Picture of Cheng-Xiang Wang

Cheng-Xiang Wang (王承祥), PhD, FIET, SMIEEE, FHEA

Professor of Wireless Communications

Head of Advanced Wireless Technologies (AWiTec) Lab (EM 1.30)
Deputy Head, Institute of Sensors, Signals and Systems
Joint Research Institute for Signal and Image Processing
Electrical, Electronic and Computer Engineering
School of Engineering & Physical Sciences
Heriot-Watt University (赫瑞·瓦特大学)
Edinburgh EH14 4AS, UK

Honorary Fellow of the School of Engineering, University of Edinburgh
 

Office: EM 2.14; Lab: EM 1.30
Phone: +44-131-4513329 (Office); +44-131-4514409 (Lab)
Fax: +44-131-4514155
E-Mail: cheng-xiang.wang@hw.ac.uk
URL: http://www.ece.eps.hw.ac.uk/~cxwang/    No. of visitors:  

Biography | Research | Teaching | Administration | Lab Members | Awards | Professional Activities | Publications| Vacancy (0)|


Biography

Cheng-Xiang Wang received the BSc and MEng degrees in Communication and Information Systems from Shandong University, China, in 1997 and 2000, respectively, and the PhD degree in Wireless Communications from Aalborg University, Denmark, in 2004.

He has been with Heriot-Watt University, Edinburgh, UK since 2005, and became a Professor in Wireless Communications in 2011. He is also an Honorary Fellow of the University of Edinburgh, UK, a Chair Professor of Shandong University, and a Guest Professor of Southeast University, China. He was a Research Fellow at the University of Agder, Grimstad, Norway, from 2001-2005, a Visiting Researcher at Siemens AG-Mobile Phones, Munich, Germany, in 2004, and a Research Assistant at Hamburg University of Technology, Hamburg, Germany, from 2000-2001. His current research interests focus on wireless channel modelling and 5G wireless communication networks, including green communications, cognitive radio networks, high mobility communication networks, massive MIMO, millimeter wave communications, and visible light communications. He has published 1 book, 1 book chapter, and over 240 papers in refereed journals and conference proceedings.

Prof. Wang has served as an editor for 9 international journals, including the IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY (since 2011), IEEE TRANSACTIONS ON COMMUNICATIONS (since 2015), and the IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS (2007--2009). He was the lead Guest Editor for the IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, Special Issue on Vehicular Communications and Networks. He has served as a Technical Program Committee (TPC) Member, TPC Chair, and General Chair for over 80 international conferences. He received 8 Best Paper Awards from IEEE Globecom 2010, IEEE ICCT 2011, ITST 2012, IEEE VTC 2013-Spring, IWCMC 2015, IWCMC 2016, and IEEE/CIC ICCC 2016. He is a Fellow of the IET, a Senior Member of the IEEE, a Fellow of the HEA, and a member of EPSRC Peer Review College.

Research

Research Interests:

Research Projects:

Teaching

Administration

Lab Members (Lab Photo1, Lab Photo2, Lab Photo3, Lab Photo4)

Current Research Associates:

Current PhD Students:

Current EngD Students: Current Co-supervised PhD Students: Previous Postdoctoral Research Associates:

Graduated PhD Students:

Graduated EngD Students:

Graduated MSc Students by Research: Current MSc Students:

Graduated MSc Students:

Current Final-Year Student: Graduated Final-Year Student:

Honours and Awards

Professional Activities

Editorial Board Member/Editor/Associate Editor (9): Guest Editor (3): EPSRC Peer Review College member (1 April 2010-):

External Examiner (14)

General Chair (2):

Technical Program Committee Chair/Co-Chair (12):

Workshop (Co-)Chair (2): Publicity (Co-)Chair (2): Technical Program Committee Symposium Co-Chair (4): Technical Program Committee Vice-Chair: Technical Program Committee Track (Co-)Chair (4): Panel Member (4):

Technical Program Committee Member (52):

Session Chair (6): Reviewer for book proposals: John Wiley & Sons; Springer

Reviewer for EPSRC, EU, NSFC, Hong Kong, Ireland, and Canada grant proposals

Reviewer for numerous journals and conferences:

Publications (Google Scholar Citations)

Books and Book Chapters (5)
Refereed Journal Papers (115)
Refereed Conference Papers (135, including 15 Invited Papers and 8 Best Paper Awards)
Invited Keynote Speech (13)
Tutorials (5)
Reports (3)
Thesis

Books and Book Chapters (5):

  1. C.-X. Wang and J. Mitola III, Ed., Advances in Cognitive Radio Systems, Intech, July 5, 2012.

  2. X. Hong, C.-X. Wang, J. S. Thompson, and H.-H. Chen, “Capacity analysis of cognitive radio networks”, in Cognitive Radio Networks: Architectures, Protocols and Standards, edited by Yan Zhang, Jun Zheng, and Hsiao-Hwa Chen, published by Auerbach Publications, CRC Press, May 25, 2010.

  3. D. Yuan, M. Cao, C.-X. Wang, and H. Huang, Ed., Proc. 3rd International Conference on Communications and Mobile Computing (CMC 2011), Qingdao, China, 18-20 Apr. 2011, published by IEEE Computer Society and sponsored by World Research Institute.

  4. C.-X. Wang, P. Fan, X. Shen, and Y. He, Ed., Proc. 2nd International Conference on Communications and Mobile Computing (CMC 2010), Shenzhen, China, 12-14 Apr. 2010, published by IEEE Computer Society and sponsored by World Research Institute.

  5. C.-X. Wang and S. Ouyang, Ed., Proc. 1st International Conference on Communications and Mobile Computing (CMC 2009), Kunming, Yunnan, China, 6-8 Jan. 2009, published by IEEE Computer Society and sponsored by World Research Institute.

Refereed Journal Papers (115):

