Abstract
This work is focused on transmission of 10 Gbps data and 60 GHz millimeter signal over 60 km optical fiber for 5 G applications. 5 G networks generally use millimeter range of frequencies. Radio over fiber is revolutionary technology to transmit radio signals over optical fiber. Furthermore, the comparative analysis of non-return to zero (NRZ) and return to zero (RZ) encoding schemes is also done. The results are reported in terms of Q-factor, bit error rate and eye diagrams. The reported results show the successful transmission of high speed 10 Gbps data and 60 GHz millimeter signal over 60 km optical fiber.
References
1. Rappaport TS, Sun S, Mayzus R, Zhao H, Azar Y, Wang K et al. Millimeter wave mobile communications for 5 G cellular: It will work!. IEEE Access 2013;1:335–349.10.1109/ACCESS.2013.2260813Search in Google Scholar
2. Qiao J, Shen XS, Mark JW, Shen Q, He Y, Lei L. Enabling device-to-device communications in millimeter-wave 5 G cellular networks. IEEE Communications Magazine 2015; 53:209–215.10.1109/MCOM.2015.7010536Search in Google Scholar
3. Stöhr A, Hermelo MF, Chuenchom R, Rymanov V, Khani B, Zou X, et al. Highly spectral-efficient and high capacity millimeter-wave wireless data transmission using a Coherent Radio-over-Fiber system (CRoF). In: Networks and Optical Communications (NOC), 2016 21st European Conference on, 2016: 201–206.10.1109/NOC.2016.7507013Search in Google Scholar
4. Rappaport TS, MacCartney GR, Samimi MK, Sun S. Wideband millimeter-wave propagation measurements and channel models for future wireless communication system design. IEEE Trans Commun 2015;63:3029–3056.10.1109/TCOMM.2015.2434384Search in Google Scholar
5. Sharma V, Kumar S. Empirical evaluation of wired-and wireless-hybrid OFDM–OSSB–RoF transmission system. Opt-Int J Light Opt 2013;124:4529–4532.10.1016/j.ijleo.2013.01.045Search in Google Scholar
6. Sharma V, Kumar S. Hybrid OFDM-OSSB-RoF transmission system incorporating fiber Bragg grating. Opt-Int J Light Opt 2013;124:4670–4672.10.1016/j.ijleo.2013.01.068Search in Google Scholar
7. Wake D, Webster M, Wimpenny G, Beacham K, Crawford L. Radio over fiber for mobile communications. In: Microwave Photonics, 2004. MWP’04. 2004 IEEE International Topical Meeting on, 2004: 157–160.Search in Google Scholar
8. Sauer M, Kobyakov A, George J. Radio over fiber for picocellular network architectures. J Lightwave Technol 2007;25:3301–3320.10.1109/LEOS.2009.5343391Search in Google Scholar
9. Lu F, Xu M, Cheng L, Wang J, Zhang J, Chang G-K. Non-orthogonal multiple access with successive interference cancellation in millimeter-wave radio-over-fiber systems. J Lightwave Technol 2016;34:4179–4186.10.1109/JLT.2016.2593665Search in Google Scholar
10. Thomas VA, El-Hajjar M, Hanzo L. Millimeter-wave radio over fiber optical upconversion techniques relying on link nonlinearity. IEEE Commun Surveys & Tutorials 2016;18:29–53.10.1109/COMST.2015.2409154Search in Google Scholar
© 2019 Walter de Gruyter GmbH, Berlin/Boston
