Invited Talks



  1. Wavelet Transforms and Applications, Department of Electrical and Computer Engineering, University of Wisconsin at Madison, Feb. 12, 1995.
  2. A New Method for Intersymbol/Interchannel Interference Cancellation Using Filterbank Precoding, Department of Electrical Engineering, California Institute of Technology, Feb. 28, 1996.
  3. Vector-Valued Wavelets and Multiwavelets, American Mathematical Society AMS #918 Joint Meeting at San Diego, California, Jan.8-11, 1997.
  4. A New Prefiltering for Multiwavelet Transforms, American Mathematical Society AMS #927 Meeting at Milwaukee, Wisconsin, Oct. 24-26, 1997.
  5. A New Precoding for Intersymbol Interference Cancellation, Hughes Network Systems, Germantown, Maryland, May 1, 1997.
  6. System identification using time-frequency analysis and synthesis, The Joint Mathematics Meetings, Baltimore, Maryland, Jan. 7-10, 1998.
  7. Gabor transforms: some new properties and applications, The 1998 Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, California, Nov. 1998.
  8. ISI Mitigation Using Nonmaximally Decimated Multirate Filterbanks as Precoders, The 1998 Symposium on Image, Speech, Signal Processing and Robotics, Sept. 3-4, Hong Kong, 1998.
  9. Some properties of multirate filterbank precoders for ISI mitigation, SPIE'99, Denver, 1999.
  10. Prefiltering for Discrete Multiwavelet Transforms with Applications in Image Compression, Center for Theoretical Studies of Physical Systems, Clark Atlanta University, Dec. 14, 1999.
  11. Detection, Location and Imaging of Fast and Slow Moving Targets and Ships Using Multi-frequency Antenna Array SAR (MFAASAR), The Atlanta IEEE Chapter of the AES and GRS Societies, Dec. 14, 1999.
  12. Space-Time Modulated Codes for Memory Channels: Capacity and Information Rates, Zero-Forcing Decision Feedback Equalizer, the first IEEE Sensor Array Multichannel (SAM) Signal Processing Workshop, Boston, Mar. 16-17, 2000.
  13. A New Channel Indepedent Precoded OFDM Systems Robust to Spectral Null Channels, the IEEE Wireless Communications and Networking Conference, Chicago, Sept. 2000.
  14. Polynomial Ambiguity Resistant Precoders (PARP) for MIMO Channels: Necessity and Sufficiency for the Blind Indentifiability and PARP Characterization and Construction, The 2000 Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, California, Nov. 2000.
  15. Vector OFDM for Single Transmit Antenna Systems, Southeast University, Nanjing, China. Jan, 2002.
  16. Detection, Location and Imaging of Fast and Slow Moving Targets and Ships Using Multi-frequency Antenna Array SAR (MFAASAR), The Institute of Electronics, the Chinese Academy of Science, Beijing, China, Jan. 2002.
  17. Space-Time Block Codes, Compositions of Quadratic Forms, and Orthogonal Designs, University of Southern California, April 22, 2002.
  18. Space-Time Block Codes, Compositions of Quadratic Forms, and Orthogonal Designs, University of Cincinnati, May 6, 2002.
  19. Space-time codes and multi-antenna communication systems, the National Natural Science Foundation of China, Aug. 5, 2002.
  20. Space-Time Block Codes, Compositions of Quadratic Forms, and Orthogonal Designs, The Chinese University of Hong Kong, Sept. 27, 2002.
  21. Space-Time Block Codes, Compositions of Quadratic Forms, and Orthogonal Designs, The City University of Hong Kong, June 25, 2003.
  22. Space-Time Coding/Modulation for Multiple Antenna Systems, Ryerson University, May 14, 2004.
  23. Cyclotomic Rings, Lattices and Space-Time Block Codes, Air Force Rome Lab., Dec. 8, 2004.
  24. Space-time coding for multiple antenna systems, Tsinghua University, May 20, 2005.
  25. Space-time-frequency coding for MIMO OFDM systems, Philips Research Labs, July 12, 2005.
  26. Space-time-frequency coding for MIMO OFDM systems, Intel China, Beijing, August 25, 2005.
  27. High rate space-time-frequency coding for MIMO OFDM systems, 1st Tsinghua International Forum for Doctoral Candidates (TIFDC 2005), Tsinghua University, Beijing, China, Sept. 3, 2005.
  28. Space-time coding for multiple antenna systems: concept and state of the art, Southeast University, Nanjing, China, July 4, 2006.
  29. Generalized Chinese Remainder Theory and Under Nyquist Samping with Applications in Sensor Networks, University of Electronic Science and Technology of China, Oct. 23, 2006.
  30. Space-time coding for multiple antenna systems: concept and state of the art, University of Electronic Science and Technology of China, Oct. 25, 2006.
  31. New Recursive Space-Time Trellis Coding from General Differential Encoding, Information Theory Workshop (ITW), Chengdu, Oct. 22-26, 2006.
