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Securing Visible Light Communication Systems by Beamforming in the Presence of Randomly Distributed Eavesdroppers

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journal contribution
posted on 01.02.2019, 15:00 by Sunghwan Cho, Gaojie Chen, Justin P. Coon
This paper considers secrecy enhancement mechanisms in visible light communication (VLC) systems with spatially distributed passive eavesdroppers (EDs) under the assumption that there are multiple LED transmitters and one legitimate user equipment. Based on certain amplitude constraints, we propose a beamforming scheme to improve secrecy performance. Contrary to the case where null-steering is made possible by using knowledge of the ED locations, the proposed beamforming when only statistical information about ED locations is available directs the transmission along a particular eigenmode related to the intensity of the ED process and the intended channel. Then, a LED selection scheme that is less complicated than beamforming is provided to reduce the secrecy outage probability (SOP). An approximate closed-form for the SOP is derived by using secrecy rate bounds. All the analysis is numerically verified by Monte-Carlo simulations. The analysis shows that the beamformer yields superior performance to LED selection. However, LED selection is still a highly efficient alternative scheme due to the complexity associated with the use of multiple transmitters in the full beamforming approach. These performance trends and exact relations between system parameters can be used to develop a secure VLC system in the presence of randomly distributed EDs.


This work was supported by EPSRC (Spatially Embedded Networks) under Grant EP/N002350/1



IEEE Transactions on Wireless Communications, 2018, 17 (5), pp. 2918-2931

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/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Engineering


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IEEE Transactions on Wireless Communications


Institute of Electrical and Electronics Engineers (IEEE)



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