  1. X. Ge*, Y. Qiu, J. Cheng, M. Huang, H. Xu, J. Xu, W. Zhang,Y. Yang, C.-X. Wang, and J. Thompson, “Wireless fractal cellular networks,” IEEE Wireless Commun. Mag., accepted for publication.
  2. R. Liu, Y. Wang, S. Wu, and C.-X. Wang*, “Energy  efficiency and area spectral efficiency tradeoff for coexisting wireless body sensor networks,” Sci. China Inf. Sci., accepted for publication.
  3. Y. Fu, C.-X. Wang*, A. Ghazal, H. Aggoune, and M. M. Alwakeel, “Performance investigation of spatial modulation systems under non-stationary wideband high-speed train channel models,” IEEE Trans. Wireless Commun., accepted for publication.
  4. P. Patcharamaneepakorn, S. Wu, C.-X. Wang*, H. Aggoune, M. M. Alwakeel, X. Ge, and M. D. Renzo, “Spectral, energy and economic efficiency of 5G multi-cell massive MIMO systems with generalized spatial modulation,” IEEE Trans. Veh. Technol., accepted for publication.
  5. L. Yan, X. Fang*, and C.-X. Wang, “Position based limited feedback scheme for railway MU-MIMO systems,” IEEE Trans. Veh. Technol., accepted for publication.
  6. Y. Li, Y. Shi*, M. Sheng, C.-X. Wang, J. Li, X. Wang, and Y. Zhang, “Energy-efficient transmission in heterogeneous wireless networks: a delay-aware approach”, IEEE Trans. Veh. Technol., accepted for publication.
  7. Y. Fu, C.-X. Wang*, Y. Yuan, R. Mesleh, H. Aggoune, M. M. Alwakeel, and H. Haas, “BER performance of spatial modulation systems under 3D V2V MIMO channel models,” IEEE Trans. Veh. Technol., vol. 65, no. 7, pp. 5725-5730, July 2016.
  8. W. Zhang*, C.-X. Wang, X. Tao, and P. Patcharamaneepakorn, “Exact distributions of finite random matrices and their applications to spectrum sensing,” Sensors, doi: 10.3390/s16081183, 2016.
  9. C.-X. Wang*, A. Ghazal, B. Ai, P. Fan, and Y. Liu, “Channel measurements and models for high-speed train communication systems: a survey,” IEEE Commun. Surveys Tuts., vol. 18, no. 2, pp. 974-987, 2nd Quart., 2016.
  10. F. Haider, C.-X. Wang*, B. Ai, H. Haas, and E. Hepsaydir, “Spectral/energy efficiency tradeoff of cellular systems with mobile femtocell deployment,” IEEE Trans. Veh. Technol., vol. 65, no. 5, pp. 3389-3400, May 2016 .
  11. R. Zi, X. Ge*, J. Thompson, C.-X. Wang, H. Wang, and T. Han, “Energy efficiency optimization of 5G frequency radio chain systems,” IEEE J. Sel. Areas Commun., vol. 34, no. 4, pp. 758-771, Apr. 2016.
  12. W. Zhang, C.-X. Wang*, D. Chen, and H. Xiong, “Energy-spectral efficiency tradeoff in cognitive radio networks,” IEEE Trans. Veh. Technol., vol. 65, no. 4, pp. 2208-2218, Apr. 2016 .
  13. H. Sun, A. Nallanathan, S. Cui, and C.-X. Wang*, “Cooperative wideband spectrum sensing over fading channels,” IEEE Trans. Veh. Technol., vol. 65, no. 3, pp. 1382-1394, Mar. 2016.
  14. C.-X. Wang*, X. You, J. Wang, and C.-L. I, “Preface: 5G wireless communication networks,” Sci. China Inf. Sci., vol. 59, no. 2, Feb. 2016.
  15. C.-X. Wang*, S. Wu, L. Bai, X. You, J. Wang, and C.-L. I, “Recent advances and future challenges for massive MIMO channel measurements and models,” Sci. China Inf. Sci., Invited Paper, vol. 59, no. 2, pp. 1-16, Feb. 2016.
  16. X. Ge, J. Chen, C.-X. Wang, J. S. Thompson and J. Zhang*, “5G green cellular networks considering power allocation schemes,” Sci. China Inf. Sci., vol. 59, no. 2, Feb. 2016.
  17. X. Yan, J. Xu, Y. Zhu, J. Wang, Y. Yang*, and C.-X. Wang, “Downlink average rate and SINR distribution in cellular networks,IEEE Trans. Commun., vol. 64, no. 2, pp. 847-862, Feb. 2016.
  18. X. Ge, S. Tu, G. Mao, C.-X. Wang, and T. Han*, “5G ultra-dense cellular networks,” IEEE Wireless Commun., vol. 23, no. 1, pp. 72-79, Feb. 2016.
  19. Y. Yuan, C.-X. Wang*, Y. He, M. M. Alwakeel, and H. Aggoune, “3D wideband non-stationary geometry-based stochastic models for non-isotropic MIMO vehicle-to-vehicle channels,” IEEE Trans. Wireless Commun., vol. 14, no. 12, pp. 6883-6895, Dec. 2015.
  20. Q. Zhou, C.-X. Wang*, S. McLaughlin, and X. Zhou, “Network virtualization and resource description in software-defined wireless networks,” IEEE Commun. Mag., vol. 53, no. 11, Nov. 2015, pp. 110-117.
  21. M. Shu, H. Cui, Y. Wang, and C.-X. Wang*, “Planning the obstacle-avoidance trajectory of mobile anchor in 3D sensor networks,” Sci. China Inf. Sci., vol. 58, no. 10, Oct. 2015, pp. 1-10.
  22. X. Hong, C. Zheng, J. Wang, J. Shi, and C.-X. Wang*, “Optimal resource allocation and EE-SE trade-off in hybrid cognitive Gaussian relay channels,” IEEE Trans. Wireless Commun., vol. 14, no. 8, Aug. 2015, pp. 4170-4181.
  23. F. Haider, C.-X. Wang*, H. Haas, E. Hepsaydir, X. Ge, and D. Yuan, “Spectral and energy efficiency analysis for cognitive radio networks,” IEEE Trans. Wireless Commun., vol. 14, no. 6, pp. 2969-2980, June 2015.
  24. Z. Bai, J. Jia, C.-X. Wang*, and D. Yuan, “Performance analysis of SNR-based incremental hybrid decode-amplify-forward cooperative relaying protocol”, IEEE Trans. Commun., vol. 63, no. 6, June 2015, pp. 2094-2106.
  25. C. Xu, M. Sheng*, X. Wang, C.-X. Wang, and J. Li, “Distributed subchannel allocation for interference mitigation in OFDMA femtocells: a utility-based learning approach,” IEEE Trans. Vehi. Technol., vol. 64, no. 6, pp. 2463-2475, June 2015.
  26. A. Ghazal, C.-X. Wang*, B. Ai, D. Yuan, and H. Haas, “A non-stationary wideband MIMO channel model for high-mobility intelligent transportation systems,” IEEE Trans. Intell. Transp. Syst., vol. 16, no. 2, pp. 885-897, Apr. 2015.
  27. Y. Li, M. Sheng*, C.-X. Wang, X. Wang, Y. Shi, and J. Li, “Throughput-delay tradeoff in interference-free wireless networks with guaranteed energy efficiency,” IEEE Trans. Wireless Commun., vol. 14, no. 3, pp. 1608-1621, Mar. 2015.
  28. S. Wu, C.-X. Wang*, H. Haas, H. Aggoune, M. M. Alwakeel, and B. Ai, “A non-stationary wideband channel model for massive MIMO communication systems,” IEEE Trans. Wireless Commun., vol. 14, no. 3, pp. 1434-1446, Mar. 2015.
  29. X. Ge, B. Yang, J. Ye, G. Mao, C.-X. Wang, and T. Han*, “Spatial spectrum and energy efficiency of random cellular networks,” IEEE Trans. Commun., vol. 63, no. 3, pp. 1019-1030, March 2015.
  30. Y. He, O. Salih, C.-X. Wang*, and D. Yuan, “Deterministic process based generative models for characterizing packet-level bursty error sequences”, Wireless Commun. and Mobile Computing, vol. 15, no. 3, pp. 421-430, Mar. 2015.
  31. Z. Bai, F. Zhao, C. Wang, and C.-X. Wang, “Multiple access interference and multipath interference analysis of orthogonal complementary code based ultra-wideband systems over multipath channels”, International J. Commun. Systems, vol. 27, no. 12, pp. 4430-4442, Dec. 2014.
  32. O. Salih, C.-X. Wang*, B. Ai, and R. Mesleh, “Adaptive general models for digital wireless channels,” IEEE Trans. Wireless Commun., vol. 13, no. 9, pp. 5173-5182, Sept. 2014.
  33. J. Sun, F. Li, C.-X. Wang*, X. Hong, and D. Yuan, “Frequency synchronization algorithms for MIMO-OFDM systems with periodic preamble”, Inter. J. of Distributed Sensor Networks, vol. 2014, Article ID 740906, 12 pages, 2014. doi:10.1155/2014/740906.
  34. X. Hong, J. Wang, C.-X. Wang*, and J. Shi, “Cognitive radio in 5G: a perspective on energy-spectral efficiency trade-off,” IEEE Commun. Mag., vol. 52, no. 7, pp. 46-53, July 2014.
  35. S. Wu, C.-X. Wang*, H. Aggoune, M. M. Alwakeel, and Y. He, “A non-stationary 3D wideband twin-cluster model for 5G massive MIMO channels”, IEEE J. Sel. Areas Commun., vol. 32, no. 6, pp. 1207-1218, June 2014.
  36. X. Zhou, L. Yang*, C.-X. Wang, and D. Yuan, “SCM-SM: superposition coded modulation aided spatial modulation with low-complexity detector,” IEEE Trans. Vehi. Technol., vol. 63, no. 5, pp. 2488-2493, June 2014. Google Scholar
  37. X. Ge, X. Huang, Y. Wang, M. Chen, Q. Li, T. Han, and C.-X. Wang, “Energy efficiency optimization for MIMO-OFDM mobile multimedia communication systems with QoS constraints,” IEEE Trans. Veh. Technol., vol. 63, no. 5, pp. 2127-2138, June 2014. Google Scholar
  38. X. Ge, T. Han*, Y. Zhang, G. Mao, C.-X. Wang, J. Zhang, B. Yang, and S. Pan, “Spectrum and energy efficiency evaluation of two-tier femtocell networks with partially open channels,” IEEE Trans. Vehi. Technol., vol. 63, no. 3, pp. 1306-1319, Mar. 2014. Google Scholar
  39. C.-X. Wang, F. Haider, X. Gao, X.-H. You, Y. Yang, D. Yuan, H. Aggoune, H. Haas, S. Fletcher, and E. Hepsaydir, “Cellular architecture and key technologies for 5G wireless communication networks,” IEEE Commun. Mag., vol. 52, no. 2, pp. 122-130, Feb. 2014. Google Scholar
  40. X. Cheng, C.-X. Wang*, B. Ai, and H. Aggoune, “Envelope level crossing rate and average fade duration of non-isotropic vehicle-to-vehicle Ricean fading channels”, IEEE Trans. Intell. Transp. Syst., vol. 15, no. 1, pp. 62-72, Feb. 2014. Google Scholar
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  42. Y. Yuan, C.-X. Wang*, X. Cheng, B. Ai, and D. I. Laurenson, “Novel 3D geometry-based stochastic models for non-isotropic MIMO vehicle-to-vehicle channels”, IEEE Trans. Wireless Commun., vol. 13, no. 1, pp. 298-309, Jan. 2014. Google Scholar
  43. Z. Chen, C.-X. Wang*, X. Hong, J. S. Thompson, S. Vorobyov, F. Zhao, and X. Ge, “Interference mitigation for cognitive radio MIMO systems based on practical precoding,” Invited Paper, Elsevier Physical Commun., vol. 9, pp. 308-315, Dec. 2013, http://dx.doi.org/10.1016/j.phycom.2012.04.007. Google Scholar
  44. N. Serafimovski, A. Younis, R. Y. Mesleh, P. Chambers, M. D. Renzo, C.-X. Wang, P. M. Grant, M. A. Beach, and H. Haas, “Practical implementation of spatial modulation”, IEEE Trans. Vehi. Technol., vol. 62, no. 9, pp. 4511-4523, Nov. 2013. Google Scholar
