Simulation and performance analysis of the sub carrier multiplexed radio over fiber system
Radio over Fiber (RoF) technology or micro cellular over fiber is proposed solution for the reducing cost and providing highly reliable communication services. The system is a technique that modulates RF in microwave signals on an optical carrier to take advantage of the low loss of optical fiber ch...
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2007
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TK Electrical engineering Electronics Nuclear engineering Arsat, Mahyuddin Simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
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Radio over Fiber (RoF) technology or micro cellular over fiber is proposed solution for the reducing cost and providing highly reliable communication services. The system is a technique that modulates RF in microwave signals on an optical carrier to take advantage of the low loss of optical fiber characteristic. The RoF system is very cost-effective because the localization of signal processing in central station and also use a simple base station. In this system, the subcarrier multiplexed system for data transmission has been developed and the performance of the system was analyze in term of signal power, Bit Error Rate (BER), Carrier-to-Noise ratio (CNR) and Eye diagram. This system was focus on a link between two stations; a transmitter and receiver. The designed of SCM-RoF system employing PSK as the RF modulation scheme. In this work, the transmitter presenting four input signal and each of the signal will be modulate using PSK individually. At the optical domain, the CW Laser diode was used as the optical source, while Mach Zender as the optical modulator. Whereby, the transmission link was modelled using standard single mode fiber up to 150 km communication distance with EDFA 0m – 5m length. At the receiver end, the light carrying the radio subcarrier multiplexed signal is photo-detected by a PIN photodiode. |
| format |
Thesis |
| qualification_level |
Master's degree |
| author |
Arsat, Mahyuddin |
| author_facet |
Arsat, Mahyuddin |
| author_sort |
Arsat, Mahyuddin |
| title |
Simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
| title_short |
Simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
| title_full |
Simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
| title_fullStr |
Simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
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Simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
| title_sort |
simulation and performance analysis of the sub carrier multiplexed radio over fiber system |
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Universiti Teknologi Malaysia, Faculty of Electrical Engineering |
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Faculty of Electrical Engineering |
| publishDate |
2007 |
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http://eprints.utm.my/id/eprint/11352/1/MahyuddinArsatMFKE2007.pdf |
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my-utm-ep.113522018-07-25T08:00:04Z Simulation and performance analysis of the sub carrier multiplexed radio over fiber system 2007-12-03 Arsat, Mahyuddin TK Electrical engineering. Electronics Nuclear engineering Radio over Fiber (RoF) technology or micro cellular over fiber is proposed solution for the reducing cost and providing highly reliable communication services. The system is a technique that modulates RF in microwave signals on an optical carrier to take advantage of the low loss of optical fiber characteristic. The RoF system is very cost-effective because the localization of signal processing in central station and also use a simple base station. In this system, the subcarrier multiplexed system for data transmission has been developed and the performance of the system was analyze in term of signal power, Bit Error Rate (BER), Carrier-to-Noise ratio (CNR) and Eye diagram. This system was focus on a link between two stations; a transmitter and receiver. The designed of SCM-RoF system employing PSK as the RF modulation scheme. In this work, the transmitter presenting four input signal and each of the signal will be modulate using PSK individually. At the optical domain, the CW Laser diode was used as the optical source, while Mach Zender as the optical modulator. Whereby, the transmission link was modelled using standard single mode fiber up to 150 km communication distance with EDFA 0m – 5m length. At the receiver end, the light carrying the radio subcarrier multiplexed signal is photo-detected by a PIN photodiode. 