New Technology Development Incorporates Robotics with Miniaturization
December 16, 2015 | University of Nevada, RenoEstimated reading time: 2 minutes
A hand-worn robotic device is being developed that will help millions of blind and visually impaired people navigate past movable obstacles or assist in their ability to pre-locate, pre-sense and grasp an object.
In a collaboration between the University of Nevada, Reno and the University of Arkansas, Little Rock, researchers will develop new technology, with co-robotic functions currently unavailable in assistive devices, for the wearable robotic device. The team received an $820,000, three-year National Robotics Initiative grant from the National Institutes of Health's National Eye Institute division. The grant is also the first NRI grant for the University.
"The miniaturized system will contribute to the lives of visually impaired people by enabling them to identify and move objects, both for navigational purposes or for more simple things such as grasping a door handle or picking up a glass," Yantao Shen, assistant professor and lead researcher on the project from the University of Nevada, Reno's College of Engineering, said. "We will pre-map the hand, and build a lightweight form-fitting device that attaches to the hand using key locations for cameras and mechanical and electrical sensors. It will be simpler than a glove, and less obtrusive."
The technology will combine vision, tactile, force, temperature and audio sensors and actuators to help the wearer pre-sense an object - telling its location, feeling its shape and size - and then grasp it.
"The visual sensors, very high resolution cameras, will first notify the wearer of the location and shape, and the proximity touch sensors kick in as the hand gets closer to the object," Shen said. "The multiple sensors and touch actuators array will help to dynamically 'describe' the shape of the object to the hand when the hand is close to the object, allowing people with vision loss to have more independence and ability to navigate and to safely grasp and manipulate."
Shen and his research partner Cang Ye, a UALR professor in the Department of Systems Engineering, will guide their team of postdoctoral, graduate and undergraduate students as they develop the technology, design the device and test its usability. Shen will include the project in the senior design course he teaches, guiding students as they develop their own ideas for the device, and perhaps expand the technology past its original intentions.
Page 1 of 2
Suggested Items
Terran Orbital’s GEOStare SV2 Captures 3 Years of Success in High-Resolution Imaging
05/17/2024 | BUSINESS WIRETerran Orbital Corporation, a global leader in satellite-based solutions primarily serving the aerospace and defense industries, celebrates the 3rd anniversary of its successful GEOStare SV2 mission. Launched on May 15, 2021, from NASA’s Kennedy Space Center in Florida, GEOStare SV2 has surpassed expectations, delivering exceptional results for commercial satellite imagery.
Indium Experts to Present on High-Temperature, Lead-Free Solder Paste and High Reliability Liquid Metal Alloys Poster at ECTC
05/16/2024 | Indium CorporationIndium Corporation Research Associate Kyle Aserian will deliver a presentation at the 74th Electronic Components and Technology Conference (ECTC) on May 31, in Denver, Colorado.
Siemens, Foxconn Team Up to Optimize Forward-thinking Manufacturing
05/16/2024 | FoxconnSiemens AG, a leading technology company, and Hon Hai Technology Group (Foxconn), the world’s largest electronics manufacturer, have signed a memorandum of understanding (MoU) to drive digital transformation and sustainability in smart manufacturing platforms.
TactoTek Licenses IMSE Technology to Polestar for Sustainable Electronics Design Innovation
05/15/2024 | TactoTekPolestar, the Swedish electric performance car brand, and Finnish smart surface pioneer TactoTek, have entered a collaboration to explore integration of Injection Molded Structural Electronics (IMSE) technology into Polestar’s vehicle programs.
SiPearl: Partnership with Samsung Electronics for built-in HBM in Rhea
05/14/2024 | BUSINESS WIRESiPearl, the company building the high-performance low-power European microprocessor for HPC and AI inference, has signed a partnership with Samsung Electronics Co. Ltd., a world leader in advanced memory technology, to equip its Rhea series with Samsung’s advanced memory solution ideal for HPC and AI applications.