Computational creativity and the future of AI

Developing a 'smart cane' for the blind


October 4, 2010

A conventional white cane (Photo: Ryxhd123)

A conventional white cane (Photo: Ryxhd123)

For the past several years, various research institutions and organizations have been experimenting with electronic “white canes” for the blind. One of these was the ultrasound-enabled UltraCane, which we profiled five years ago. Now, however, an associate professor of applied science at the University of Arkansas is working on something more advanced – a white cane that utilizes laser technology to give users the lay of the land.

U Arkansas’ Dr. Cang Ye and his colleagues plan to use a Flash LADAR (laser detection and ranging) three-dimensional imaging sensor to create a detailed model of the user’s environment. Unlike other laser ranging systems that require the laser to mechanically scan back and forth across the environment, Flash takes everything in at once, within sequential floodlit exposures that typically lasts less than a nanosecond each – this is particularly well-suited to people on the move.

The Flash system obtains two images per exposure, one that measures the physical range (or distance away) of each pixel, and one that measures their intensity. Ye’s team has created an algorithm called VR-Odometry (VRO), that uses this data to calculate the user’s position within their environment. VRO compares the same feature in each two adjacent intensity images, and observes the differences between the two to determine how the user and that feature are moving relative to one another. By combining this information with the range information for that same feature, the system lets the user know where they are in their environment, and where they’re going.

By processing the VRO output through 3D data segmentation software, the system should reportedly be able to identify things such as staircases, doorways, drop-offs in the floor, or overhead bulkheads. Once these obstacles and/or hazards are identified, the system would provide that information to the users through auditory cues.

“This is crucial navigational information that is difficult to obtain by using a conventional white cane,” Ye said. “The project’s hypothesis is that a single Flash LADAR sensor can solve blind navigation problems — avoiding obstacles and way-finding. Thus it is possible to build [a] portable navigational device.”

The project was made possible by a US$320,389 research grant from the National Science Foundation’s Robust Intelligence Program, to develop navigational devices for the blind.

About the Author
Ben Coxworth An experienced freelance writer, videographer and television producer, Ben's interest in all forms of innovation is particularly fanatical when it comes to human-powered transportation, film-making gear, environmentally-friendly technologies and anything that's designed to go underwater. He lives in Edmonton, Alberta, where he spends a lot of time going over the handlebars of his mountain bike, hanging out in off-leash parks, and wishing the Pacific Ocean wasn't so far away.   All articles by Ben Coxworth

This is certainly an improvement over the laser canes producted in the late '80's!

David Jeppson
20th May, 2011 @ 09:37 am PDT

hi .....will great job u did here

but wt if u use a PING- Ultrasonic Distance Sensor??

would it detect the staircases, doorways also ??!!

Suzan A Azzam
27th May, 2012 @ 09:23 am PDT
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