Analysis of Advanced Modulation Format Using Gain and Loss Spectrum for Long Range Radio over Fiber System
In this work, all optical Stimulated Brillouin Scattering (SBS) generated single sideband with suppressed carrier is presented to provide better efficiency. The generation of single sideband and enhanced carrier power signal using the SBS technique is further used to strengthen the low shifted sideband and to suppress the upshifted sideband. These generated single sideband signals are able to work at high frequency ranges. Also, generated single sideband is validated over 90 km transmission using single mode fiber with acceptable bit error rate. The results for an equivalent are then compared so that the acceptable technique is chosen and also the required quality for the optimum performance of the system is reported.
[1] M. Y. Frankel and R. D. Esman, “Optical single-sideband suppressed-carrier modulator for wide-band signal processing,” J. Lightw. Technol., vol. 16, no. 5, pp. 859–863, May 1998.
[2] S. Shimotsu, S. Oikawa, T. Saitou, N. Mitsugi, K. Kubodera, T. Kawanishi, and M. Izutsu, “Single side-band modulation performance of a LiNbO3 integrated modulator consisting of four-phase modulator waveguides,” IEEE Photon. Technol. Lett., vol. 13, no. 4, pp. 364–366, Apr. 2001.
[3] T. Tanemura, Y. Takushima, and K Kikuchi, “Narrowband optical filter, with a variable transmission spectrum, using stimulated Brillouin scattering in optical fiber,” Opt. Lett., vol. 27, no. 17, pp. 1552–1554, Sep. 2002.
[4] A. Zadok, A. Eyal, and M. Tur, “Gigahertz-wide optically reconfigurable filters using stimulated Brillouin scattering,” J. Lightw. Technol., vol. 25, no. 8, pp. 2168–2174, Aug. 2007.
[5] K. Y. Song and K. Hotate, “25 GHz bandwidth Brillouin slow light in optical fibers,” Opt. Lett., vol. 32, no. 3, pp. 217– 219, Feb. 2007.
[6] X. Yu, T. B. Gibbon, and I fonso T Monroy, "Bidirectional Radio -Over-Fiber System with Phase-Modulation Downlink and RF Oscillator-Free Uplink Using a Reflective SOA," IEEE, vol. 20, no. 24, pp. 2180-2182182, Dec. 2008.
[7] J. Liu, W. Noonpakdee, S. Schimamoto, “Design and Performance Evaluation of OFDM-Based Wireless Services Employing radio over Optical Wireless Link” International Journal of Wirless & Mobile Networks (IJWMN), Vol. 3, No.5, October, 2011.
[8] Lim, C., Nirmalathas, A., Bakaul, M., Gamage, P., Lee, K.-L., Yang, Y., Novak, D., Waterhouse, R, “Fiber-wireless networks and subsystem technologies” IEEE J. Lightwave Technol, vol 28, No. 4, 390-405, 2010.
[9] Zin, A. M., M. S. Bongsu, S. M. Idrus, and N. Zulkifli. "An overview of radio-over-fiber network technology." In Photonics (ICP), 2010 International Conference on, pp. 1-3. IEEE, 2010.
[10] A. E. Willner, Z. Pan, M. I. Hayee, “Major Accomplishments in 2010 on Optical Fiber Communication,” IEEE Photonics Journal, Vol. 3, No. 2, pp. 320-324, April 2011.
[11] Y. Ogiso, Y. Tsuchiya, S. Shinada, S. Nakajima, T. Kawanishi, and H. Nakajima, “High extinction-ratio integrated Mach–Zehnder modulator with active Y-branch for optical SSB signal generation,” IEEE Photon. Technol. Lett., vol. 22, no. 12, pp. 941–943, Jun. 2010.
[12] Mohamad. R, A. S Supaat, S. Yaakoba, A. K Zamzuri, S.N.A Sukito, "Millimeter wave carrier generation based on Brillouin fiber laser with improved tuning capability." Optik-International Journal for Light and Electron Optics Vol 125, no. 1,2014.
[13] Jianxin Man, YanjieLi, “A full-duplex multi band access radio-over-fiber link with frequency multiplying millimeter-wave generation and wavelength reuse for upstream signal” Optics Communications Volume 334, , Pages 22–26, 1 January 2015.
[14] Zihang Zhu, Shanghong Zhao, Yongjun Li, Xiaoping Chen, Xuan Li, “A novel scheme for high quality 120 GHz optical millimeter wave generation without optical filter,” Optics & Laser Technology 65, pp.29–35, 2015.
[1] M. Y. Frankel and R. D. Esman, “Optical single-sideband suppressed-carrier modulator for wide-band signal processing,” J. Lightw. Technol., vol. 16, no. 5, pp. 859–863, May 1998.
