High-speed molecular communication: a solution for 6G?

#Communication #Society #Distinguished #Lecture #Molecular #Communications
Share

IEEE Communication Society Distinguished Lecture


 "High-speed molecular communication: a solution for 6G?" by Prof. Andrew Eckford



  Date and Time

  Location

  Hosts

  Registration



  • Add_To_Calendar_icon Add Event to Calendar
  • University of Manitoba
  • 75, Chancellor's Circle
  • Winnipeg, Manitoba
  • Canada R3T 5V6
  • Building: EITC
  • Room Number: E1-270 (Borger Room)

  • Contact Event Host
  • Pradeepa Yahampath

    Department of Electrical and Computer Engineering

    University of Manitoba, Winnipeg, Manitoba R3T 5V6

  • Co-sponsored by Department of Electrical and Computer Engineering, University of Manitoba


  Speakers

Andrew Eckford Andrew Eckford of York University

Topic:

High-speed molecular communication: a solution for 6G?

Abstract: 6G wireless systems are expected to offer ubiquitous connectivity in presently under-served areas, potentially provided by satellite- and space-based internet-of-things applications. In the search for enabling technologies to achieve these expectations, molecular communication is an important alternative to conventional electromagnetic-based wireless communication. In this talk, we give a brief introduction to molecular communication, and discuss how it may be used to communicate in "wave-denied" environments, where connectivity is desired but wireless cannot be used. We also show that molecular communication can achieve surprisingly high information rates, theoretically unlimited and practically in the gigabit-per-second range, making it a compelling technology for 6G. We finish with a discussion of the current state of the field and propose some experimental next steps.

Biography:

 Andrew Eckford is an Associate Professor in the Department of Electrical Engineering and Computer Science at York University, Toronto, Ontario. His research interests include the application of information theory to biology, and the design of communication systems using molecular and biological techniques. His research has been covered in media including The Economist, The Wall Street Journal, and IEEE Spectrum. His research received the 2015 IET Communications Innovation Award, and was a finalist for the 2014 Bell Labs Prize. He is also a co-author of the textbook Molecular Communication, published by Cambridge University Press.

Address:Department of Electrical Engineering and Computer Science , York University, Toronto, Ontario, Canada