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光载毫米波无线电通信技术的现状与发展

时间:09-16 来源:《中兴通讯技术》 点击:

限,为了更有效提高光波资源的利用率,用单一光源传送多业务的MM-RoF技术显得十分重要和必要,其中在同一光源上实现微波/毫米波频段的多种格式无线信号的光产生技术、多格式毫米波信号的MM-RoF传输技术、全光解调技术,以及系统性能分析等将成为实现多业务传送的MM-RoF系统的关键。

作者:《中兴通讯技术》 宋怡桥,郑小平

3、参考文献

[1] SEEDS A J. Microwave Photonics [J]. IEEE Transactions on Microwave Theory and Techniques, 2002, 50(3): 877-887.

[2] WAKE D, WEBSTER M, WIMPENNY G, et al. Radio over fiber for mobile  communications [C]//Proceedings of International Topical Meeting on Micriwave Photonics (MWP’04),Oct 4-6,2004, Ogunquit, ME, USA. Piscataway, NJ,USA: IEEE, 2004:157-160.

[3] LIN C, CHEN J, PENG P, et al. Hybrid optical access network integrating fiber-to-the-home and radio-over-fiber systems [J]. IEEE Photonics Technology Letters, 2007,19(8):610-612.

[4] YU J J, GU J X, LIU X, et al. Seamless integration of WDM-PON and wideband radio-over-fiber for 8×2.5Gb/s all-optical up-conversion using Raman-assisted FWM [C]//Proceedings of 31st European Conference on Optical Communication (ECOC’05):Vol 1,Sep 25-29,2005, Glasgow, UK. Piscataway, NJ,USA: IEEE,2005: 89-90.

[5] JIA Z, YU J, BOJVIN D, et al. Bidirectional RoF links using optically up-converted DPSK for downstream and remodulated OOK for upstream [J]. IEEE Photonics Technology Letters, 2007, 19(9): 653-655.

[6] YU J, JIA Z, YU J, et al. Novel RoF network architecture for providing both wireless and wired broadband services [J]. Microwave and Optical Technology Letters, 2007, 49(3):659-662.

[7] Gandalf org [EB/OL]. http://www.ist-gandalf.org/.

[8] PIQUERAS M A, VIDAL B, CORRAL J L, et al. Direct photonic generation of electrical vector modulations at microwave/millimeter-wave frequencies [J]. IEEE Photonics Technology Letters, 2005,17(9): 1947-1949.

[9] WIBERG A, MILLAN P, ANDRES M, et al. Fiber-optic 40-GHz mm-wave link with 2.5 Gb/s data transmission [J]. IEEE Photonics Technology Letters, 2005, 17(9): 1938-1940.

[10] ISMAIL T, LIU C P, MITCHELL J, et al. Multichannel broadband wireless transmission over fibre using feed-forward linearised uncooled DFB laser [C]//Proceedings of 30th European Conference on Optical Communication (ECOC’04): Vol 2 ,Sep 5-9,2004, Stockholm, Sweden. Piscataway, NJ,USA: IEEE ,2004:208-209.

[11] IKEDA K, KURI T, KITAYAMA K. Simultaneous three-band modulation and fiber-optic transmission of 2.5 Gb/s baseband, microwave, and 60 GHz-band signals on a single wavelength [J]. Journal of Lightwave Technology, 2003, 21(12): 3194-3202.

[12] NAKASYOTANI T, TODA H, KITAYAMA K. WDM millimeter-waveband radio-on-fiber system using a supercontinuum light source [J]. Journal of Lightwave Technology, 2006, 24(1): 404-410.

[13] FUJISE M. Millimeter-wave RoF road-vehicle communications [C]//Proceedings of the 2000 Microwave Workshops and Exhibition (MWE'00), Dec 12-14,2000, Yokohama, Japan. Piscataway, NJ,USA: IEEE, 2000:141-146.

[14] OGUSU M, INAGAKI K, MIZUGUCHI Y. 400 Mb/s BPSK data transmission at 60 GHz-band mm-wave using a two-mode injection-locked fabry-Perot laser [C]//Proceedings of International Topical Meeting on Micriwave Photonics (MWP’00),Sep 6-8,2000, Oxford, UK. Piscataway, NJ,USA: IEEE, 2000:31-34.

[15] YUEN R, FERNANDO X N. IEEE802.11 and WCDMA Multisystem Radio Transmission over Fiber for Wireless Access [EB/OL]. http://mts.hindawi.com/utils/GetFile.aspx?msid=825675&vnum=3&ftype=manuscript.

[16] KURI T, TODA H, KITAYAMA K. Dense wavelength-division multiplexing millimeter-wave-band radio-on-fiber signal transmission with photonic do

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