Fast 5G wireless networks have barely gotten out of the gate globally, but already about 2 million 5G smartphones have been sold in South Korea.
This early momentum from very limited 5G network rollouts to date have raised hopes in the cellular industry that 5G can spark a turnaround in the stagnant smartphone market as network coverage becomes more widespread starting next year.
Qualcomm, a leading U.S. player in developing 5G technologies, hosted a workshop for technology analysts and journalists this week highlighting the work done so far on 5G. The technology promises to bring blazing fast download speeds, low lag times and high network reliability to not only smartphones but also for augmented reality smartglasses, virtual reality headsets, vehicle-to-vehicle/vehicle to infrastructure smart cities communications and connected smart factories.
"The initial launch of 5G is about mobile broadband, and mobile broadband is smartphones," said Jim Thompson, Qualcomm's chief technology officer. "That's what pays the bills. But our vision of 5G goes well beyond that."
Wireless network operators including Verizon, AT&T, Sprint and T-Mobile have lighted up 5G in neighborhoods in a few cities this year, with expansion expected next year. About 150 device makers have inked supply deals with Qualcomm to provide 5G chips for their smartphones and mobile hotspots.
A vast majority of high-end mobile phones that launch next year will be 5G, said Thompson. "For Qualcomm, this is an accumulation of a lot of years of work."
Initially, 5G is expected to deliver peak speeds up to five time faster than 4G LTE. Over the long haul, 5G aims to deliver speeds 20 times faster -- powering everything from ultra high definition streaming video to console-like mobile gaming.
5G also eventually aims to deliver a 10-fold improvement in transmission lag times, enabling cellular to power things sensitive to delays such as virtual reality headsets and industrial robots.
To deliver the speeds and the capacity to connect millions of devices beyond smartphones, 5G taps a wide range of airwave spectrum, including high frequency bands known as millimeter wave that haven't been used for cellular before.
While millimeter wave serves up vast swaths of bandwidth to drive unlimited data plans, it does have drawbacks. Signals don't travel very far. They can't penetrate buildings and are easily blocked by foliage and even rain. They require complex beam forming and beam tracking technologies to work well,