Date
19 January 2017
The Dash looks like a discreet hearing aid. But packed inside are a music player, 4 gigabytes of storage, a microphone to take phone calls and sensors that monitor your position, heart rate and body temperature. Photo: Bragi
The Dash looks like a discreet hearing aid. But packed inside are a music player, 4 gigabytes of storage, a microphone to take phone calls and sensors that monitor your position, heart rate and body temperature. Photo: Bragi

HK firm helping to turn wearables into disappearables

At the pace technology is developing, even the most tech-savvy of consumers will find it hard to predict the next big thing in mobile devices. First there were smartphones, then smart watches.

But even as the new Apple Watch piques consumer interest in wrist-worn devices, the pace of innovation and the tumbling cost, and size, of components will make wearables smaller — so small, some in the industry say, that no one will see them.

Within five years, according to Reuters, “wearables” like the Watch could be overtaken by “hearables” — devices with tiny chips and sensors that can fit inside your ear. 

They, in turn, could be superseded by “disappearables” — technology tucked inside your clothing, or even inside your body, the news agency says.

“In five years, when we look back, everything we see [now] will absolutely be classified as toys, as the first very basic steps of getting this right,” says Nikolaj Hviid, the man behind smart earbuds called the Dash.

Developed by Munich-based Bragi GmbH, the Dash is a wireless in-ear headphone that looks like a discreet hearing aid.

But packed inside are a music player, 4 gigabytes of storage, a microphone to take phone calls — just nod your head to accept — and sensors that monitor your position, heart rate and body temperature.

Nick Hunn, a consultant who lays claim to the term “hearables”, reckons the Dash is just the start. He predicts smartwatches will dominate wearable sales for the next three years, then hearables will take over and, by 2020, will account for more than half of a US$30 billion wearable device market.

This rapid shift is being driven, he says, by a new generation of chipsets using Bluetooth wireless communication and using far less power than their predecessors.

Designers now realize “the ear has potential beyond listening to music — it’s an ideal site for measuring a variety of vital signs”, Hunn wrote in a recent report.

A parallel revolution in sensors is making this possible.

Kow Ping, whose Hong Kong company Well Being Digital Ltd. provides algorithms and reference designs on wearable sensing to companies like Philips, Motorola, Haier and Parrot, says chipmakers have invested heavily in reducing the power consumption and size of sensors.

An accelerometer, which measures things like position, motion and orientation, for example, is now 1 square millimeter. “A few years ago,” he says, “it was two or three times as big and two or three times less refined.”

When they can harvest energy from the body’s heat or motion they’ll be even smaller, autonomous and ubiquitous.

Andrew Sheehy of Generator Research calculates that, for example, the heat in a human eyeball could power a 5 milliwatt transmitter — more than enough, he says, to power a connection from a smart contact lens to a smartphone or other controlling device.

And Ping’s company is working with a top Asian university to add sensors to a sports bra which could harvest energy from relative motion.

In five years, he says, “there will be people building sensors into every existing wearable device or apparel”.

Bragi’s Hviid calls these “disappearables”. And while medical and fitness top the list of what these devices might measure, he and others are looking beyond that.

A dozen sensors in your pants, he suggests, could advise on how to improve your posture or gait when trying to impress a suitor.

“It’s more like a butler … they do some basic stuff that you really want, but there are deeper experiences in there,” Hviid says.

Sheehy of Generator Research points beyond the personal, as parallel advances in machine learning and artificial intelligence “come together and lead to some remarkable use cases”.

A politician’s contact lens, for example, might provide real-time feedback from a sample of voters, allowing for a speech to be tweaked on the fly.

A lot of this technology is already here.

Google is working with Novartis on a contact lens to measure glucose levels in tears. The healthcare group has also invested in Proteus Digital Health, a biotech start-up which promises edible embedded microchips, the size of a grain of sand, which are powered by stomach juices and transmit data via Bluetooth.

“We’re looking at a major technological revolution of a similar magnitude to the mobile revolution,” says Sheehy.

Not everyone agrees that disappearables are necessarily just around the corner. Wearables still need to gain widespread acceptance — remember Google Glass — and the technology still needs to finessed.

While Bragi has raised more than US$3 million from crowdfunding website Kickstarter and another US$10 million from angel investors, Hviid says communication problems between the left and right earbuds have delayed launch of the Dash until September. It was originally due out late last year.

Ping’s company has been working since 2006 on wearables, and owns more than a dozen patents, but he says bringing all the technical parts together, understanding the consumer and mastering manufacturing pose a real challenge.

“It’s very tricky,” he says.

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Kow Ping (center) is the man behind Well Being Digital Ltd. which provides algorithms and reference designs on wearable sensing to companies like Philips, Motorola, Haier and Parrot. Photo: Wbd101/Facebook


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