WIRELESS COMMS LAB

 

 

 

Research Areas:                                                                             

With a diverse set of skills and experience, our team is exploring the following areas:
  • Network Information Theory
  • Massive Multi-user MIMO
  • Millimeter Wave Technology
  • MIMO-OFDM
  • Detection and estimation for OFDM
  • Space time coding and processing
  • Co-operative Communication
  • Turbo coding and iterative processing
  • Wideband CDMA
  • LDPC coding and Polar coding
  • Ultra Wideband communications
 

Software Defined Radio (SDR) Projects                                              

National Instrument (NI) - USRP based :

  • Physical-layer network coding.
  • Relay networks.
  • 5G Multiple access schemes.
  • Massive MIMO communication systems.
  • Distributed network projects.
  • ALOHA/Coded ALOHA system.


Research Grants :    

                                                                      

  • ARC Linkage Project: To develop reliable communications channels for agricultural areas with difficult terrain. The project will contribute to the crucial communication infrastructures for smart farms, which will lead to higher agricultural productivity and national economy, 2018, $613,000.

  • Tyree Project, Reliable Microgrids for Remote Communities with a communications based Control Architecture, 2017, $618,384

  • Tyree Project, Condition Monitoring System for SER feeders and microgrid/nanogrid systems, 2017, $410,354

  • ARC Linkage Project: Massive connectivity and low latency machine-to-machine communications, 2016, $466,000, LP 160100708

  • ARC Discovery Project: Massive multiple-input, multiple-output technique for 5G wireless networks, 2016, $530,000,  DP160104566.

  • Goldstar Award, Massive multiple-input/multiple-output for wireless data networks, 2014, $40,000

  • Glodstar Award, Large MIMO networks, 2013, $40,000.

  • Rodica Ramer, Jinhong Yuan, Wei Zhang, Alex von Brasch and J. Yi, Major Research Equipment and Infrastructure Initiative (MREII) scheme, Vector network analyzer operating up to 67GHz, 2014, $100,000

  • ARC Discovery Project: Physical Layer Security Techniques for Multiuser Wireless Networks, 2012-2014, $300,000, DP120102607.

  • SCIENCE AND INDUSTRY ENDOWMENT FUND, Evolving Cellular Communications towards Mobile over Fiber Networks, 2013-2015, $126,000

  • ARC Discovery Project: E fficient Cross-layer Coding Techniques for Wireless Networks , 2011-2013, $240,000. DP110104995.

  • ARC Discovery Project: Spectrum Agile Radio Communication Techniques for Future Wireless Broadband Networks, 2008-2010, $335,000

  • ARC Discovery Project: Design of MIMO spatial division multiple access techniques for multi-user wireless data services, 2006-2008, J. Yuan, $256,000.

  • ARC Discovery Project: Space-Time Coding for High Speed Wireless Communications, B. Vucetic and J. Yuan, 2003-2005, $172,536.

  • ARC Discovery project: Channel adaptive space-time (CAST) coding and precoding for wireless downlink packet services, J. Choi and J. Yuan, 2004-2006, $150,000.

  • ARC LIEF project: Development of 4G wireless communication systems and wireless sensor networks, B. Vucetic etc, 2007, $200,000.

  • ARC Linkage project, Design of Space-Time Coding for High Rate Wireless Data Transmission, 2002-2004, APAI scholarship, $66,876.

  • Glodstar Award, Layered coding for wireless data networks, 2002, $15,000.

  • UNSW FRG,  Hybrid-ARQ with Adaptive Turbo Combining for Wireless Packet Data, 2003-3004, $40,000

  • URSP, Turbo Iterative Signal Processing for Mobile Multimedia Communications, 2002, $17,000

  • URSP, High date rate transmissions for wireless mobile Internet, 2001, $15,500.

  • Industry Project, Korean ETRI, Link Adaptive Techniques for OFDMA Systems, 2002-2003, USD 100,000.

  • Industry Project, Korean ETRI, Link Adaptive Techniques for OFDMA Systems, 2004, USD 70,000.

  • FAST Project, Australian Government, Design of Turbo Block Codes and Iterative Decoding, 2004-2005, $22,600.

  • Industrial Project, Huawei, Design of non-binary LDPC codes with variable code lengths and code rates, $.

  • Industrial Project, Huawei, Design of non-binary LDPC coded M-ary Modulation schemes with for future communication systems, $119,531, 2009

  • Industrial Project, Huawei, Link to System models for MIMO systems & performance evaluations for LDSOFDM systems. $106,934, 2014

  • ARC Discovery Project: Cooperative Transmission and receiving for the 4th Generation Cellular Mobile Networks, 2008-2010, $285,000.

 

Collaborations:    

 
Helpful document: