![]() |
Stick Ear |
Someone knocks, the light turns green.
Someone yells, it flashes red.
The device is called StickEar and the team at Singaporean startup Embodied Sensing has launched a crowdfunding campaign to get the first ones made.
The
models will be tested by a number of deaf organizations so that the
design can be refined, with the hope that StickEar will become a viable
commercial product.
"We've interviewed a lot of deaf people --
one of the most important things they wanted to know is if someone's
knocking on the door," says Kian Peen, the co-founder of Embodied
Sensing.
There are number of products
on the market to alert the hard of hearing to the doorbell -- either by a
very loud sound, lights or vibrations. But the team behind StickEar say
the advantage of their device is that it's portable, and doesn't
require potentially costly installation.
"When
they travel, when they go to a hotel or even to their workplace, these
sort of systems haven't been installed. So this is something portable
that they can bring around with them," says Peen.
The
StickEar sends signals to sensors that the company calls "lumies." "You
can deploy multiple lumies in the house, one in the kitchen, one in the
bathroom, one in the bedroom, and whenever the sensor gets triggered it
hears a sound, the lumies start lighting up," Peen says.
StickEar is one of the devices developed at Singapore's Augmented Human Lab, at the Singapore University of Technology and Design.
The
Lab was established by Assistant Professor Suranga Nanayakkara,
co-founder of Embodied Sensing, and a passionate advocate of new
technologies that fit seamlessly into people's lives to make tasks
easier -- or just more fun.
For the blind, the team is developing the FingerReader, a ring that "reads" words aloud as you slide your finger along them.
"Your fingertip of your index finger is
your cursor. And the word in front of your index finger is read back to
you. If you're deviating from the line, it vibrates and gives you a
signal to come back to the line," Nanayakkara says.
The
FingerReader is not meant for reading large volumes of text, but small
text fragments like name cards, menus and book titles on library
shelves, he adds.
Like the lab's other
projects, the FingerReader has other potential applications beyond its
primary use. For example, it could be used by travelers to translate
menus into a foreign language. Or perhaps, by children who haven't yet
learned to read their favorite books.
It's
also works with another program called FingerDraw, which allows the
wearer to point at real-life objects and use the colors and texture of
nature to draw onto a screen, for example, an iPad.
![]() |
zSense |
Another device currently being refined is the zSense,
a ring that detects the wearer's thumb movements. Right now, the
prototype is being used to control a simple video game, but the team
hopes that one day it's built into smart wearable technology.
The
idea was to dramatically reduce the number of sensors that detect
movement into a tiny device with limited processing power. "It is not
sophisticated -- the amount of gestures that it will detect is lower --
but it is still sufficient to get things done," says Anusha Withana, of
the Augmented Human Lab.
Withana says the device can detect seven separate gestures, and the recognition rate is about 92% -- in line with industry standards.
That
means in about 8% of instances the device gets confused, but that's the
cost of shrinking the device to the extent that it can be embedded in a
watchface, glasses or perhaps even a device that fits in your ear.
It's not there yet, but the team has been given a SMART Innovation grant to explore its commercial potential.
No comments:
Post a Comment