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  46. Z. Zhao, X. Cheng*, M. Mao, C.-X. Wang, and B. Jiao, “Channel estimation schemes for IEEE 802.11p standard”, IEEE Intell. Transp. Syst. Mag., vol. 5, no. 4, pp. 38-49, Oct. 2013. Google Scholar
  47. M. Anyaegbu, C.-X. Wang*, and W. Berrie, “Dealing with packet delay variation in IEEE 1588 synchronization using a sample-mode filter”, IEEE Intell. Transp. Syst. Mag., vol. 5, no. 4, pp. 20-27, Oct. 2013. Google Scholar
  48. R. Zhang, X. Cheng*, Q. Yao, C.-X. Wang, Y. Yang, and B. Jiao, “Interference graph based resource sharing schemes for vehicular networks,” IEEE Trans. Vehi. Technol., vol. 62, no. 8, pp. 4028-4039, Oct. 2013. Google Scholar
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  52. H. Xiao, S. Ou, and C.-X. Wang, “On the sum rate capacity of MIMO broadcast channels in cognitive radio networks with interference power constraints,”  Wireless Personal Commun., vol. 70, no. 4, pp. 1589-1601, June 2013. Google Scholar
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  54. H. Sun, A. Nallanathan, C.-X. Wang*, and Y. Chen, “Wideband spectrum sensing for cognitive radio networks: a survey”, IEEE Wireless Commun. Mag., vol. 20, no. 2, pp. 74-81, Apr. 2013. Google Scholar
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  77. N. Xiong, A. V. Vasilakos, L. T. Yang, C.-X. Wang, R. Kannan, C.-C. Chang, and Y. Pan, “A novel self-tuning feedback controller for active queue management supporting TCP flows,” Information Sciences, vol. 180, no. 11, pp. 2249-2263, June 2010. Google Scholar
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  81. X. Hong, Z. Chen, C.-X. Wang, S. Vorobroy, and J. S. Thompson, “Cognitive radio networks: interference cancellation and management techniques”, IEEE Veh. Technol. Mag., vol. 4, no. 4, pp. 76-84, Nov. 2009. Google Scholar
  82. X. Cheng, C.-X. Wang*, D. I Laurenson, S. Salous, and A. V. Vasilakos, “An adaptive geometry-based stochastic model for non-isotropic MIMO mobile-to-mobile channels”, IEEE Trans. Wireless Commun., vol. 8, no. 9, pp. 4824-4835, Sept. 2009. Google Scholar
  83. .Y Zhang, Y. Chen, J. He, C.-X. Wang, and A. V. Vasilakos, “Call admission control algorithms in OFDM-based wireless multiservice networks,” Wireless Personal Commun., vol. 50, no. 1, pp. 99-114, July 2009. Google Scholar
  84. X. Hong, C.-X. Wang, H.-H. Chen, and Y. Zhang, “Secondary spectrum access networks: recent developments on the spatial models”, IEEE Veh. Technol. Mag., vol. 4, no. 2, pp. 36-43, June 2009. Google Scholar
  85. M. Pätzold, C.-X. Wang*, and B. O. Hogstad, “Two new sum-of-sinusoids-based methods for the efficient generation of multiple uncorrelated Rayleigh fading waveforms,” IEEE Trans. Wireless Commun., vol. 8, no. 6, pp. 3122-3131, June 2009. Google Scholar
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  87. M. Matthaiou, D. I. Laurenson, and C.-X. Wang, “On analytical derivations of the condition number distributions of dual non-central Wishart matrices,” IEEE Trans. Wireless Commun., vol. 8, no. 3, pp. 1212-1217, March 2009. Google Scholar
  88. .Y Zhang, D. Yuan, and C.-X. Wang, “Cross-layer design based on RC-LDPC codes in MIMO channels with estimation errors”, International J. of Electronics and Commun., AEUE, vol. 62, no. 9, pp. 659-665, Oct. 2008. Google Scholar
  89. C.-X. Wang, D. Yuan, H.-H. Chen, and W. Xu, “An improved deterministic SoS channel simulator for efficient simulation of multiple uncorrelated Rayleigh fading channels”, IEEE Trans. Wireless Commun., vol. 7, no. 9, pp. 3307-3311, Sept. 2008. Google Scholar
  90. C.-X. Wang, H.-H. Chen, X. Hong, and M. Guizani, “Cognitive radio network management: tuning in to real-time conditions”, IEEE Veh. Technol. Mag., vol. 3, no. 1, pp. 28-35, March 2008. Google Scholar
  91. X. Hong, C.-X. Wang, B. Allen, and W. Malik, “A correlation based double-directional stochastic channel model for multiple-antenna UWB systems”, IET Microwaves, Antennas & Propagation, Special Issue on Antenna Systems and Propagation for Future Wireless Communications, vol. 1, no. 6, pp. 1182-1191, Dec. 2007. Google Scholar
  92. C.-X. Wang, M. Pätzold, and Q. Yao, “Stochastic modeling and simulation of frequency correlated wideband fading channels,” IEEE Trans. Veh. Technol., vol. 56, no. 3, pp. 1050-1063, May 2007. Google Scholar
  93. C.-X. Wang and W. Xu, “A new class of generative models for burst error characterization in digital wireless channels,” IEEE Trans. Commun., vol. 55, no. 3, pp. 453-462, March 2007. Google Scholar
  94. C.-X. Wang, M. Pätzold, and D. Yuan, “Accurate and efficient simulation of multiple uncorrelated Rayleigh fading waveforms,” IEEE Trans. Wireless Commun., vol. 6, no. 3, pp. 833-839, March 2007. Google Scholar
  95. C.-X. Wang, X. Hong, H. Wu, and W. Xu, “Spatial temporal correlation properties of the 3GPP spatial channel model and the Kronecker MIMO channel model”, EURASIP J. Wireless Commun. and Networking, vol. 2007, Article ID 39871, 9 pages, 2007. doi:10.1155/2007/39871. Google Scholar
  96. H. Zhang, D. Yuan, and C.-X. Wang, “A study on the PAPRs in multicarrier modulation systems with different orthogonal bases,” Wireless Commun. and Mobile Computing, John Wiley & Sons, vol. 7, no. 3, pp. 311-318, March 2007. Google Scholar
  97. N. Youssef, C.-X. Wang, and M. Pätzold, “A study on the second order statistics of Nakagami-Hoyt mobile fading channels,” IEEE Trans. Veh. Technol., vol. 54, no. 4, pp. 1259-1265, July 2005. Google Scholar
  98. C. E. D. Sterian, C.-X. Wang, R. Johnsen, and M. Pätzold, “Rotationally invariant space-time trellis codes with 4-D rectangular constellations for high data rate wireless communications,” J. of Commun. and Networks, vol. 6, no. 3, pp. 258-268, Sept. 2004. Google Scholar
  99. C.-X. Wang and M. Pätzold, “A generative deterministic model for digital mobile fading channels”, IEEE Commun. Lett., vol. 8, no. 4, pp. 223-225, April 2004. Google Scholar
  100. D. Yuan, H. Zhang, C.-X. Wang, Q. Yao, X. Song, and J. B. Huber, “Optimum design criterion and multilevel coding for radio systems over AWGN and Rayleigh fading channels,” Wireless Commun. and Mobile Computing, John Wiley & Sons, vol.3, no. 5, pp. 617-628, August 2003. Google Scholar
  101. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Performance of multilevel coding schemes with different decoding methods and mapping strategies in mobile fading channels,” Chinese Journal of Electronics, English edition, vol. 10, no. 3, pp. 350-355, July 2001.
  102. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “A novel criterion for optimum multilevel coding systems in mobile fading channels,” Chinese Journal of Electronics, English edition, vol. 10, no. 1, pp. 69-73, Jan. 2001.
  103. D. Wu, D. Yuan, M. Jiang, H. Zhang, and C.-X. Wang, “Performance study of COFDM systems with time and frequency interleaving over COST 207 frequency-selective channels”, Journal of Shandong University, vol. 39, no. 1, 2004 (in Chinese).
  104. D. Yuan, Q. Yao, C.-X. Wang, Z. Cao, and J. B. Huber, “Performance study of multilevel coding schemes with different mapping strategies in mobile fading channels,” ACTA ELECTRONICA SINICA, no. 5, 2001 (in Chinese).
  105. D. Yuan, Q. Yao, C.-X. Wang, Z. Cao, and J. B. Huber, “Performance comparison of MLC/MSD and MLC/PDL over mobile fading channels,” ACTA ELECTRONICA SINICA, no. 4, 2001 (in Chinese).
  106. D. Yuan, Q. Yao, C.-X. Wang, Z. Cao, and J. B. Huber, “A non-Euclidean metric for the design of optimum MLC schemes in mobile fading channels,” ACTA ELECTRONICA SINICA, no. 1, 2001 (in Chinese).
  107. D. Yuan, Q. Yao, and C.-X. Wang, “Performance study on RS-MPSK coded modulation scheme over M-distribution fading channels”, Journal of Shandong University, no. 4, 2000 (in Chinese).
  108. D. Yuan, C.-X. Wang, and Q. Yao, “Performance study on bit interleaving scheme of the convolutional code in the mobile image communication system”, Journal of Shandong University, no. 3, 2000 (in Chinese).
  109. D. Yuan, X. Ren, Q. Yao, and C.-X. Wang, “Performance comparison of mobile image communication systems with interleaved (2,1,3) convolutional codes and interleaved BCH codes”, Journal of Shandong University, no. 2, 2000 (in Chinese).
  110. D. Yuan, C.-X. Wang, L. Zhang, and Q. Yao, “Two novel interleaving schemes of BCH codes in mobile fading channels”, Journal of Shandong University, no. 1, 2000 (in Chinese).
  111. D. Yuan, C.-X. Wang, and Q. Yao, “Rayleigh-distributed pseudonym random interleaving scheme of block codes”, Communications Technology, no. 2, 2000 (in Chinese).
  112. D. Yuan, C.-X. Wang, and Q. Yao, “Error-correcting performance of the (2,1,3) Convolutional Code using different interleaving schemes over Rayleigh fading channels”, Wireless Engineering, no. 1, 2000 (in Chinese).
  113. D. Yuan, Q. Yao, and C.-X. Wang, “Channel modeling of M-distributed fading wave channels”, Communications Technology, no. 1, 2000 (in Chinese).
  114. D. Yuan, Q. Yao, and C.-X. Wang, “Application of block interleaving scheme in mobile image communication system”, Communications Technology, no. 1, 2000 (in Chinese).
  115. D. Yuan, C.-X. Wang, and Q. Yao, “Capacity design and simulation for even CDMA mobile cellular communication system”, Computer & Network, Nov. 1999 (in Chinese).
  116. D. Yuan, C.-X. Wang, and Q. Yao, “Software design and computer simulation of uneven CDMA mobile cellular communication systems”, Communications Technology, no. 2, June 1999 (in Chinese).
  117. D. Yuan, Q. Yao, and C.-X. Wang, “On performance of space diversity over Rayleigh fading channels”, Communications Technology, no. 2, June 1999 (in Chinese).