[2] S. Shimotsu, S. Oikawa, T. Saitou, N. Mitsugi, K. Kubodera, T. Kawanishi, and M. Izutsu, “Single side-band modulation performance of a LiNbO3 integrated modulator consisting of four-phase modulator waveguides,” IEEE Photon. Technol. Lett., vol. 13, no. 4, pp. 364–366, Apr. 2001.
[3] T. Tanemura, Y. Takushima, and K Kikuchi, “Narrowband optical filter, with a variable transmission spectrum, using stimulated Brillouin scattering in optical fiber,” Opt. Lett., vol. 27, no. 17, pp. 1552–1554, Sep. 2002.
[4] A. Zadok, A. Eyal, and M. Tur, “Gigahertz-wide optically reconfigurable filters using stimulated Brillouin scattering,” J. Lightw. Technol., vol. 25, no. 8, pp. 2168–2174, Aug. 2007.
[5] K. Y. Song and K. Hotate, “25 GHz bandwidth Brillouin slow light in optical fibers,” Opt. Lett., vol. 32, no. 3, pp. 217– 219, Feb. 2007.
[6] X. Yu, T. B. Gibbon, and I fonso T Monroy, "Bidirectional Radio -Over-Fiber System with Phase-Modulation Downlink and RF Oscillator-Free Uplink Using a Reflective SOA," IEEE, vol. 20, no. 24, pp. 2180-2182182, Dec. 2008.
[7] J. Liu, W. Noonpakdee, S. Schimamoto, “Design and Performance Evaluation of OFDM-Based Wireless Services Employing radio over Optical Wireless Link” International Journal of Wirless & Mobile Networks (IJWMN), Vol. 3, No.5, October, 2011.
[8] Lim, C., Nirmalathas, A., Bakaul, M., Gamage, P., Lee, K.-L., Yang, Y., Novak, D., Waterhouse, R, “Fiber-wireless networks and subsystem technologies” IEEE J. Lightwave Technol, vol 28, No. 4, 390-405, 2010.
[9] Zin, A. M., M. S. Bongsu, S. M. Idrus, and N. Zulkifli. "An overview of radio-over-fiber network technology." In Photonics (ICP), 2010 International Conference on, pp. 1-3. IEEE, 2010.
[10] A. E. Willner, Z. Pan, M. I. Hayee, “Major Accomplishments in 2010 on Optical Fiber Communication,” IEEE Photonics Journal, Vol. 3, No. 2, pp. 320-324, April 2011.
[11] Y. Ogiso, Y. Tsuchiya, S. Shinada, S. Nakajima, T. Kawanishi, and H. Nakajima, “High extinction-ratio integrated Mach–Zehnder modulator with active Y-branch for optical SSB signal generation,” IEEE Photon. Technol. Lett., vol. 22, no. 12, pp. 941–943, Jun. 2010.
[12] Mohamad. R, A. S Supaat, S. Yaakoba, A. K Zamzuri, S.N.A Sukito, "Millimeter wave carrier generation based on Brillouin fiber laser with improved tuning capability." Optik-International Journal for Light and Electron Optics Vol 125, no. 1,2014.
[13] Jianxin Man, YanjieLi, “A full-duplex multi band access radio-over-fiber link with frequency multiplying millimeter-wave generation and wavelength reuse for upstream signal” Optics Communications Volume 334, , Pages 22–26, 1 January 2015.
[14] Zihang Zhu, Shanghong Zhao, Yongjun Li, Xiaoping Chen, Xuan Li, “A novel scheme for high quality 120 GHz optical millimeter wave generation without optical filter,” Optics & Laser Technology 65, pp.29–35, 2015.
@article{"International Journal of Electrical, Electronic and Communication Sciences:75699", author = "Shaina Nagpal and Amit Gupta", title = "Analysis of Advanced Modulation Format Using Gain and Loss Spectrum for Long Range Radio over Fiber System", abstract = "In this work, all optical Stimulated Brillouin Scattering (SBS) generated single sideband with suppressed carrier is presented to provide better efficiency. The generation of single sideband and enhanced carrier power signal using the SBS technique is further used to strengthen the low shifted sideband and to suppress the upshifted sideband. These generated single sideband signals are able to work at high frequency ranges. Also, generated single sideband is validated over 90 km transmission using single mode fiber with acceptable bit error rate. The results for an equivalent are then compared so that the acceptable technique is chosen and also the required quality for the optimum performance of the system is reported.
", keywords = "Stimulated Brillouin scattering, radio over fiber, upper side band, quality factor.", volume = "11", number = "6", pages = "670-4", }
