Experimental verification of performance improvement for a gigabit wavelength division multiplexing visible light communication system utilizing asymmetrically clipped optical orthogonal frequency division multiplexing

Yiguang Wang; Yuanquan Wang; Nan Chi

doi:doi:10.1364/PRJ.2.000138

Photonics Research, 2014, 2 (5): 05000138, Published Online: Nov. 5, 2014

Experimental verification of performance improvement for a gigabit wavelength division multiplexing visible light communication system utilizing asymmetrically clipped optical orthogonal frequency division multiplexing Download： 1092次

Yiguang Wang Yuanquan Wang Nan Chi ^*

Author Affiliations

Department of Communication Science and Engineering, and Key Laboratory for Information Science of Electromagnetic Waves (MoE), Fudan University, Shanghai 200433, China

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Yiguang Wang, Yuanquan Wang, Nan Chi. Experimental verification of performance improvement for a gigabit wavelength division multiplexing visible light communication system utilizing asymmetrically clipped optical orthogonal frequency division multiplexing[J]. Photonics Research, 2014, 2(5): 05000138.

References

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[2] Y. Wang, Y. Wang, N. Chi, J. Yu, H. Shang. Demonstration of 575-Mb/s downlink and 225-Mb/s uplink bi-directional SCM-WDM visible light communication using RGB LED and phosphor-based LED. Opt. Express, 2013, 21: 1203-1208.

[3] J. Vucic, C. Kottke, S. Nerreter, K. Langer, J. W. Walewski. 513 Mbit/s visible light communications link based on DMT-modulation of a white LED. J. Lightwave Technol., 2010, 28: 3512-3518.

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[7] X. Li, J. Vucic, V. Jungnickel, J. Armstrong. On the capacity of intensity-modulated direct-detection systems and the information rate of ACO-OFDM for indoor optical wireless applications. IEEE Trans. Commun., 2012, 60: 799-809.

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[9] J. Armstrong, B. Schmidt. Comparison of asymmetrically clipped optical OFDM and DC-biased optical OFDM in AWGN. IEEE Commun. Lett., 2008, 12: 343-345.

[10] AzharA. H.O’BrienD., “Experimental comparisons of optical OFDM approaches in visible light communications,” in IEEE Globecom Workshops (IEEE, 2013), pp. 1076–1080.

[11] S. D. Dissanayake, J. Armstrong. Comparison of ACO-OFDM, DCO-OFDM and ADO-OFDM in IM/DD systems. J. Lightwave Technol., 2013, 31: 1063-1072.

[12] SheihW.DjordjevicI., Orthogonal Frequency Division Multiplexing for Optical Communications (Academic, 2009), Chap. 7.

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