Refereed Conference Papers (135, including 15 Invited Papers and 8 Best Paper Awards):

  1. Y. Wu, S. Yao, Y. Yang, Z. Hu, and C.-X. Wang, “Semigradient-based cooperative caching algorithm for mobile social networks,” in Proc. IEEE GLOBECOM’16, Washington, USA, Dec. 2016.

  2. C. F. Lopez, C.-X. Wang, and R. Feng, “A novel 2D non-stationary wideband massive MIMO channel model,” in Proc. IEEE CAMAD’16, Toronto, Canada, Oct. 2016.

  3. X. Ge, L. Pan, S. Tu, H.-H. Chen, and C.-X. Wang, “Wireless backhaul capacity of 5G ultra-dense cellular networks,” in Proc. IEEE VTC’16-Fall, invited paper, Montreal, Canada, Sept. 2016.

  4. A. Al-Kinani, C.-X. Wang, H. Haas, and Y. Yang, “A geometry-based multiple bounce model for visible light communication channels,” in Proc. IEEE IWCMC’16, invited paper, Peyia, Cyprus, Sept. 2016.--Best Paper Award

  5. A. Weir, C.-X. Wang, and S. Parks, “Pre-clinical investigations of multi-path propagation in transcranial Doppler ultrasound flow phantom,” in Proc. IEEE EMBC’16, Orlando, FL, USA, Aug. 2016.
  6. S. Wu, C.-X. Wang, Y. Yang, W. Wang, and X. Gao, “Performance comparison of massive MIMO channel models,” in Proc. IEEE ICCC’16, Chengdu, China, July 2016.
  7. E. Li, W. Zhang, J. Sun, C.-X. Wang, and X. Ge, “Energy-spectral efficiency tradeoff of visible light communication systems,” in Proc. IEEE ICCC’16, Chengdu, China, July 2016.
  8. J. Sun, W. Zhang, J. Sun, C.-X. Wang, Y. Chen, “Energy-spectral efficiency in simultaneous wireless information and power transfer,” in Proc. IEEE ICCC’16, Chengdu, China, July 2016.--Best Paper Award
  9. L. Bai, C.-X. Wang, S. Wu, H. Wang, Y. Yang, “A wideband multi-confocal ellipsoid model for wireless MIMO communication channels,” in Proc. IEEE ICC’16, Malaysia, June 2016.
  10. P. Ju, M. Zhang, X. Cheng, C.-X. Wang, and L. Yang, “Generalized spatial modulation with transmit antenna grouping for correlated channels,” in Proc. IEEE ICC’16, Malaysia, June 2016.
  11. A. Al-Kinani, C.-X. Wang, H. Haas, and Y. Yang, “Characterization and modeling of visible light communication channels,” in Proc. IEEE VTC’16-Spring, Nanjing, China, May 2016.
  12. Y. Liu, Y. Zhang, A. Ghazal, C.-X. Wang, and Y. Yang, “Statistical properties of high-speed train wireless channels in different scenarios,” in Proc. IEEE VTC’16-Spring, Nanjing, China, May 2016.
  13. S. Wu, C.-X. Wang, H. Aggoune, and M. M. Alwakeel, “A novel Kronecker-based stochastic model for 5G massive MIMO channels,” in Proc. IEEE ICCC’15, Shenzhen, China, Nov. 2015.
  14. A. Ghazal, C.-X. Wang, Y. Liu, P. Fan, and M. K. Chahine, “A generic non-stationary MIMO channel model for different high-speed train scenarios,” in Proc. IEEE ICCC’15, Shenzhen, China, Nov. 2015.
  15. W. Zhang, C.-X. Wang, X. Zhou, and X. Tao, “Design principles for simultaneous wireless information and power transmission systems,” in Proc. IEEE ICCC’15, Shenzhen, China, Nov. 2015.
  16. P. Dong, Z. Bai, S. Gao, X. Zhou, and C.-X. Wang, “Finite length buffer relaying based incremental hybrid decode-amplify-forward cooperative system,” in Proc. IEEE ICCC’15, Shenzhen, China, Nov. 2015.
  17. L. Feng, P. Fan, C.-X. Wang, and A. Ghazal, “A three dimensional geometrical model for deep cutting scenario of high-speed railway,” in Proc. HMWC’15, Xi’an, China, Oct. 2015.

  18. S. Wu, P. Patcharamaneepakorn, C.-X. Wang, H. Aggoune, M. M. Alwakeel, and Y. He, “A novel method for ergodic sum rate analysis of spatial modulation systems with maximum likelihood receiver”, invited paper, in Proc. IWCMC’15, Dubrovnik, Croatia, Aug. 2015.--Best Paper Award

  19. A. Weir, R. Sayer, C.-X. Wang, and S. Parks, “A wall-less poly (vinyl alcohol) cryogel flow phantom with accurate scattering properties for transcranial Doppler ultrasound propagation channels analysis,” in Proc. IEEE EMBC’15, Milan, Italy, Aug. 2015.

  20. Y. Liu, C.-X. Wang, A. Ghazal, S. Wu, and W. Zhang, “A multi-mode waveguide tunnel channel model for high-speed train wireless communication systems”, invited paper, in Proc. EuCAP’15, Lisbon, Spain, Apr. 2015.

  21. X. Wu, Y. Zhang, C.-X. Wang, G. Goussetis, H. Aggoune, and M. M. Alwakeel, “28 GHz indoor channel measurements and modelling in laboratory environment using directional antennas”, invited paper, in Proc. EuCAP’15, Lisbon, Spain, Apr. 2015.

  22. R. Zi, X. Ge, H. Wang, J. Zhang, and C.-X. Wang, “Multiuser massive MIMO uplink performance with mutual coupling effects,” in Proc. IEEE Globecom’14, Austin, USA, Dec. 2014.

  23. A. Weir, C.-X. Wang, and S. Parks, “3-D half-spheroid models for transcranial Doppler ultrasound propagation channels,” in Proc. IEEE BHI’14, Valencia, Spain, June 2014.

  24. S. Wu, C.-X. Wang, B. Ai, and Y. He, “Capacity analysis of finite-scatterer MIMO wireless channels,” in Proc. IEEE ICC’14, Sydney, Australia, June 2014.

  25. C. Robert, C. Moy, and C.-X. Wang, “Reinforcement learning approaches and evaluation criteria for opportunistic spectrum access,” in Proc. IEEE ICC’14, Sydney, Australia, June 2014.

  26. M. Wen, X. Cheng, C.-X. Wang, M. Wang, and B. Jiao, “Optimal selection of pilot positions for frequency domain pilot multiplexing channel estimation in SC-FDE systems,” in Proc. IEEE ICC’14, Sydney, Australia, June 2014.

  27. Y. Fu, C.-X. Wang, R. M. Mesleh, X. Cheng, H. Haas, and Y. He, “A performance study of spatial modulation technology under vehicle-to-vehicle channel models”, in Proc. IEEE VTC’14-Spring, Seoul, South Korea, May 2014.

  28. S. Wu, C.-X. Wang, and H. Aggoune, “Non-stationary wideband channel models for massive MIMO systems”, in Proc. WSCN’13, Jeddah, Saudi Arabia, Dec. 2013.

  29. K. Xue, X. Hong, L. Chen, J. Xiong, J. Shi, and C.-X. Wang, “Performance analysis and resource allocation of heterogeneous cognitive Gaussian relay channels”, in Proc. IEEE Globecom’13, Atlanta, USA, Dec. 2013.

  30. A. Younis, W. Thompson, M. Di Renzo, C.-X. Wang, M. A. Beach, H. Haas, and P. M. Grant, “Performance of spatial modulation over measured real-world channels”, in Proc. IEEE VTC’13-Fall, Las Vegas, USA, Sept. 2013.--Best Student Paper Award

  31. O. Salih, C.-X. Wang, R. Mesleh, X. Ge, and D. Yuan, “Predicting burst error statistics of digital wireless systems with HARQ”, invited paper, in Proc. IWCMC’13, Cagliari, Italy, 1-5 July 2013.

  32. Z. Li, J. Zhang, X. Ge, and C.-X. Wang, “Modeling and performance analysis of maximum achievable rate over Nakagami-m-fading uplink channels”, in Proc. IEEE ICC’13, Budapest, Hungary, 9-13 June 2013.

  33. I. Ku, C.-X. Wang, and J. S. Thompson, “Spectral-energy efficiency tradeoff in multicell cellular networks with adaptive relay cooperation”, in Proc. IEEE Globecom’12, California, USA, 3-7 Dec. 2012.

  34. P. Chambers, X. Hong, Z. Chen, C.-X. Wang, M. Beach, and H. Haas, “The UC4G wireless MIMO testbed”, in Proc. IEEE Globecom’12, California, USA, 3-7 Dec. 2012.