2007-12 Thesis http://eprints.utm.my/id/eprint/11352/ http://eprints.utm.my/id/eprint/11352/1/MahyuddinArsatMFKE2007.pdf application/pdf en public masters Universiti Teknologi Malaysia, Faculty of Electrical Engineering Faculty of Electrical Engineering 1. G. Keiser, Optical fiber communications, 2nd ed., McGraw-Hill, Inc., 1991. 2. L. Raddatz, I. H. White, D. G. Cunningham, and M. C. Nowell, .Influence of restricted mode excitation on bandwidth of multimode fiber links,. IEEE Photonics Technology Letters, vol. 10, no. 4, pp. 534-536, April 1998. 3. L. J. Sargent, M. Webster, I. H. White, P. J. Heard, R. V. Penty, M. R. Tan, and D. G. Cunningham, .High performance multimode fibre link using ring-lasing vertical cavity surface emitting lasers,. 24th European Conference on Optical Communication, 1998, vol. 1, pp. 20-24, September 1998. 4. M. Webster et al, .Mode-Controlled Vertical Cavity Surface Emitting Lasers for Bandwidth Enhancement of Multimode Fibre Links,. Conference on Laser and Electro-Optics, 1998, pp. 33. 5. L.J. Sargent et al, .Spatial Emission Control of Vertical Cavity Surface Emitting Lasers to Provide Bandwidth Gain in Multimode Fibre Links Using a Simple Alignment Technique,. Semiconductor Laser Conference 1998, pp. 241-242. 6. M. Webster, L. Raddatz, I. H. White, and D. G. Cunningham, .A statistical analysis of conditioned launch for Gigabit Ethernet links using multimode fiber, Journal of Lightwave Technology, vol. 17, no. 9, pp. 1532-1541, September 1999. 7. I.H. White, M. Webster, and R. V. Penty, .High bandwidth optical links over multimode fibre,. IEEE Lasers and Electro-Optics Society, 12th Annual Meeting, Vol. 2, page 695-96, November 1999. 8. R. V. Penty, M. Webster, A. B. Massara, and I. H. White, .Physical layer strategies for 10 Gigabit Ethernet,. in Electronic Components and Technology Conference 2000, pp. 487-490. 9. G. Giaretta, R. Michalzik, and A. J. Ritger, .Long distance (2.8 km), short wavelength (0.85 mm) data transmission at 10 Gb/sec over new generation high bandwidth multimode fiber,. in Conference on Lasers and Electro-Optics 2000 (CLE0 2000), pp. 683-684. 10. M. Webster, E. J. Tyler, I. H. White, R.V. Penty, .A multi-level subcarrier modulation technique for 10 Gb/s installed base multimode fibre links, Conference on Lasers and Electro-Optics 2001 (CLE0 2001), pp. 416-417. 11. L. Raddatz and et al., .High bandwidth multimode fiber links using subcarrier multiplexing in vertical-cavity surface-emitting lasers,. in Optical Fiber Communication Conference and Exhibit, 1998 (OFC.98), pp 358-9. 12. C. C. Lee and S. Chi, .Three-wavelength-division-multiplexed multichannel subcarrier-multiplexing transmission over multimode fiber with potential capacity of 12 Gb/s,. IEEE Photonics Technology Letters, vol. 11, no. 8, pp. 1066-1068, August 1999. 13. L. Raddatz and I. H. White, .Overcoming the modal bandwidth limitation of multimode fiber by using passband modulation,. IEEE Photonics Technology Letters, vol. 11, no. 2, pp. 266-268, February 1999. 14. T. K. Woodward, S. Hunsche, A. J. Riger, and J. B. Stark, .1-Gb/s BPSK Transmission at 850 nm Over 1 km of 62.5-µm-Core Multimode Fiber Using a Single 2.5-GHz Subcarrier,. IEEE Photonics Technology Letters, vol. 11, no. 3, pp. 382-384, March 1999. 15. T. K. Woodward, S. Hunsche, A. J. Riger, and J. B. Stark, .1.6 Gb/s transmission over 1 km of 62.5 micron-core multimode fiber by subcarrier modulation of 850 nm VCSELs,. Optical Fiber Communication Conference, 1999, pp. 80-82. 16. G. P. Agrawal, Fiber-Optic communication systems, 3hd ed, A John Wiley & Sons, Ic., 2002. 17. L. Kazovsky, S. Benedetto and A. Willner, Optical Fiber Communication Systems, 1st ed, Artech House, Inc, 1996. 18. D. K. Mynbaev and L. L. Scheiner, Fiber-Optic Communication Technology, 1st ed, Prentice-Hall, Inc, 2001. 19. F.C. Allard. Fiber Optics Handbook For Engineers and Scientists, 1st ed, McGraw- Hill, Inc, 1990. |