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Photonics Research, Volume. 1, Issue 2, 65(2013)

Visible light communications: 3.75 Mbits/s data rate with a 160 kHz bandwidth organic photodetector and artificial neural network equalization [Invited]

Zabih Ghassemlooy1、*, Paul Anthony Haigh1、**, Francesco Arca2, Sandro Francesco Tedde2、***, Oliver Hayden2, Ioannis Papakonstantinou3, and Sujan Rajbhandari4
Author Affiliations
  • 1Optical Communications Research Group, Northumbria University, NE1 8ST, UK
  • 2Siemens AG, Corporate Technology, Erlangen CT T DE HW3, Germany
  • 3Department of Electronic & Electrical Engineering, University College London, WC1E 7JE, UK
  • 4Department of Engineering Science, University of Oxford, OX1 3PJ, UK
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    [1] G. Cossu, A. M. Khalid, P. Choudhury, R. Corsini, E. Ciaramella. 3.4Gbit/s visible optical wireless transmission based on RGB LED. Opt. Express, 20, B501-B506(2012).

    [2] J. Clark, G. Lanzani. Organic photonics for communications. Nat. Photonics, 4, 438-446(2010).

    [3] M. Punke, S. Valouch, S. W. Kettlitz, M. Gerken, U. Lemmer. Optical data link employing organic light-emitting diodes and organic photodiodes as optoelectronic components. J. Lightwave Technol., 26, 816-823(2008).

    [4] P. A. Haigh, Z. Ghassemlooy, H. Le Minh, S. Rajbhandari, F. Arca, S. F. Tedde, O. Hayden, I. Papakonstantinou. Exploiting equalization techniques for improving data rates in organic optoelectronic devices for visible light communications. J. Lightwave Technol., 30, 3081-3088(2012).

    [5] W.-W. Tsai, Y.-C. Chao, E.-C. Chen, H.-W. Zan, H.-F. Meng, C.-S. Hsu. Increasing organic vertical carrier mobility for the application of high speed bilayered organic photodetector. Appl. Phys. Lett., 95, 213308(2009).

    [6] S. F. Tedde, J. Kern, T. Sterzl, J. Furst, P. Lugli, O. Hayden. Fully spray coated organic photodiodes. Nano Lett., 9, 980-983(2009).

    [7] C. J. Brabec, N. S. Sariciftci, J. C. Hummelen. Plastic solar cells. Adv. Funct. Mater., 11, 15-26(2001).

    [8] F. Arca, S. F. Tedde, M. Sramek, J. Rauh, P. Lugli, O. Hayden. Interface trap states in organic photodiodes. Sci. Rep., 3, 1324(2013).

    [9] C. Soci, I.-W. Hwang, C. Yang, D. Moses, Z. Zhu, D. Waller, R. Gaudiana, C. J. Brabec, A. J. Heeger. Charge carrier photogeneration and transport properties of a novel low-bandgap conjugated polymer for organic photovoltaics. Proc. SPIE, 6334, 63340D(2006).

    [10] J. M. Kahn, J. R. Barry. Wireless infrared communications. Proc. IEEE, 85, 265-298(1997).

    [11] J. G. Proakis. Digital Communications(2004).

    [12] Z. Ghassemlooy, W. Popoola, S. Rajbhandari. Optical Wireless Communications: System and Channel Modelling(2012).

    [13] S. Rajbhandari, Z. Ghassemlooy, M. Angelova. Bit error performance of diffuse indoor optical wireless channel pulse position modulation system employing artificial neural networks for channel equalization. IET Optoelectron., 3, 169-179(2009).

    [14] K. Hornik, M. Stinchcombe, H. White. Multilayer feedforward networks are universal approximators. Neural Netw., 2, 359-366(1989).

    [15] K. Burse, R. N. Yadav, S. C. Shrivastava. Channel equalization using neural networks: a review. IEEE Trans. Syst. Man. Cybernet. Part C Appl. Rev., 40, 352-357(2010).

    [16] L. Behera, S. Kumar, A. Patnaik. On adaptive learning rate that guarantees convergence in feedforward networks. IEEE Trans. Neural Netw., 17, 1116-1125(2006).

    [17] S. Haykin. Neural Networks: A Comprehensive Foundation(1998).

    CLP Journals

    [1] Nan Chi, Yuanquan Wang, Yiguang Wang, Xingxing Huang, Xiaoyuan Lu, "Ultra-high-speed single red–green–blue light-emitting diode-based visible light communication system utilizing advanced modulation formats," Chin. Opt. Lett. 12, 010605 (2014)

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    Zabih Ghassemlooy, Paul Anthony Haigh, Francesco Arca, Sandro Francesco Tedde, Oliver Hayden, Ioannis Papakonstantinou, Sujan Rajbhandari, "Visible light communications: 3.75 Mbits/s data rate with a 160 kHz bandwidth organic photodetector and artificial neural network equalization [Invited]," Photonics Res. 1, 65 (2013)

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    Paper Information

    Category: Optical Communications

    Received: Mar. 5, 2013

    Accepted: May. 10, 2013

    Published Online: Jan. 18, 2019

    The Author Email: Zabih Ghassemlooy (z.ghassemlooy@northumbria.ac.uk), Paul Anthony Haigh (paul.haigh@northumbria.ac.uk), Sandro Francesco Tedde (sandro.tedde@siemens.com)

    DOI:10.1364/PRJ.1.000065

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology