Reaching for robotic arm improvements
Laura S. Marshall, laura.marshall@photonics.com
The bionic implants in
The Six Million Dollar Man might not be a
reality anytime soon, but a nearly $6 million neurophotonics center is working on
it. And fiber optics could be the key to robotic arm prostheses that would make
Steve Austin proud.
Two-way fiber optic communication between prosthetic limbs and
peripheral nerves – which could enable the operation of robotic hands, arms
and legs with realistic movements and the ability to “feel” heat and
pressure – are in development at the Neurophotonics Research Center at Southern
Methodist University (SMU) in Dallas.
DARPA recently provided $5.6 million in funding for the center
as part of its Centers in Integrated Photonics Engineering Research project, also
known as CIPhER, the goal of which is to improve quality of life for military amputees
returning from the wars in Iraq and Afghanistan.
But amputees aren’t the only ones who could benefit from
the fiber optic connection. “This technology has the potential to patch the
spinal cord above and below a spinal injury,” said Marc Christensen, center
director and electrical engineering chairman in SMU’s Lyle School of Engineering.
“Someday, we will get there.” Implants for tremor control and chronic
pain management are other future applications envisioned by the researchers.
The link in development would be compatible with living tissue
in a way experimental metal nerve interfaces are not; being fiber optic, it would
run no risk of rejection or destruction by the immune system. It could contain hundreds
or thousands of sensors in a single fiber.
“Team members have been developing the individual pieces
of the solution over the past few years, but with this new federal funding, we are
able to push the technology forward into an integrated system that works at the
cellular level,” Christensen said. Besides SMU, the team includes researchers
at Vanderbilt University, Case Western Reserve University, the University of Texas
at Dallas and the University of North Texas. Industrial partners include Lockheed
Martin (Aculight), Plexon, Texas Instruments, National Instruments and MRRA.
“Science-fiction writers have long imagined the day when
the understanding and intuition of the human brain could be enhanced by the lightning
speed of computing technologies,” said Dr. Geoffrey C. Orsak, dean of the
Lyle School of Engineering. “With this remarkable research initiative, we
are truly beginning a journey into the future that will provide immeasurable benefits
to humanity.”
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