Researchers hope to cut roadside dangers by using ever-shrinking radio
sensors, GPS tracking, and connected vehicle technology to link highway
workers to an alert network.
Working at a construction site is loud,
dirty, and often dangerous. Roadside construction workers deal with the
added risk of being struck by car or truck as it passes through a work
zone, its driver unaware or ignoring flags, cones, or other warnings.
Fatalities happen: 579 people were killed in highway work-zone
related incidents in 2013, according to the American Road &
Transportation Builders Association.
Virginia Tech researchers want to cut that statistic by combining
ever-shrinking radio sensors that construction workers can wear on or
inside vests with connected vehicle technology that allows cars to
"talk" to one another, roadside infrastructure, and personal electronics
such as mobile phones.
The idea: If a collision is about to occur between a vehicle and a
worker, the vest can warn the worker in a matter of seconds, thus saving
a life. Likewise, the motorist will receive a dashboard notification.
The instantaneous alert is possible by short-range communication.
"Any warning we can give them is better than no warning at all," said
Kristen Hines of Clarksville, Tennessee, and a doctoral student with
the Bradley Department of Electrical and Computer Engineering, who is
helping lead the combined effort of the College of Engineering and the
Virginia Tech Transportation Institute.
The InZoneAlert vest has seen numerous changes in its design and
intended use. As of 2014, the vest portion of the alert system -- which
incorporates GPS tracking -- had evolved from that of a backpack-sized
apparatus to the size of a cell phone. New incarnations could shrink it
to the size of a pack of gum.
The vest or similar clothing with GPS-oriented dedicated short-range radio could have wide-ranging uses.
"There are a lot of roadside workers who are not necessarily on
construction sites who could benefit from such a warning," said Tom
Martin, a professor with the College of Engineering who researches
"smart" clothing -- that is, wearable items with woven-in electronic
components that can provide data such as a person's movements. "There
are folks monitoring the status of interstates, policemen [and] first
responders. Anyone who has to be out on the interstate with passing
vehicles could benefit from an individualized warning."
Martin started the effort in 2013 with then-doctoral student Jason
Forsyth, who graduated in 2015 with a doctorate in computer engineering
and is on faculty at York College in Pennsylvania.
The team wants to make the InZoneAlert vest user-friendly, part of a
worker's established uniform or equipment. The alert itself also must be
distinct but not jarring.
"We don't want to add to their cognitive load," said Martin. "We
don't want to give them false alarms. We just want to give them a few
seconds notice to know that someone is coming toward them and then give
them a chance to get out of the way."
In early tests of the InZoneAlert system, Martin said predictions for
potential vehicle-worker conflicts met a 90 percent success rate.
Various alerts are being tested and must work within a loud, tough, dirty, and busy construction site.
"One possible way to get over that challenge is to use other things
that the worker is using," said Hines. "Let's take the hearing
protection for example. The auditory alert could be placed inside of the
hearing protection in a work zone, which means that it can always be
heard over everything. Another possible way is to include other alerting
methods, such as tactile alerts that use a person's sense of touch.
This ranges from vibrations or your clothing suddenly shrinking on you
[or] cuffs compressing."
The Virginia Tech Transportation Institute will test the vest in
real-world demonstrations that involve highway-speed traffic. The
institute already is spearheading work on vehicle-to-vehicle to
vehicle-to-infrastructure communication at the Virginia Smart Road in
Blacksburg, as well as the Interstate 64 corridor near Fairfax,
Virginia. Closed-course tests would occur on the Smart Road.
"We have been simulating the concept in demos done on the Smart Road
along with other applications such as animal detection, collision
avoidance, etc.," said Andy Alden, a researcher with the institute.
Funding for the project has so far comes from inside the College of
Engineering, transportation institute, and Virginia Tech's Institute for
Creativity, Arts, and Technology, the latter of which Martin is
associate director. The researchers are seeking support from the federal
and Virginia units of the Department of Transportation.
"Roadside deaths are a major problem and the advent of connected
vehicle [technology] has opened up new opportunities for a technical
solution that will save lives," said Alden, adding that with proper
investment, the vest could start appearing along highways within five
years.
Source:Virginia Tech 2015
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