  32. Space-Time Coding and Modulation for Multiple Antennas: What Is Left?, InterDigital Corp, King of Prussia, PA, May 2, 2007.
  33. Space-Time Coding: What Is Left?, ICCCN 2007, Honolulu, Hawaii, Aug. 13, 2007.
  34. Generalized Chinese remainder theorem, below Nyquist sampling with applications in sensor networks, Xidian University, Xi'an, China, Nov. 4, 2007.
  35. Robust phase unwrapping, robust Chinese remainder theorem, SAR imaging of moving targets, The First Asia Pacific Synthetic Aperture Radar (APSAR) 2007, Huangshan, China, Nov. 5-9, 2007. Plenary Talk.
  36. Space-time coding/modulation for MIMO systems: what is left? South China University of Technology, Guangzhou, China, Nov. 7, 2007.
  37. Space-time coding/modulation for MIMO systems: what is left? Hong Kong University of Science and Technology, Nov. 8, 2007.
  38. Space-time coding/modulation for MIMO systems: what is left? Huawei, Shenzhen, China, Nov. 9, 2007.
  39. A family of distributed space-time trellis codes achieving full diversity for asynchronous cooperative communications, Southeast University, Nanjing, China, Nov. 10, 2007.
  40. Space-time coding/modulation for MIMO systems: what is left? Beihang University, Jan. 16, 2008.
  41. Space-time coding/modulation for MIMO systems: what is left? Shanghai Jiao Tong University, Jan. 25, 2008.
  42. Distributed Linear Space-Time Convolutional Codes Achieving Asynchronous Full Cooperative Diversity With MMSE-DFE Receivers, WCNC 2008, Special Paper Presentation, Las Vegas, April 2, 2008.
  43. Sunzi Theorem and Signal Processing, The Institute of Electronics, The China Academy of Science, Beijing, May 23, 2008.
  44. Space-time coding/modulation for MIMO systems: what is left? Xi'an Jiao Tong University, May 29, 2008.
  45. Sunzi Theorem and Signal Processing, Xi'an Jiao Tong University, May 29, 2008.
  46. Space-time coding/modulation for MIMO systems: what is left? Huazhong University of Science and Technology, June 1, 2008.
  47. Space-time coding for cooperative communications, ACoRN Workshop on Co-operative Wireless Communications, Keynote presentation, Melbourne, Australia, July 16, 2008.
  48. Space-time coding for cooperative communications, Distinguished Lecture Series, Shun Hing Institute of Advanced Engineering, The Chinese University of Hong Kong, July 21, 2008.
  49. Sunzi Theorem and Signal Processing, Distinguished Lecture Series, Shun Hing Institute of Advanced Engineering, The Chinese University of Hong Kong, July 23, 2008.
  50. Space-time coding for cooperative communications, Department of Electrical Engineering, SUNY at Buffalo, Oct. 24, 2008.
  51. Sunzi Theorem and Signal Processing, The Second International Conference on the Advances of Hilbert-Huang Transform and its Applications, Guangzhou, China, Dec. 15, 2008.
  52. Space-time coding for cooperative communications, University of Electronics Science and Technology of China, Chengdu, China, Dec. 17, 2008.
  53. Space-Time Codes with Simplified Receivers, Southeast University, Nanjing, China, Dec. 19, 2008.
  54. Sunzi Theorem and Signal Processing, University of New South Wales, Sydney, Australia, Jan. 22, 2009.
  55. Space-Time Codes Based on Linear Receivers and PIC Group Decoding, University of Sydney, Jan. 28, 2009.
  56. Space-time coding for cooperative communications, Tsinghua University, Beijing, China, Mar. 20, 2009.
  57. Space-time coding for cooperative communications, BeiHang University, Beijing, China, Mar. 31, 2009.
  58. Sunzi Theorem, Signal Processing, and Phase Unwrapping, Beijing Institute of Tech., Beijing, China, April 1, 2009.
  59. Space-Time Codes, Orthogonal Designs, and Compositions of Quadratic Forms, Nankai Workshop on Information Theoy and Information Science (Dedicated to Prof. Guoding Hu's 86 and Prof. Shiyi Shen's 70 Years Birthdays), Nankai University, Tianjin, China, July 6, 2009.
  60. Sunzi Theorem, Signal Processing, and Phase Unwrapping, Beijing University, Beijing, China, July 13, 2009.
  61. Achieving Full Diversity and Fast ML Decoding via Simple Analog Network Coding for Asynchronous Two-Way Relay Networks, Southeast University, Nanjing, China, July 24, 2009.
  62. Space-time coding for cooperative communications, Xi'an Jiao Tong University, Xi'an, China, August 8, 2009.
  63. Achieving Full Diversity and Fast ML Decoding via Simple Analog Network Coding for Asynchronous Two-Way Relay Networks, Distinguished Lecture Series, Shun Hing Institute of Advanced Engineering, The Chinese University of Hong Kong, Hong Kong, August 13, 2009.
  64. Space-time coding for cooperative communications, ETRI, South Korea, Oct. 13, 2009.


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