Research and Applications: Embedded System (e-ISSN:2582-2993)

This project investigates the integration of TCP/IP with Optical Wireless Communication (OWC) for high-speed, reliable data transmission using Ethernet technology. Data is transmitted at approximately 1 Gbps, with a laser module converting electrical signals to optical signals for wireless transmission, followed by reconversion at the receiver. The system ensures low-latency, seamless communication while maintaining TCP/IP reliability. It offers a cost-effective, wireless alternative to fiber optics for applications like inter-building communication, data centers, and short-range links.

"TCP/IP Integration in Optical Wireless Networks: Challenges and Solutions“, A. Gupta, B. Singh, C. Sharma ,IEEE Journal on Selected Areas in Communications (https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=49).

"Performance Evaluation of TCP Variants in Indoor Optical Wireless Networks“ , D. Li, E. Zhang, F. Chen, Journal of Lightwave Technology(https://link.springer.com/chapter/10.1007/978-981-16-3690-5_58).

"Adaptive Modulation and Coding for TCP/IP in OWC Networks“, M. Park, N. Choi, O. Lee , Optics Express,(https://opg.optica.org/oe/).

"Overview of Optical Wireless Communication (OWC)"Ghassemlooy, Z., Amon, S., Uysal, M., Xu, Z., & Cheng. J (2015). Optical wireless communications: system and channel modelling with MATLAB. CRC Press.

F.H. Fan and S. Ishibashi, “ Under water Applications of Light Emitting Diodes,” IEEE Underwater Technology (UT) 2015, pp. 1 – 5, 23-25 Feb. 2015.

[USR-TC P2 32] Serial UART To Ethernet converter, TCP/IP Module, Retrieved from http://www.usriot.com/Product/20.html. Accessed on 24 Dec,2015.