  35. H. Sun, A. Nallanathan, N. Zhao, and C.-X. Wang, “Green data transmission in power line communications”, in Proc. IEEE Globecom’12, California, USA, 3-7 Dec. 2012.

  36. A. Ghazal, C.-X. Wang, H. Haas, M. A. Beach, R. M. Mesleh, D. Yuan, X. Ge, and M. K. Chahine, “A non-stationary geometry-based stochastic model for MIMO high-speed train channels,” invited paper, in Proc. ITST’12, Taiwan, Nov. 2012.

  37. M. Anyaegbu, C.-X. Wang, and W. Berrie, “A sample-mode packet delay variation filter for IEEE 1588 synchronization”, invited paper, in Proc. ITST’12, Taiwan, Nov. 2012.

  38. Z. Zhao, M. Mao, X. Cheng, C.-X. Wang, and B. Jiao, “A novel effective channel estimation scheme applicable to IEEE 802.11p”, invited paper, in Proc. ITST’12, Taiwan, Nov. 2012.--Best Paper Award

  39. X. Cheng, C.-X. Wang, B. Ai, X. Yin, and B. Jiao, “Investigation of multi-link spatial correlation properties for cooperative MIMO channels”, invited paper, in Proc. WCSP’12, Huangshan, China, Oct. 2012.

  40. F. S. Haider, C.-X. Wang, H. Haas, E. Hepsaydir, and X. Ge, “Energy-efficient subcarrier-and-bit allocation in multi-user OFDMA systems,” in Proc. IEEE VTC’12-Spring, Yokohama, Japan, May 2012. Google Scholar

  41. A. Ghazal, C.-X. Wang, H. Haas, M. A. Beach, X. Lu, and D. Yuan, “A non-stationary MIMO channel model for high speed train communication systems,” in Proc. IEEE VTC’12-Spring, Yokohama, Japan, May 2012. Google Scholar

  42. Q. Yao, Y. Yuan, A. Ghazal, C.-X. Wang, L. Luan, and X. Lu, “Comparison of the statistical properties of the LTE-A and IMT-A channel models,” in Proc. IEEE WCNC’12, Paris, France, April 2012. Google Scholar

  43. H. Sun, A. Nallanathan, J. Jiang, D. I. Laurenson, C.-X. Wang, and H. V. Poor, “A novel wideband spectrum sensing system for distributed cognitive radio networks”, Proc. IEEE Globecom’11, Houston, USA, Dec. 2011. Google Scholar

  44. F. Haider, C.-X. Wang, X. Hong, H. Haas, D. Yuan, and E. Hepsaydir, “Spectral-energy efficiency tradeoff in cognitive radio networks with peak interference power constraints,” invited paper, Proc. IEEE ICCT’11, Jinan, China, Sept. 2011.--Best Paper Award Google Scholar

  45. F. Haider, C.-X. Wang, H. Haas, D. Yuan, H. Wang, X. Gao, X.-H. You, and E. Hepsaydir, “Spectral-energy efficiency tradeoff for mobile femtocell networks with resource partitioning schemes,” Proc. IEEE ICCT’11, Jinan, China, Sept. 2011.--Best Paper Award

  46. I. Ku, C.-X. Wang, J. S. Thompson, and P. M. Grant, “Impact of receiver interference cancellation techniques on the base station power consumption in MIMO systems under inter-cell interference”, Proc. IEEE PIMRC’11, Toronto, Canada, Sept. 2011.

  47. H. Sun, A. Nallanathan, J. Jiang, and C.-X. Wang, “Cooperative spectrum sensing with diversity reception in cognitive radios”, Proc. Chinacom’11, Harbin, China, Aug. 2011. Google Scholar

  48. I. Ku, C.-X. Wang, J. S. Thompson, and P. M. Grant, “Transmission energy consumption in MIMO systems under inter-cell interference”, Proc. 2011 Wireless Advanced (WiAd’11), London, UK, June 2011. Google Scholar

  49. Z. Chen, C.-X. Wang, X. Hong, J. S. Thompson, S. A. Vorobyov, and D. Yuan, “Cross-layer interference mitigation for MIMO cognitive radio systems,” Proc. IEEE ICC’11, Kyoto, Japan, June 2011.

  50. Q. Jin, H. Zhang, D. Yuan, J. Xu, and C.-X. Wang, "Energy-efficient spectrum leasing in cognitive relay networks", Proc. CMC11, Qingdao, China, Apr. 2011. Google Scholar

  51. J. Xu, H. Zhang, D. Yuan, Q. Jin, and C.-X. Wang, "Novel multiple relay selection schemes in two-hop cognitive relay networks", Proc. CMC11, Qingdao, China, Apr. 2011. Google Scholar

  52. Y. Yuan, X. Cheng, C.-X. Wang, D. I. Laurenson, X. Ge, and F. Zhao, “Space-time correlation properties of a 3D two-sphere model for non-isotropic MIMO mobile-to-mobile channels”, Proc. IEEE Globecom’10, Miami, USA, Dec. 2010. Google Scholar

  53. L. Xiang, X. Ge, C. Liu, L. Shu, and C.-X. Wang, “A new hybrid network traffic prediction method”, Proc. IEEE Globecom’10, Miami, USA, Dec. 2010. --Best Paper Award Google Scholar

  54. A. Thompson, D. Corne, C.-X. Wang, and C. Murphy, “Optimization of UMTS-LTE scheduling using multi-objective evolutionary algorithms”, Proc. UKCI’10, Essex, UK, Sept. 2010.

  55. M. U. Anyaegbu, A. Weir, and C.-X. Wang, “Higher layer synchronization in an ECMA-368 USB network,” Proc. ICUWB 2010, Nanjing, China, 20-23 Sept. 2010.

  56. X. Cheng, C.-X. Wang, Y. Yuan, D. I. Laurenson, and X. Ge, “A novel 3D regular-shaped geometry-based stochastic model for non-isotropic MIMO mobile-to-mobile channels”, invited paper, Proc. IEEE VTC’10-Fall, Ottawa, Canada, 6-9 Sept. 2010. Google Scholar

  57. Z. Chen, C.-X. Wang, X. Hong, J. S. Thompson, S. A. Vorobyov, and X. Ge, “Interference modeling for cognitive radio networks with power and contention control,” Proc.  IEEE WCNC 2010, Sydney, Australia, 18-21 Apr. 2010. Google Scholar

  58. X. Cheng, C.-X. Wang, and D. I. Laurenson, “A geometry-based stochastic model for wideband MIMO mobile-to-mobile channels”, Proc. IEEE Globecom’09, Hawaii, USA, 30 Nov.-4 Dec. 2009. Google Scholar

  59. O. Salih, C.-X. Wang, D. I. Laurenson, and Y. He, “Hidden Markov models for packet-level errors in bursty digital wireless channels,” Proc.  Loughborough Antennas & Propagation Conference, LAPC 2009, Loughborough, UK, 16-17 Nov. 2009, pp. 385-388. Google Scholar

  60. D. I. Laurenson, M. Matthaiou, X. Cheng, and C.-X. Wang, “Modelling for vehicle to vehicle applications,” invited paper, Proc.  Loughborough Antennas & Propagation Conference, LAPC 2009, Loughborough, UK, 16-17 Nov. 2009, pp. 42-48. Google Scholar

  61. X. Cheng, C.-X. Wang, D. I. Laurenson, S. Salos, and A. V. Vasilakos, “New simulation models for non-isotropic scattering mobile-to-mobile Rayleigh fading channels,” The First International Workshop on Vehicular Communication Technologies, VehiCom 2009, co-located with IWCMC 2009, Leipzig, Germany, 21-24 June 2009. Google Scholar

  62. S. Iqbal, S. R. Chowdhury, C. S. Hyder, A. V. Vasilakos, and C.-X. Wang, Vehicular communication: protocol design, testbed implementation and performance analysis, The First International Workshop on Vehicular Communication Technologies, VehiCom 2009, co-located with IWCMC 2009, Leipzig, Germany, 21-24 June 2009. Google Scholar

  63. X. Cheng, C.-X. Wang, and D. I. Laurenson, “New deterministic and stochastic simulation models for non-isotropic scattering MIMO channels,” Proc. IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2009, Leipzig, Germany, 21-24 June 2009. Google Scholar

  64. O. Salih, C.-X. Wang, and D. I. Laurenson, “Soft bit error modeling for discrete wireless channels,” Proc. IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2009, Leipzig, Germany, 21-24 June 2009. Google Scholar

  65. C.-X. Wang, H.-G. Ryu, H.-H. Chen, and Y. He, “Hybrid ARQ with rate adaptation in multiband OFDM UWB systems,” Proc. IEEE Int. Conf. Communications, ICC 2009, Dresden, Germany, 14-18 June 2009. Google Scholar

  66. X. Cheng, C.-X. Wang, D. I. Laurenson, and A. V. Vasilakos, “Second order statistics of non-isotropic mobile-to-mobile Ricean fading channels,” Proc. Int. Conf. Communications, ICC 2009, Dresden, Germany, 14-18 June 2009. Google Scholar

  67. X. Cheng, C.-X. Wang, and D. I. Laurenson, “Multiple-ring based modeling and simulation of wideband space-time-frequency MIMO channels,” Proc. IEEE Int. Conf. Communications, ICC 2009, Dresden, Germany, 14-18 June 2009. Google Scholar

