Tong Li
 
Department of Computer Science and Engineering 
The Hong Kong University of Science and Technology 
Clear Water Bay, Kowloon, Hong Kong, China
 
Tel: +852 67496910 OR +86 15073197902
E-mail: t.li@connect.ust.hk
Homepage: http://www.cse.ust.hk/~tliay/
 

 

Brief Biography  

Tong Li (李桐) is currently a Ph.D. student at the Department of Computer Science and Engineering at The Hong Kong University of Science and Technology. He is working on the topics in mobile big data under the supervision of Prof. Pan hui and he is a member of Symlab.


 
Publications  
  • Journals
    1. Z. Xiao, H. Liu, V. Havyarimana, T. Li, and D. Wang, "Analytical study on multi-tier 5G heterogeneous small cell networks: Coverage performance and energy efficiency," Sensors, 16(11): 1854, 2016. Article

    2. Z. Xiao, T. Li, W. Ding, D. Wang and J. Zhang, "Dynamic PCI allocation on avoiding handover confusion via cell status prediction in LTE heterogeneous small cell networks," Wireless Communications and Mobile Computing, 16(14): 1972-1986, 2016. Article

    3. T. Li, Z. Xiao, HM. Georges, Z. Luo and D. Wang, "Performance Analysis of Co-and Cross-tier Device-to-Device Communication Underlaying Macro-small Cell Wireless Networks," KSII Transactions on Internet & Information Systems, 10(4): 1481-1500, 2016. Article

    4. Z. Xiao, V. Havyarimana, T. Li, and D. Wang, "A nonlinear framework of delayed particle smoothing method for vehicle localization nder non-Gaussian environment," Sensors, 16(5): 692, 2016. Article

  • Conferences
    1. Z. Xiao, S. Li, T. Li, and D. Wang, "On Enhancing Energy Efficiency via Elastic Cell-Zooming Algorithm in Three-Tier Heterogeneous Wireless Networks," International Conference on Wireless Algorithms, Systems, and Applications, 2016. Paper

    2. Z. Xiao, T. Li, W. Cheng and D. Wang, "Apollonius Circles Based Outbound Handover in Macro-Small Wireless Cellular Networks," IEEE Global Communications Conference (GLOBECOM), 2016. Paper

    3. Z. Xiao, J. Yu, T. Li, Z. Xiang, D. Wang and W. Chen, "Resource allocation via hierarchical clustering in dense small cell networks: A correlated equilibrium approach," IEEE Personal, Indoor, and Mobile Radio Communications (PIMRC), 2016. Paper

     

     

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