Waterhouse, R., & Novack, D. (2015). Realizing 5G: Microwave Photonics for 5G Mobile Wireless Systems. IEEE Microwave Magazine, 16(8), 84-92. doi:10.1109/mmm.2015.2441593
Hirata, A., Takahashi, H., Yamaguchi, R., Kosugi, T., Murata, K., Nagatsuma, T., … Kado, Y. (2008). Transmission Characteristics of 120-GHz-Band Wireless Link Using Radio-on-Fiber Technologies. Journal of Lightwave Technology, 26(15), 2338-2344. doi:10.1109/jlt.2008.925641
Checko, A., Christiansen, H. L., Yan, Y., Scolari, L., Kardaras, G., Berger, M. S., & Dittmann, L. (2015). Cloud RAN for Mobile Networks—A Technology Overview. IEEE Communications Surveys & Tutorials, 17(1), 405-426. doi:10.1109/comst.2014.2355255
[+]
Waterhouse, R., & Novack, D. (2015). Realizing 5G: Microwave Photonics for 5G Mobile Wireless Systems. IEEE Microwave Magazine, 16(8), 84-92. doi:10.1109/mmm.2015.2441593
Hirata, A., Takahashi, H., Yamaguchi, R., Kosugi, T., Murata, K., Nagatsuma, T., … Kado, Y. (2008). Transmission Characteristics of 120-GHz-Band Wireless Link Using Radio-on-Fiber Technologies. Journal of Lightwave Technology, 26(15), 2338-2344. doi:10.1109/jlt.2008.925641
Checko, A., Christiansen, H. L., Yan, Y., Scolari, L., Kardaras, G., Berger, M. S., & Dittmann, L. (2015). Cloud RAN for Mobile Networks—A Technology Overview. IEEE Communications Surveys & Tutorials, 17(1), 405-426. doi:10.1109/comst.2014.2355255
Dat, P. T., Kanno, A., & Kawanishi, T. (2015). Radio-on-radio-over-fiber: efficient fronthauling for small cells and moving cells. IEEE Wireless Communications, 22(5), 67-75. doi:10.1109/mwc.2015.7306539
Lim, C., Nirmalathas, A., Bakaul, M., Gamage, P., Ka-Lun Lee, Yizhuo Yang, … Waterhouse, R. (2010). Fiber-Wireless Networks and Subsystem Technologies. Journal of Lightwave Technology, 28(4), 390-405. doi:10.1109/jlt.2009.2031423
Beas, J., Castanon, G., Aldaya, I., Aragon-Zavala, A., & Campuzano, G. (2013). Millimeter-Wave Frequency Radio over Fiber Systems: A Survey. IEEE Communications Surveys & Tutorials, 15(4), 1593-1619. doi:10.1109/surv.2013.013013.00135
Yao, J. (2009). Microwave Photonics. Journal of Lightwave Technology, 27(3), 314-335. doi:10.1109/jlt.2008.2009551
Doi, Y., Fukushima, S., Ohno, T., & Yoshino, K. (2001). Frequency stabilization of millimeter-wave subcarrier using laser heterodyne source and optical delay line. IEEE Photonics Technology Letters, 13(9), 1002-1004. doi:10.1109/68.942674
Hurtado, A., Henning, I. D., Adams, M. J., & Lester, L. F. (2013). Generation of Tunable Millimeter-Wave and THz Signals With an Optically Injected Quantum Dot Distributed Feedback Laser. IEEE Photonics Journal, 5(4), 5900107-5900107. doi:10.1109/jphot.2013.2267535
Liu, J., Chien, H.-C., Fan, S.-H., Chen, B., Yu, J., He, S., & Chang, G.-K. (2011). Efficient Optical Millimeter-Wave Generation Using a Frequency-Tripling Fabry–Pérot Laser With Sideband Injection and Synchronization. IEEE Photonics Technology Letters, 23(18), 1325-1327. doi:10.1109/lpt.2011.2159834
Nakasyotani, T., Toda, H., Kuri, T., & Kitayama, K. (2006). Wavelength-division-multiplexed Millimeter-waveband radio-on-fiber system using a supercontinuum light source. Journal of Lightwave Technology, 24(1), 404-410. doi:10.1109/jlt.2005.859854
L. Xu, C. Li, S.M.G. Lo, H.K. Tsang, Millimeter wave generation using four wave mixing in silicon waveguide, OECC 2010 Technical Digest, pp. 860-861, Jul. 2010.