  68. O. S. Salih, C.-X. Wang, and D. I. Laurenson, “Three-layered hidden Markov models for binary digital wireless channels,” Proc. IEEE Int. Conf. Communications, ICC 2009, Dresden, Germany, 14-18 June 2009. Google Scholar

  69. Z. Chen, S. A. Vorobyov, C.-X. Wang, and J. S. Thompson, “Nash bargaining over MIMO interference systems,” Proc. IEEE Int. Conf. Communications, ICC 2009, Dresden, Germany, 14-18 June 2009. Google Scholar

  70. O. S Salih, C.-X. Wang, and D. I. Laurenson, “Double embedded processes based hidden Markow models for binary digital wireless channels,” Proc. IEEE International Symposium on Wireless Communication Systems, ISWCS 2008, Iceland, 21-24 Oct. 2008, pp. 219-223. Google Scholar

  71. H. Zhang, D. Yuan, and C.-X. Wang, “A modified weighted bit-flipping algorithm for LDPC codes”, Proc. 2nd IET International Conf. on Wireless, Mobile and Multimedia Networks, ICWMMN 2008, Beijing, China, 12-15 Oct. 2008. Google Scholar

  72. H. Zhang, D. Yuan, and C.-X. Wang, “An improved normalized BP-based decoding algorithm for LDPC codes”, Proc. 2nd IET International Conf. on Wireless, Mobile and Multimedia Networks, ICWMMN 2008, Beijing, China, 12-15 Oct. 2008. Google Scholar

  73. X. Hong, C.-X. Wang, J. S. Thompson, B. Allen, and W. Q. Malik, “Deconstructing space-frequency correlated ultrawideband MIMO channels,” invited paper, Proc. International Conference on Ultra-Wideband, ICUWB 2008, Hannover, Germany, 10-12 Sept. 2008, pp. 47-50. Google Scholar

  74. X. Cheng, C.-X. Wang, D. I. Laurenson, H.-H. Chen, and A. V. Vasilakos, “A generic geometrical-based MIMO mobile-to-mobile channel model,” Proc. IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2008, Chania Crete Island, Greece, 6-8 August 2008, pp. 1000-1005. Google Scholar

  75. X. Cheng, C.-X. Wang, D. I. Laurenson, H.-H. Chen, and A. V. Vasilakos, “Space-time-frequency characterization of non-isotropic MIMO mobile-to-mobile multicarrier Ricean fading channels,” Proc. IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2008, Chania Crete Island, Greece, 6-8 August 2008, pp. 994-999. Google Scholar

  76. M. Matthaiou, D. I. Laurenson, and C.-X. Wang, “Reduced complexity detection for Ricean MIMO channels based on condition number thresholding,” Proc. IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2008, Chania Crete Island, Greece, 6-8 August 2008, pp. 988-993. Google Scholar

  77. L. Li, K.-M. Liu, C.-X. Wang, and Y.-A. Liu, “A new reliable scheme for IP service transmission in T-DMB systems,” Proc. IEEE International Wireless Communications and Mobile Computing Conference, IWCMC 2008, Chania Crete Island, Greece, 6-8 August 2008, pp. 1037-1041. Google Scholar

  78. X. Hong, C.-X. Wang, and J. S. Thompson, “Uplink cell capacity of cognitive radio networks with peak interference power constraints,” Proc. International Conference on Communications, Circuits and Systems, ICCCAS 2008, Xiamen, China, 25-27 May 2008, pp. 372-377. Google Scholar

  79. X. Hong, C.-X. Wang, J. S. Thompson, and Y. Zhang, “Demystifying spatial white spaces using stochastic geometry,” Proc. International Conference on Communications, Circuits and Systems, ICCCAS 2008, Xiamen, China, 25-27 May 2008, pp. 350-354. Google Scholar

  80. X. Hong, C.-X. Wang, and J. S. Thompson, “Uplink cell capacity of cognitive radio networks with interference outage constraints,” Proc. International Conference on Communications, Circuits and Systems, ICCCAS 2008, Xiamen, China, 25-27 May 2008, pp. 333-338. Google Scholar

  81. X. Hong, C.-X. Wang, H.-H. Chen, and J. Thompson, “On capacity of cognitive radio networks with average interference power constraints”, Proc. IEEE Int. Conf. Communications, ICC 2008, Beijing, China, 19-23 May, pp. 3578-3582. Google Scholar

  82. H. Sun, D. I. Laurenson, J. S. Thompson, and C.-X. Wang, “A novel centralized network for sensing spectrum in cognitive radio”, Proc. IEEE Int. Conf. Communications, ICC 2008, Beijing, China, 19-23 May, pp. 4186-4190. Google Scholar

  83. X. Hong, C.-X. Wang, and J. S. Thompson, “Interference modeling of secondary networks in spectrum sharing systems”, Proc. IEEE Veh. Techno. Conf., VTC’08-Spring, Singapore, 11-14 May 2008, pp. 1851-1855. Google Scholar

  84. M. Matthaiou, D. I. Laurenson, and C.-X. Wang, “Capacity study of vehicle-to-roadside MIMO channels with a line-of-sight component,” Proc. IEEE Wireless Communications & Networking Conference, WCNC 2008, Las Vegas, USA, 31 March-3 April 2008, pp. 775-779. Google Scholar

  85. X. Cheng, C.-X. Wang, and D. I. Laurenson, “A generic space-time-frequency correlation model and its corresponding simulation model for narrowband MIMO channels,” Proc. 2nd European Conference on Antennas and Propagation, EuCAP 2007, Edinburgh, UK, 11-16 November 2007, pp. 1-6. Google Scholar

  86. H.-G. Ryu, C.-X. Wang, and S.-E. Lee, “Nonlinear distortion reduction for the improvement of the BER performance in OFDM communication systems,” Proc. International Symposium on Communications and Information Technologies, ISCIT 2007, Sydney, Australia, 17-19 October 2007, pp. 67-71.Google Scholar

  87. C. Li, Y. Zhang, D. Yuan, and C.-X. Wang, “AMC-HARQ system based on RC-LDPC codes in MIMO channels”, IEEE International Workshop on Cross Layer Design, IWCLD 2007, Jinan, China, 20-21 September 2007, pp. 161-164. Google Scholar

  88. H.-G. Ryu, S.-K. Kim, S.-E. Lee, and C.-X. Wang, “A PAPR reduction method using constraint code in multicode CDMA system,” IEEE Pacific Rim Conference on Communications, Computers and Signal Processing, PACRIM’07, Victoria, Canada, 22-24 August 2007, pp. 296-299. Google Scholar

  89. H.-G. Ryu, S.-A. Kim, and C.-X. Wang, “A side information embedded PTS scheme in the OFDM communication system,” IEEE Pacific Rim Conference on Communications, Computers and Signal Processing, PACRIM’07, Victoria, Canada, 22-24 August 2007, pp. 300-303. Google Scholar

  90. T. H. Nguyen, H.-G. Ryu, C.-X.  Wang, and H.-H. Chen, “The impact of the I/Q mismatching errors on the BER performance of OFDM communication systems,” Proc. International Conference on Communications, IEEE ICC 2007, Glasgow, UK, 24-28 June 2007, pp. 5423-5427. Google Scholar

  91. X. Cheng, C.-X. Wang, D. Yuan, and H.-H. Chen, “A novel iterative method for turbo equalization,” Proc. IEEE Wireless Communications and Networking Conference, IEEE WCNC 2007, HongKong, China, 11-15 March 2007, pp. 488-492. Google Scholar

  92. C.-X. Wang, “Modeling MIMO fading channels: background, comparison and some progress,” invited paper, Proc. International Conference on Communications, Circuits and Systems, ICCCAS 2006, Guilin, China, 25-28 June 2006, pp. 664-669. Google Scholar

  93. C.-X. Wang, D. Yuan, and W. Xu, “A new efficient method for simulating multiple uncorrelated Rayleigh fading channels,” Proc. International Conference on Communications, Circuits and Systems, ICCCAS 2006, Guilin, China, 25-28 June 2006, pp. 829-833. Google Scholar

  94. X. Cheng, D. Yuan, and C.-X. Wang, “A modified iterative packet combining scheme for intersymbol interference channels,” Proc. International Conference on Communications, Circuits and Systems, ICCCAS 2006, Guilin, China, 25-28 June 2006, pp. 124-127. Google Scholar

  95. C.-X. Wang, X. Hong, H. Wu, and W. Xu, "A comparative study on the spatial correlation characteristics of the 3GPP spatial channel model and the Kronecker MIMO channel model," World Wireless Congress, WWC 2006, San Francisco, USA, 23 – 25 May 2006.

