Zhu Yonghe scite author profile

Non-line of sight (NLOS) visible light communication (VLC) from reflections can expand the application of VLC beyond the line-of-sight (LOS) link. We demonstrate the experimental results on such indoor NLOS VLC, up to the second-order reflection. The avalanche photodiode (APD) receiver is employed due to the strong ambient light background. Manchester coding is adopted at the transmitter, and digital filtering is adopted at the receiver. We propose an Support Vector Machine (SVM) detection method to solve the significant distortion issue due to weak signal of the NLOS link. Experimental results on the second-order reflection-based VLC demonstrate that the detection error probability of the proposed SVM detection can be reduced up to at least two orders of magnitude compared with the Gaussian approximation-based detection, and can reach 10 −4 at bit rate 4 Mbps. Thus, low-data rate applications can be achieved by VLC with only the second-order reflection, which implies the potential in speech/image/control message transmission and Internet of Things (IoT) applications, for example the mobile robots that may operate in the shadow or even under a table. Experimental results on the second-order reflection at different transmission rates and different sampling rates are also demonstrated.

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A no-reference quality assessment for contrast-distorted image based on improved learning method

Yonghe

Yang

et al. 2018

Multimed Tools Appl

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Zhu Yonghe

Indoor Non-Line of Sight Visible Light Communication with a Bi-LSTM Neural Network

SVM-Assisted Realization and Demonstration of Indoor 4 Mb/s Non-Line-of-Sight Visible Light Communication With Second-Order Reflection

A no-reference quality assessment for contrast-distorted image based on improved learning method

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