Safieddin (Ali) Safavi-Naeini has been immersed for more than 15 years in the complex technical details of his work on intelligent antenna systems for Internet connectivity.
But as he embarks on the next phase of his cutting-edge research – a five-year project backed by $6.1 million in joint government-industry funding that was announced today – he hasn’t lost sight of what his research could ultimately mean in the big picture.
“I am very optimistic that this will make the world a better place,” said Safavi-Naeini, director of the Centre for Intelligent Antenna and Radio Systems (CIARS) at Waterloo Engineering. “I’m hopeful we engineers can be a force for change.”
A team of researchers led by Safavi-Naeini, a professor of electrical and computer engineering, is developing low-cost, modular antennas capable of redirecting themselves electronically to maintain links with overhead satellites or base stations for ground networks.
Their most immediate application, the focus of a partnership with C-COM Satellite Systems Inc. of Ottawa, will be delivering broadband Internet service to moving vehicles – cars, planes, trains, buses – anywhere in the world.
Leslie Klein, a Waterloo Engineering alumnus who co-founded C-COM, said the size of that market alone would be “astronomical,” with flat antenna systems formed to the sides or roofs of vehicles providing inexpensive, reliable, high-speed connections.
Once the antennas are in mass production, both men envision an even greater impact in the vast majority of the world, especially developing countries, not serviced by expensive ground infrastructure. Antenna panels on the sides of buildings, for instance, could link directly to satellites instead.
Safavi-Naeini is “very honoured” to think the so-called active antenna systems – essentially many tiny, simple antennas working together, instead of one large parabolic antenna – could bring knowledge and opportunity to billions of people who have been left behind so far by the high-tech revolution.
'Just scratching the surface'
“I believe we’re just scratching the surface of what is possible,” he said. “There are so many applications to come in the future, you cannot even imagine it.”
Two other near-term applications for the smart antennas – which would diagnose and adjust to the failure of some of their own parts, improving reliability through “graceful degradation” – are in 5G communications networks and sensors for autonomous cars.
Both areas would involve the use of millimetre wavelength radio frequencies, which have the potential to increase the capacity to send and receive data by 100 times or more.
For proposed fifth-generation mobile networks, which Safavi-Naeini expects to be a reality within about five years, the antennas could handle dramatically increased bandwidth while consuming little power due to their directed, focused beams.