  96. C.-X. Wang and D. Xu, "A study on burst error statistics and error modelling for MB-OFDM UWB systems," The IET Seminar on Ultra Wideband Systems, Technologies and Applications, London, UK, 20 April 2006, pp. 244-248. Google Scholar

  97. X. Hong and C.-X. Wang, "A correlation based double directional stochastic model for MIMO-UWB propagation channels," The IEE Seminar on Ultra Wideband Systems, Technologies and Applications, London, UK, 20 April 2006, pp. 249-253. Google Scholar

  98. C.-X. Wang and W. Xu, “Packet-level error models for digital wireless channels,” Proc. IEEE Int. Conference on Communications, IEEE ICC 2005, Seoul, Korea, May 16-20, 2005, pp. 2184-2189. Google Scholar

  99. C.-X. Wang, W. Xu, and M. Pätzold, “Error models for evaluating error control strategies in EGPRS systems,” Proc. 60th IEEE Vehicular Technology Conference, IEEE VTC 2004-Fall, Los Angeles, USA, Sept. 26-29, 2004, pp. 4238-4244. Google Scholar

  100. C.-X. Wang and M. Pätzold, “A new deterministic process based generative model for characterizing bursty error sequences,” Proc. 15th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 2004, Barcelona, Spain, Sept. 5-8, 2004, pp. 2134-2139. Google Scholar

  101. C.-X. Wang, Wen Xu, and Matthias Pätzold, “A novel generative model for the characterization of digital wireless channels with soft decision outputs,” Proc. Nordic Radio Symposium including Finnish Wireless Communications Workshop, NRS/FWCW 2004, Oulu, Finland, Aug. 16-18, 2004. Google Scholar

  102. C.-X. Wang and M. Pätzold, “Deterministic modeling and simulation of error sequences in digital mobile fading channels,” Proc. IEEE Int. Conference on Communications, IEEE ICC 2004, Paris, France, June 20-24, 2004, pp. 3374-3378. Google Scholar

  103. N. Youssef, C.-X. Wang, M. Pätzold, I. Jaafar, and S. Tabbane, “On the statistical properties of generalized Rice multipath fading channels,” Proc. 59th IEEE Vehicular Technology Conference, IEEE VTC 2004-Spring, Milan, Italy, May 17-19, 2004, pp. 162-165. Google Scholar

  104. C.-X. Wang and M. Pätzold, “Efficient simulation of multiple cross-correlated Rayleigh fading channels,” Proc. 14th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 2003, Beijing, China, Sept. 7-10, 2003, pp. 1526-1530. Google Scholar

  105. C.-X. Wang and M. Pätzold, “A novel generative model for burst error characterization in Rayleigh fading channels,” Proc. 14th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 2003, Beijing, China, Sept. 7-10, 2003, pp. 960-964. Google Scholar

  106. H. Zhang, D. Yuan, M. Jiang, C.-X. Wang, D. Wu, “Performance Analysis of Coded OFDM and Uncoded OFDM System on AWGN and Frequency Selective Fading Channel,” Proc. 7th International Symposium on Communications Theory and Applications, ISCTA 2003, Ambleside, UK, July 13-18, 2003.

  107. C.-X. Wang, M. Pätzold, and Q. Yao, “Stochastic modeling and simulation of frequency hopping wideband fading channels,” Proc. 57th IEEE Vehicular Technology Conference, IEEE VTC 2003-Spring, Jeju, Korea, April 22-25, 2003, pp. 803-807.Google Scholar

  108. C.-X. Wang and M. Pätzold, “Methods of generating multiple uncorrelated Rayleigh fading processes,” Proc. 57th IEEE Vehicular Technology Conference, IEEE VTC 2003-Spring, Jeju, Korea, April 22-25, 2003, pp. 510-514. Google Scholar

  109. C.-X. Wang, N. Youssef, and M. Pätzold, “Level-crossing rate and average duration of fades of deterministic simulation models for Nakagami-Hoyt fading channels,” Proc. 5th Int. Symp. on Wireless Personal Multimedia Communications, WPMC 2002, Honolulu, Hawaii, Oct. 27-30, 2002, pp. 272-276. Google Scholar

  110. C.-X. Wang and M. Pätzold, “Design of a stochastic frequency hopping Rayleigh fading channel simulator with given correlation properties,” Proc. 2nd Int. Workshop on Research Directions in Mobile Communications and Services, Grimstad, Norway, Sept. 26, 2002, pp. 69-72.Google Scholar

  111. C.-X. Wang, M. Pätzold, and B. Itsarachai, “A deterministic frequency hopping Rayleigh fading channel simulator designed by using optimization techniques,” Proc. 13th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 2002, Lisbon, Portugal, Sept. 15-18, 2002, pp. 478-483.Google Scholar

  112. C.-X. Wang and M. Pätzold, “A novel stochastic slow frequency hopping simulation model for Rayleigh channels,” Proc. 4th Int. Symp. on Wireless Personal Multimedia Communications, WPMC 2001, Aalborg, Denmark, Sept. 9-12, 2001, pp. 479-484.

  113. M. Pätzold, Q. Yao, C.-X. Wang, and F. Laue, “Modelling and simulation of spatial-temporal channels for mobile communication systems with adaptive antennas,” ITG-Diskussionssitzung “Systeme mit intelligenten Antennen”, Ilmenau, Germany, March 16, 2001.Google Scholar

  114. D. Yuan, Q. Yao, C.-X. Wang, and Z. Cao, “Research on improved multilevel coding schemes over Rayleigh fading channels,” Proc. IEEE Wireless Communications and Networking Conference, IEEE WCNC 2000, Chicago, Illinois, USA, Sep. 23-28, 2000, pp. 1432-1435.Google Scholar

  115. D. Yuan, Q. Yao, C.-X. Wang, and Z. Cao, “Comparison of multilevel coded modulation with different decoding methods over AWGN channels,” Proc. 11th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 2000, London, UK, Sep. 18-21, 2000, pp. 567-571.Google Scholar

  116. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Optimum criterion for multilevel coding systems in AWGN channels,” Proc. IEEE Int. Conference on Communication Technology, IEEE ICCT 2000, Beijing, China, August 21-25, 2000, pp. 1706-1709.Google Scholar

  117. D. Yuan, Q. Yao, C.-X. Wang, and Z. Cao, “Different decoding methods for multilevel coded modulation over Rayleigh fading channels,” Proc. IEEE Int. Conference on Communication Technology, IEEE ICCT 2000, Beijing, China, August 21-25, 2000, pp.1542-1545.Google Scholar

  118. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Research on rate design for 64QAM multilevel coding system over Rayleigh fading channels,” Proc. 4th World Multi-Conference on Systemics, Cybernetics and Informatics (SCI), and 6th International Conference on Information Systems, Analysis and Synthesis (ISAS), SCI 2000 / ISAS 2000, Orlando, Florida, USA, July 23-26, 2000, vol. IV, invited session.

  119. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Multilevel coded modulation with interleaving and iterative decoding techniques over Rayleigh fading channels,” Proc. 4th World Multi-Conference on Systemics, Cybernetics and Informatics (SCI), and 6th International Conference on Information Systems, Analysis and Synthesis (ISAS), SCI 2000 / ISAS 2000, Orlando, Florida, USA, July 23-26, 2000, vol. IV, invited session.

  120. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Different set partitioning strategies for multilevel coded modulation over mobile fading channels,” Proc. 4th World Multi-Conference on Systemics, Cybernetics and Informatics (SCI), and 6th International Conference on Information Systems, Analysis and Synthesis (ISAS), SCI 2000 / ISAS 2000, Orlando, Florida, USA, July 23-26, 2000, vol. IV, invited session.

  121. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Comparison of multilevel coded modulations with different decoding methods for AWGN and Rayleigh fading channels,” Proc. IEEE Int. Conference on Communications, IEEE ICC 2000, New Orleans, USA, June 18-22, 2000, pp. 1193-1197.Google Scholar

  122. D. Yuan, C.-X. Wang, Q. Yao, and Z. Cao, “Optimization criterion for multilevel coding systems over mobile fading channels,” Future Telecommunications Forum, FTF 1999, Beijing, China, December 1999, pp. 266-270.

  123. D. Yuan, C.-X. Wang, and Q. Yao, “Two novel interleaving schemes of (2,1,3) convolutional code and its performance in the mobile image communication system,” Proc. IEEE Military Communications Conference, IEEE MILCOM 1999, New Jersey, USA, October 31-November 3, 1999, session 26, paper 26.6.

  124. D. Yuan, X. Ren, Q. Yao, and C.-X. Wang, “Performance research of the convolutional code using a novel interleaving scheme in mobile image communication systems and the comparison with interleaved BCH code,” Proc. IEEE 5th Asia-Pacific Conference on Communications (APCC) and 4th Optoelectronics and Communications Conference (OECC), IEEE APCC/OECC 1999, Beijing, China, Oct. 19-21, 1999, pp. 998-1001.Google Scholar

  125. D. Yuan, C.-X. Wang, and Q. Yao, “On performance of BCH codes using two novel interleaving schemes in Rayleigh fading channels,” Proc. IEEE Wireless Communications and Networking Conference, IEEE WCNC 1999, New Orleans, LA, USA, Sept. 21-25, 1999, pp. 589-592.Google Scholar

  126. D. Yuan, C.-X. Wang, and Q. Yao, “The software design and computer simulation of uneven CDMA mobile cellular communication systems,” Proc. 10th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 1999, Osaka, Japan, Sept. 12-15, 1999, pp. 1164-1168.

  127. D. Yuan, C.-X. Wang, and Q. Yao, “Error-correcting performance of the (2,1,3) convolutional code using different interleaving schemes over Rayleigh fading channels,” Proc. 10th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 1999, Osaka, Japan, Sept. 12-15, 1999, pp. 450-454.

  128. D. Yuan, Q. Yao, and C.-X. Wang, “On the performance of the (2,1,3) convolutional code using a novel interleaving scheme and the comparison with interleaved BCH code over Rayleigh fading channels,” Proc. 10th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 1999, Osaka, Japan, September 12-15, 1999, pp. 867-870.

  129. D. Yuan, C.-X. Wang, L. Zhang, and Q. Yao, “Error-correcting performance of BCH codes using two novel interleaving scheme over Rayleigh fading channels,” Proc. 10th IEEE Int. Symp. on Personal, Indoor and Mobile Radio Communications, IEEE PIMRC 1999, Osaka, Japan, September 12-15, 1999.