Seo, Y.-K., Choi, C.-S., & Choi, W.-Y. (2002). All-optical signal up-conversion for radio-on-fiber applications using cross-gain modulation in semiconductor optical amplifiers. IEEE Photonics Technology Letters, 14(10), 1448-1450. doi:10.1109/lpt.2002.801823
T. Kanesa, F. Maskuriy, M. Hafiz, R. Mohamad, S.M. Mitani, H.M. Hizan, A.I.A. Rahim, P.A. Haigh, S. Rajbhandari, G. Chang, Dual pump brillouin laser for RoF millimeterwave carrier generation with tunable resolution, TENCON 2015 – 2015 IEEE Region 10 Conference, pp. 1–6, Nov. 2015.
Zhang, L., Zhu, M., Ye, C., Fan, S.-H., Liu, C., Hu, X., … Chang, G.-K. (2013). Generation and transmission of multiband and multi-gigabit 60-GHz MMW signals in an RoF system with frequency quintupling technique. Optics Express, 21(8), 9899. doi:10.1364/oe.21.009899
Zhang, J., Wang, J., Xu, Y., Xu, M., Lu, F., Cheng, L., … Chang, G. (2016). Fiber–wireless integrated mobile backhaul network based on a hybrid millimeter-wave and free-space-optics architecture with an adaptive diversity combining technique. Optics Letters, 41(9), 1909. doi:10.1364/ol.41.001909
Zhang, R., Lu, F., Xu, M., Liu, S., Peng, P.-C., Shen, S., … Chang, G.-K. (2018). An Ultra-Reliable MMW/FSO A-RoF System Based on Coordinated Mapping and Combining Technique for 5G and Beyond Mobile Fronthaul. Journal of Lightwave Technology, 36(20), 4952-4959. doi:10.1109/jlt.2018.2866767
Bohata, J., Komanec, M., Spáčil, J., Ghassemlooy, Z., Zvánovec, S., & Slavík, R. (2018). 24–26 GHz radio-over-fiber and free-space optics for fifth-generation systems. Optics Letters, 43(5), 1035. doi:10.1364/ol.43.001035
Chun-Ting Lin, Chen, J. J., Sheng-Peng Dai, Peng-Chun Peng, & Sien Chi. (2008). Impact of Nonlinear Transfer Function and Imperfect Splitting Ratio of MZM on Optical Up-Conversion Employing Double Sideband With Carrier Suppression Modulation. Journal of Lightwave Technology, 26(15), 2449-2459. doi:10.1109/jlt.2008.927160
Ning, G., Shum, P., & Zhou, J. (2007). Dispersion effect and compensation in optical-carrier-suppressed modulation transport systems. Journal of the Optical Society of America A, 24(11), 3432. doi:10.1364/josaa.24.003432
Qi, G., Yao, J., Seregelyi, J., Paquet, S., Belisle, C., Zhang, X., … Kashyap, R. (2006). Phase-Noise Analysis of Optically Generated Millimeter-Wave Signals With External Optical Modulation Techniques. Journal of Lightwave Technology, 24(12), 4861-4875. doi:10.1109/jlt.2006.884990
Lin Xu, Chao Li, Chow, C. W., & Hon Ki Tsang. (2009). Optical mm-Wave Signal Generation by Frequency Quadrupling Using an Optical Modulator and a Silicon Microresonator Filter. IEEE Photonics Technology Letters, 21(4), 209-211. doi:10.1109/lpt.2008.2010056
International Telecommunication Union, Forward error correction for high bit-rate DWDM submarine systems, ITU-T Recommendation G.975.1, 2004.
[-]