More than 39 million people around the world are blind. For many of these individuals, braille – a reading and writing system that utilizes a series of raised dots that represent letters, numbers and punctuation – is a valuable tool. Now, researchers from the Georgia Institute of Technology have developed a wearable computer glove that can teach braille, even when the user’s attention is on another activity.

The research team – including Thad Starner, a professor at Georgia Tech and a technical/lead manager on Google’s Project Glass – first created a technology-enhanced glove back in 2008, called Piano Touch. The glove could teach individuals how to play piano melodies in 45 minutes.

Their latest creation is an advancement on Piano Touch, which has been built around a process called passive haptic learning (PHL) – the idea that people can learn a skill unconsciously without devoting full attention to what they are learning.

“We’ve learned that people can acquire motor skills through vibrations without devoting active attention to their hands,” says Tharner.

According to the researchers, only 10% of blind people learn braille. They believe it is something that is largely neglected in schools and note that the system can also be difficult to learn as a person ages, when blindness is most common. But could this new wearable technology help with the braille learning process?

The team put the new glove to the test in order to see how well the technology could teach braille.

For their study, participants were required to wear the gloves during a series of tasks. The gloves consist of small vibrating motors that are stitched into the knuckles.

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Researchers tested the glove using participants with no knowledge of braille to see how well it could teach the system.
Image credit: Georgia Tech.

In the first task, the motors in the glove vibrated in a sequence that correlated with a typing pattern of a premeditated phrase in braille. The participants were given audio cues that let them know what braille letters were produced through typing that particular sequence.

Each participant was then required to type the phrase once on a keyboard without any vibrations or audio cues while the researchers measured their accuracy.

In the following task, participants were asked to play a computer game for 30 minutes – as a distraction – while wearing the glove. Half of the participants were presented with repeated vibrations and audio cues that represented the same braille phrase as the previous task, while the remaining participants acted as a control group and were only given audio cues.

The researchers note that the subjects had no previous knowledge of braille and the tasks did not include visual feedback, meaning participants were unaware of their accuracy.

On comparing the participants’ results with those of the first task, the team found that those in the control group had about the same level of accuracy.

However, those who had repeated vibrations and audio cues in the second task were a third more accurate, with some even gaining perfect accuracy. Furthermore, the researchers found that these participants were then able to effectively go from writing braille to reading it.

“After the typing test, passive learners were able to read and recognize more than 70% of the phrase’s letters,” says study co-author Caitlyn Seim, a student at Georgia Tech.

Seim is now in the process of conducting another study, which involves using the glove to teach the full braille alphabet to participants. She says that so far, 75% of subjects have demonstrated perfect typing accuracy. In addition, participants were able to recognize and read more than 90% of braille letters after 4 hours of learning.

Medical News Today recently reported on another creation for the visually impaired by researchers from Oxford University in the UK – “Smart glasses.” The glasses have been designed to help near-blind users navigate public spaces and better interact with others, as the glasses enhance facial features.