  130. D. Yuan, C.-X. Wang, and Q. Yao, “The design and simulation of capacity for even CDMA mobile cellular communication system,” 1999 International Workshop on Mobile Communications focused on UMTS & IMT-2000, Chania, Crete, Greece, June 24-26, 1999.

  131. D. Yuan, Q. Yao, and C.-X. Wang, “Performance research and computer simulation of space diversity in Rayleigh fading channels,” 1999 International Workshop on Mobile Communications focused on UMTS & IMT-2000, Chania, Crete, Greece, June 24-26, 1999.

  132. D. Yuan, Q. Yao, and C.-X. Wang, “On performance of RS codes in the m-distribution fading channels,” 1999 International Workshop on Mobile Communications focused on UMTS & IMT-2000, Chania, Crete, Greece, June 24-26, 1999.

  133. D. Yuan, Q. Yao, and C.-X. Wang, “Performance research on RS codes in the M-distribution fading channels”, the Sixth National Youth Communication Conference, Beijing, China, May 8-10, 1999 (in Chinese). This paper received the 3rd prize of the conference best paper award.

  134. D. Yuan, C.-X. Wang, and Q. Yao, “Capacity design and simulation of uneven CDMA mobile cellular communication system”, the Sixth National Youth Communication Conference, Beijing, China, May 8-10, 1999 (in Chinese).

  135. D. Yuan, C.-X. Wang, L. Zhang, and Q. Yao, “Two novel interleaving schemes of BCH codes in Rayleigh fading channels”, the Sixth National Youth Communication Conference, Beijing, China, May 8-10, 1999 (in Chinese). This paper received the 2nd prize of the conference best paper award.

Invited Keynote Speech and Talks (13):

  1. C.-X. Wang, “Recent Developments and Future Challenges on 5G Channel Models,” invited keynote speech, The Global 5G Technology Summit 2016, Shanghai, China, 20-22 July 2016.

  2. C.-X. Wang, “Spectral-energy efficiency trade-off of cellular systems with MFemtocell deployment,” invited talk, IEEE Online Green Communications, 11 Nov. 2015.

  3. C.-X. Wang, “Spectral, energy, and economic efficiency of 5G multi-cell massive MIMO systems with generalized spatial modulation,” invited talk, 973 Project Workshop, Shenzhen, China, 4 Nov. 2015.

  4. C.-X. Wang, “A non-stationary IMT-A MIMO channel model for high-mobility systems,” invited keynote speech, 4th International Workshop on High Mobility Wireless Communications (HMWC 2015), Xi'an, China, 21-23 Oct. 2015.

  5. C.-X. Wang, “Recent advances and future challenges for standardized 5G channel models,” invited keynote speech, 2015 International Forum on Advances in Information Coding and Wireless Communications (AICWC 2015), Chengdu, China, 18-20 Oct. 2015.
  6. C.-X. Wang, “Non-stationary wideband MIMO channel models for high-speed train wireless communication systems,” invited talk, 3rd International Workshop on High Mobility Wireless Communications (HMWC 2014), Beijing, China, 1-3 Nov. 2014.
  7. C.-X. Wang, “Non-stationary wideband channel models for massive MIMO systems,” invited talk, 2nd International Symposium on Wireless Sensor and Cellular Networks (WSCN 2013), Jeddah, Saudi Arabia, 13-16 Dec. 2013.
  8. C.-X. Wang, “Characterization and modeling of rapid time-varying MIMO channels for high-mobility wireless communication systems,” invited talk, 2013 International Forum on Advances in Information Coding and Wireless Communications (AICWC 2013), Chengdu, China, 4-6 Nov. 2013.
  9. C.-X. Wang, “MIMO vehicle-to-vehicle channel models: recent advances and future challenges,” invited keynote speech, International Workshop Series of Sensor Networks and Cellular Systems Research Centre, University of Tabuk, Saudi Arabia, 7 April 2012.
  10. C.-X. Wang, “Recent developments on realistic MIMO channel models,” invited keynote speech, International Workshop on Planning and Optimization of Wireless Networks (OPTNet 2012), Sheffiled, UK, 21-23 Mar. 2012.
  11. C.-X. Wang, “Key wireless technologies for B4G,” invited keynote speech, Wireless World Research Forum (WWRF), Meeting 25, London, UK, 16-18 Nov. 2010.
  12. C.-X. Wang, “Cognitive radio networks: recent advances and future challenges,” invited keynote speech, IEEE International Conference on Intelligent Computing and Integrated Systems (ICISS2010), Guilin, China, 22-24 Oct. 2010.
  13. C.-X. Wang, “Sum-of-sinusoids mobile radio channel models: principles and applications,” invited keynote speech, CIE-YC 2005, Jinan, Shandong, P. R. China, 24-26 Sept. 2005.

Tutorials (5):

  1. C.-X. Wang, “Channel characterization and modeling of 5G wireless communication systems,” Tutorial, in IEEE ICCC’16, Chengdu, China, 27 July 2016.

  2. M. D. Renzo and C.-X. Wang, “The path towards 5G—essential technologies, protocols and tools for enabling 5G mobile communications,” Tutorial, in IEEE ICCC’15, Shenzhen, China, 2 Nov. 2015.

  3. M. D. Renzo, C. Verikoukis, E. Björnson, E. Jorswieck, and C.-X. Wang, “The path towards 5G—essential technologies, protocols and tools for enabling 5G mobile communications,” Tutorial, in IEEE ICC’15, London, U.K., 12 June 2015.

  4. M. D. Renzo, C. Verikoukis, E. G. Larsson, E. Jorswieck, and C.-X. Wang, “The path towards 5G—essential technologies, protocols and tools for enabling 5G mobile communications,” Tutorial, in European Wireless’15, Budapest, Hungary, 20 May 2015.

  5. M. D. Renzo, C. Verikoukis, E. Björnson, E. Jorswieck, and C.-X. Wang, “The path towards 5G—essential technologies, protocols and tools for enabling 5G mobile communications,” Tutorial, in IEEE VTC’15-Spring, Glasgow, U.K., 11 May 2015.

Reports (3):

  1. W. Thompson, M. Beach, J. McGeehan, A. Younis, H. Haas, P. Grant, P. Chambers, Z. Chen, C.-X. Wang, and M. Renzo, “Spatial modulation explained and routs for practical evaluation”, COST IC1004 TD(11)02047, COST IC1004 2nd MCM, Lisbon, Portugal, Oct. 2011.

  2. X. Cheng, C.-X. Wang, and D. I. Laurenson, “An adaptive geometrical-based stochastic model for space-time-frequency correlated MIMO mobile-to-mobile channels”, COST 2100 TD(08) 472, COST 2100 4th MCM, Wroclaw, Poland, 6-8 Feb. 2008.

  3. C.-X. Wang and W. Xu, “A novel generative approach to speed up performance simulations of wireless communication systems”, invention report, Siemens AG, Munich, Germany, registration number: 2004E05718 DE.

Thesis:

  1. C.-X. Wang, “Sum-of-sinusoids mobile fading channel models with applications to error models”, PhD thesis, Aalborg University, Aalborg, Denmark, Defensed on Sept. 22, 2004, 240 pages.

Vacancy(0)

  1. Post-Doctoral Research Associate (PDRA) in Converged Optical and Wireless Networks: http://www.hw.ac.uk/about/careers/jobs/job_SVJDMzM2Ng.htm; Application Deadline: 15 March 2016.
  2. PhD studentship in Smart Interfaces for Converged Wireless and Optical Networks, Application Deadline: 31 March 2016. Please contact cheng-xiang.wang@hw.ac.uk.
  3. Early Stage Researcher (ESR) in Large-Scale and Spatial Modulation MIMOs: Algorithms, 3D Channel Modelling and Experiments: www.hw.ac.uk/jobs; Application Deadline: 15 May 2015.
  4. Early Stage Researcher (ESR) in Measurement-Based Statistical Channel Modelling of mm-Wave Communications: www.hw.ac.uk/jobs; Application Deadline: 15 May 2015.
  5. Post-Doctoral Research Associate (PDRA) in Converged Optical and Wireless Networks: http://www.hw.ac.uk/about/careers/job-opportunities/post-doctoral-research-associate-pdra--19474.htm; Application Deadline: 19 December 2014.
  6. Post-Doctoral Research Associate (PDRA) in Non-Stationary Wireless MIMO Channel Models: http://www.jobs.ac.uk/job/AIO883/post-doctoral-research-associate-in-non-stationary-wireless-mimo-channel-models/; Application Deadline: 14 May 2014.
  7. Post-Doctoral Research Associate (PDRA) in Massive MIMO Systems: http://www.jobs.ac.uk/job/AID226/post-doctoral-research-associate-pdra-in-massive-mimo-systems/; Application Deadline: 10 March 2014.
  8. Post-Doctoral Research Associate (PDRA) in mmWave Channel Measurements and Modelling: http://www.jobs.ac.uk/job/AIE154/post-doctoral-research-associate-pdra/; Application Deadline: 13 March 2014.
  9. PhD opening: http://www.findaphd.com/search/projectDetails.aspx?PJID=39152; Application Deadline: 15 July 2012.
  10. Postdoctoral Research Associate (Network Manager) for the UC4G project: http://www.jobs.ac.uk/jobs/SN552/Postdoctoral_Research_Associate/; Application Deadline: 10 June 2011.
  11. Research Associate for the UC4G Wireless MIMO Testbed Development: http://www.jobs.ac.uk/job/ACQ286/research-associate-for-the-uc4g-wireless-mimo-testbed-development/; Application Deadline: 10 June 2011.

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