University Awards
Recognising Excellence
  • Wireless communication
  • Wireless energy transfer
  • Optimisation theory
  • Signal processing
  • Information theory
  • Contributed important findings in three areas – receiver architectures, multiple-input and multiple-output transmitter optimised designs, and the rate-energy region for characterising performance trade-offs – in making the performance of radio signals for simultaneous wireless information and power transfer (SWIPT) possible and feasible, as well as devised a first-ever integrated information and energy receiver design
  • Overturned the conventional view that wireless interference is detrimental to wireless information transmission in SWIPT, proving instead it could be a beneficial energy source
  • Pioneered studies on optimally managing wireless communications with intermittent environmental energy sources, including the development of a “staircase” structure as an ideal power allocation scheme
  • Built on his work on wireless communications with unstable energy sources to authenticate a significant "separation principle" for reducing the complexities involved
  • Innovative and highly collaborative in pioneering interdisciplinary research on a promising unified study of wireless information and power transfer
  • More than 3,500 citations received for over 50 papers, a phenomenally high figure among the world’s researchers in his field
  • Several high-impact papers published in prestigious Institute of Electrical and Electronics Engineers (IEEE) journals rank among the journals’ top three most-cited
  • Holds a Hirsch index of 40, indicating high research quality and impact
  • A well-respected reviewer for over 10 of IEEE’s journals and 15 of its conferences
  • Appointed as associate editor of IEEE Transactions on Wireless Communications and IEEE Transactions on Signal Processing
  • A regular invited speaker at established and prestigious conferences worldwide
  • 6th IEEE Communications Society Asia-Pacific Best Young Researcher Award (2011)
  • Young Investigator Award, NUS (2011)
“To develop a theoretical foundation for optimising the efficiency of coexisting wireless information and power transfer to help build the next-generation wireless infrastructure capable of supporting both data and energy access over the air.”