LIAN Zhuxian, JIANG Lingge, HE Chen, HE Di. A 3-D Multiuser HAP-MIMO Channel Model Based on Dynamic Evolution of LOS Components[J]. Chinese Journal of Electronics, 2019, 28(3): 645-650. doi: 10.1049/cje.2019.03.012
Citation: LIAN Zhuxian, JIANG Lingge, HE Chen, HE Di. A 3-D Multiuser HAP-MIMO Channel Model Based on Dynamic Evolution of LOS Components[J]. Chinese Journal of Electronics, 2019, 28(3): 645-650. doi: 10.1049/cje.2019.03.012

A 3-D Multiuser HAP-MIMO Channel Model Based on Dynamic Evolution of LOS Components

doi: 10.1049/cje.2019.03.012
Funds:  This work is supported by the National Natural Science Foundation of China (No.61771308) and the Open Research Fund of National Mobile Communications Research Laboratory, Southeast University (No.2017D11).
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  • Corresponding author: JIANG Lingge (corresponding author) received the B.E. degree in radio engineering from Southeast University, Nanjing, China, in January 1982, the M.E. degree in electrical engineering, and the Ph.D. degree in electronic system engineering from Tokushima University, Tokushima, Japan, in 1993 and 1996, respectively. She joined the Department of Electronic Engineering, Shanghai Jiao Tong University of China in 1996. Now, she is a Professor of Shanghai Jiao Tong University. Her current research interests include next generation wireless communication systems, wireless sensor networks, cognitive radio networks, cooperative communication, and intelligent information processing. She has published more than 200 journal and conference papers and has 59 awarded patents. She obtained the 4th Nyoji Yokoyam Excellent Paper Award of Shanghai Jiao Tong University in 2000 and the Technique Invention Prize (second-class) of Shanghai Science and Technology Award in 2008 (20083041-2-R02). (
  • Received Date: 2017-08-22
  • Publish Date: 2019-05-10
  • A theoretical Three dimensional (3-D) multiuser High altitude platform (HAP) Multipleinput multiple-output (MIMO) channel model based on dynamic evolution of the Line-of-sight (LOS) components is proposed. In this paper, we consider that the LOS components could re-appear after they have vanished, and a two-state Continuous-time Markov chain (CTMC) is used to model the dynamic evolution of the LOS components. The survival probabilities of the LOS components are derived by using Chapman-Kolmogorov (C-K) equations, and the closed-form expressions are derived in this paper. Using the survival probabilities, the spatial correlation functions are derived. Measurements show that a two-state CTMC is indispensable to investigate the dynamic properties of the LOS components.
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  • S. Karapantazis and F. N. Pavlidou, "The role of high altitude platforms in beyond 3G networks", IEEE Wireless Communications, Vol.12, No.6, pp.33-41, 2005.
    A. Adhikary, J. Nam, J.-Y. Ahn and G. Caire, "Joint spatial division and multiplexing:The large-scale array regime", IEEE Transactions on Information Theory, Vol.59, No.10, pp.6441-6463, 2013.
    W. Xu, S. A. Zekavat and H. Tong, "A novel spatially correlated multiuser MIMO channel modeling:Impact of surface roughness", IEEE Transactions on Antennas and Propagation, Vol.57, No.8, pp.2429-2438, 2009.
    E. T. Michailidis and A. G. Kanatas, "Three-dimensional HAP-MIMO channels:Modeling and analysis of space-time correlation", IEEE Transactions on Vehicular Technology, Vol.59, No.5, pp.2232-2242, 2010.
    Z. Lian, L. Jiang, C. He and Q. Xi, "A novel multiuser HAP MIMO channel model based on birth-death process", Proc. of IEEE International Conference on Communications (ICC), Kuala Lumpur, Malaysia, pp.1-5, 2016.
    Q. Xi, C. He, L. Jiang, J. Tian and Y. Shen, "Capacity analysis of massive MIMO on high altitude platforms", Proc. of IEEE Global Communications Conference (GLOBECOM), Washington, DC USA, pp.1-6, 2016.
    M. Simunek, F. P. Fontan, and P. Pechac, "The UAV Low elevation propagation channel in urban areas:Statistical analysis and time-series generator", IEEE Transactions on Antennas and Propagation, Vol.61, No.7, pp.3850-3858, Jul.2013.
    N. Avazov and M. Patzold, "A novel wideband MIMO carto-car channel model based on a geometrical semi-circular tunnel scattering model", IEEE Transactions on Vehicular Technology, Vol.65, No.3, pp.1070-1082, Mar. 2016.
    M. R. Sheldon, Introduction to Probability Models, 9th ed. Academic Press Los Angeles, CA, USA, 2007.
    D. Tse and P. Viswanath, Fundamentals of Wireless Communication, Cambridge University Press, Cambridge, 2005.
    A. Abdi and M. Kaveh, "A space-time correlation model for multielement antenna systems in model fading channels", IEEE Journal on Selected Areas in Communications, Vol.20, No.3, pp.550-560, 2002.
    J. Zhang, C. Pan, F. Pei, G. Liu and X. Cheng, "Threedimensional fading channel models:A survey of elevation angle research", IEEE Communications Magazine, Vol.52, No.6, pp.218-226, 2014.
    Z. Lian, L. Jiang and C. He, "A 3-D wideband model based on dynamic evolution of scatterers for HAP-MIMO channel", IEEE Communications Letters, Vol.21, No.3, pp.684-687, 2017.
    W. M. Smith, "Channel characterization and modeling for satellite communications on the move", Proc. of IEEE MILCOM Conference, Atlantic City, NJ, pp.821-827, 2005.
    Propagation Data Required for the Design of Earth Space Land Mobile Telecommunication Systems:1999. ITU-R Recommendation P.681-5.
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