Article Information  
LED Based Optical Wireless Communication System for WBAN

Keywords: Infrared, Free-Space Optical Communication, Modulation, Optical Communications

Mehran University Research Journal of Engineering & Technology

Volume 35 ,  Issue 4


1. Chakraborty, C., Gupta, B., and Ghosh, S.K., "A Review on Telemedicine-Based WBAN Framework for Patient Monitoring", Telemedicine e-Health, Volume 19, No. 8, pp. 619-626, 2013.
2. Hanlen, L., Smith, D., Boulis, A., Gilbert, B., Chaganti, V., Craven, L., and Fang, D., "Wireless Body Area- Networks: Toward a Wearable Intranet", National ICT, Australia, 2011.
3. Bilstrup, K., "A Preliminary Study of Wireless Body Area Networks", Technical Report IDE0854, School of Information Science, Computer & Electrical Engineering, Halmstad University, Sweden, 2008.
4. Boucouvalas, A.C., Chatzimisios, P., Ghassemlooy, Z., Uysal, M., and Yiannopoulos, K., "Standards for Indoor Optical Wireless Communications", IEEE Communication Magazine, Volume 53, No. 3, pp. 24-31, 2015.
5. Zhang, X.P., Hraimel, B., and Wu, K., "Breakthroughs in Optical Wireless Broadband Access Networks", IEEE Photonics Journal, Volume 3, No. 2, pp. 331-336, 2011
6. Wang, K., Nirmalathas, A., Lim, C., and Skafidas, E., "Impact of Crosstalk on Indoor WDM Optical Wireless Communication Systems", IEEE Photonics Journal, Volume 4, No. 2, pp. 375-386, 2012.
7. Chow, C., Yeh, C., Liu, Y., and Liu, Y., "Digital Signal Processing for Light Emitting Diode Based Visible Light Communication", IEEE Photonics Society News Letters,pp. 9-13, October, 2012.
8. Wang, Z., Yu, C., Zhong, W.-D., Chen, J., and Chen, W., "Performance of a Novel LED Lamp Arrangement to Reduce SNR Fluctuation for Multi-User Visible Light Communication Systems", Optic Express, Volume 20, No. 4, pp. 4564, February, 2012.
9. Lin, W.-Y., Chen, C.-Y., Lu, H.-H., Chang, C.-H., Lin, Y.-P., Lin, H.-C., and Wu, H.-W., "10m/500Mbps WDM Visible Light Communication Systems", Optic Express, Volume 20, No. 9, pp. 9919-9924, 2012.
10. Baqai, A., Umrani, F.A., and Chowdhry, B.S., "Design, Development and Implementation of the IR Signaling Techniques for Monitoring Ambient and Body Temperature in WBANs", Mehran University Research Journal of Engineering & Technology, Volume 33, No. 3, pp. 365-371, Jamshoro, Pakistan, July, 2014
11. Komine, T., and Nakagawa, M., "Fundamental Analysis for Visible-Light Communication System using LED Lights", IEEE Transactions on Consumer Electronic, Volume 50, No. 1, pp. 100-107, February, 2004
12. Cossu, G., Corsini, R., and Ciaramella, E., "Indoor High-Speed Optical Wireless Communications: Recent Developments", 16th International Conference on Transparent Optical Networks, pp. 1-4, Graz, 6-10 July, 2014.
13. Chow, C.W., Yeh, C.H., Liu, Y.F., and Huang, P.Y., "Mitigation of Optical Background Noise in Light- Emitting Diode (LED) Optical Wireless Communication Systems", IEEE Photonics Journal, Volume 5, No. 1, pp. 7900307-7900307, February, 2013.
14. Shridhar, A., "Visible Light Communication", PhD Thesis, Worcester Polytechnic Institute, 2015.
15. Choi, H.S., Kang, S.Y., Cho, S.J., Oh, I.-Y., Shin, M., Park, H., Jang, C., Min, B.-C., Kim, S.-I., Park, S.-Y., and Park, C.S., "Spin Nano-Oscillator-Based Wireless Communication", Science Report, Volume 4, June, 2014.
16. Prince, S., and Vibin, A.M., "Optical Wireless Audio Communication Using LED Lighting System", Wireless Prospectus Communication, Volume 86, No. 3, pp. 1159- 1168, February, 2016.
17. Hussain, B., Li, X., Che, F., Patrick Yue, C., and Wu, L., "Visible Light Communication System Design and Link Budget Analysis", Journal of Light Technology, Volume 33, No. 24, pp. 5201-5209, December, 2015.