling for
Indoor Li-Fi Cellular Networks: The Effects of Receiver Mobility and Rotation. In Wireless
Communications and Networking Conference (WCNC), 2017 IEEE (pp. 1-6). IEEE.
Zahrani, M. S. (2018). New Trends in Wireless Communication: A Comparative Analysis and
Study on Li-Fi and Wi-Fi Technology (Strength, Security, Privacy and the Future). Asian
Journal of Applied Sciences, 11, 1-8.
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