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http://dx.doi.org/10.5370/JEET.2018.13.3.1363

Short-range Visible Light Positioning Based on Angle of Arrival for Smart Indoor Service  

Lee, Yong Up (Dept. of Electronic Engineering, Hallym University)
Park, Seop Hyeong (Dept. of Electronic Engineering, Hallym University)
Publication Information
Journal of Electrical Engineering and Technology / v.13, no.3, 2018 , pp. 1363-1370 More about this Journal
Abstract
In visible light (VL) positioning based on angle of arrival (AOA) estimation for smart indoor service, the AOA parameters obtained at the receiver has sometimes a random and distributed angle form instead of a point angle form due to the multipath transfer of the actual visible light and short positioning distance. The AOA estimation of a VL signal with a random and parametric distributed angle form may give incorrect AOA parameter estimates, which may result in poor VL positioning performance. In this paper, we classify the AOA parameters of the received VL signal into three forms according to the actual positioning channel environment and consider the short-range VL positioning method. We propose a subspace-based AOA parameter estimation technique and a data fusion method, and analyzed the proposed method by simulation and the measurement of the real VL channel characteristics.
Keywords
Visible light communication; Indoor positioning; Angle of arrival; Visible light channel; Data fusion;
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1 A. Sahin, Y.S. Eroglu, İ. Guvenc, N. Pala, M. Yuksel, "Hybrid 3-D localization for visible light communication systems," J. of Light wave Tech, vol. 33, pp. 4589 - 4599, 2015.   DOI
2 S.-H. Yang, E.-M. Jeong, D.-R. Kim, H.-S. Kim, Y.-H. Son, and S.-K. Han, "Indoor three-dimensional location estimation based on LED visible light communication," Electronics Letters, vol. 49, pp. 54-56, 2013.   DOI
3 Q. Yang, X. Zhu, H. Fu, and X. Che, "Survey of security technologies on wireless sensor networks," Journal of Sensors, vol. 2015, http://dx.doi.org/10.1155/2015/842392, 2015.   DOI
4 Z. Zhou, M. Kavehrad, and P. Deng, "Indoor positioning algorithm using light-emitting diode visible light communications," Optical Engineering, vol. 51, pp.1-6, 2012.
5 S. Yang, D. Kim, H. Kim, Y. Son, and S. Han, "Visible light based high accuracy indoor positioning using the extinction ratio distributions of light signals," Microwave and Optical Technology Letters, vol. 55, pp.1385-1389, 2013.   DOI
6 W. Xu, J. Wang, H. Shen, H. Zhang, X. You, "Indoor positioning for Multiphotodiode Device Using Visible-Light Communications," IEEE Photonics Journal, vol. 8, pp.1-6, 2016.
7 D.H. Johnson and D.E. Dudgeon: Array signal processing, Prentice Hall, 1993.
8 X. Zhang, K. Cui, M. Yao, H. Zhang, and Z. Xu, "Experimental characterization of indoor visible light communication channels," IEEE 8th International Symposium on Communication Systems, Networks & Digital Signal Processing, pp. 1-5, 2012.
9 V. Jungnickel, V. Pohl, S. Nönnig, and V. Helmolt, "A physical model for the wireless infrared communication channel," IEEE J. Sel. Areas in Comm., vol. 20, pp. 631-640, 2002.   DOI
10 T. Komine and M. Nakagawa, "Fundamental analysis for visible-light communication system using LED lights," IEEE Trans. Consumer Electronics, vol. 50, pp. 100-107, 2004.   DOI
11 D. Jung, S. Hann, S. Park, and C. Park, "Optical wireless indoor positioning system using light emitting diode ceiling lights," Microwave and Optical Technology Letters, vol. 54, pp. 1622-1626, 2012.   DOI
12 Y.U. Lee and S.M. Lee, "Random distributed angle-of-arrival parameter estimation technique for visible light positioning," IEEE 38th International Conference of Telecommunications and Signal Processing (TSP), vol. 58, pp. 467-471, 2015.