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Wearable Robot: Soft Exosuit Can Aid Healthy and Disabled People

Monday, January 23, 2017 10:30
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A Harvard team quantifies significant metabolic energy savings gained from its wearable gait-improving robot

Soft exosuit economies

Last year, Harvard’s soft exosuit team provided first proof-of-concept results showing that its wearable robot could lower energy expenditure in healthy people walking with a load on their back. Made of functional textiles, cable-based actuation and a biologically-inspired control system, the exosuit targets specific leg joints – instead of the full leg – and delivers assistance that is synchronized with the wearer’s walking mechanics in individuals ranging from people that carry heavy loads to people that are disabled by stoke or other health complications.

The exosuit’s soft textiles strategically position the actuating cables that assist with the ankle motion at the back of the lower legs, and, through additional straps, transfers energy produced at the ankle to the front of the hip to also assist with the gait’s hip motion. 

Image courtesy of Wyss Institute at Harvard University
The team is led by Conor Walsh, John L. Loeb Associate Professor of Engineering and Applied Sciences at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), a Wyss Institute Core Faculty member, and the founder of the Harvard Biodesign Lab.

But the question still remained: What are the overall energy savings when assistance levels are increased? These savings are the result of the energy spared due to the assistive force provided to the ankle motions, and this must be balanced with the additional energy expended by the wearer when carrying the exosuit’s mass.

Now, in a new study published as the cover article in Science Robotics, Walsh’s multidisciplinary team of roboticists, engineers, biomechanics experts and apparel designers isolated the beneficial effects of the exosuit. By removing the actuation, electronics and battery units, leaving only the exosuit’s light wearable textiles and pulling cables, the researchers were able to calculate the impact on the wearers’ joints.

“In a test group of seven healthy wearers, we clearly saw that the more assistance provided to the ankle joints, the more energy the wearers could save with a maximum reduction of almost 23% compared to walking with the exosuit powered-off,” said Walsh. “To our knowledge, this is the highest relative reduction in energy expenditure observed to date with a tethered exoskeleton or exosuit.”

The team found that wearers significantly adapted their gait with increasing levels of assistance. The changes were most significant at the ankle joint but were also observed at the hip as the exosuit included straps coupling the assistance from the back of the lower legs to the front of the hip in a beneficial manner.

“Other studies had reported that there can be an energy transfer between the ankle and other joints. However, having a textile couple the ankle and hip, our soft exosuit may have amplified this effect, contributing to the considerable energy savings we found,” said Brendan Quinlivan, a graduate student working with Walsh and one of the two first authors on the study.

The authors acknowledge that future studies are now required to compare the effects of fully body-worn versions of the exosuit, with the weight of the actuation and battery carried by the wearer, to walking with normal clothes to better quantify the true impact of the technology.

“The results from this study will help us find a sweet spot between the added system weight and the amount of force applied to achieve maximum benefits in energy expenditure in wearers. Defining these interdependencies in healthy people will ultimately also help us design versions suitable for people with gait abnormalities,” said Sangjun Lee, who also is a graduate student in Walsh’s team and a co-first author of the study.

The study was supported by the Wyss Institute for Biologically Inspired Engineering, the Harvard John A. Paulson School of Engineering and Applied Sciences, the Defense Advanced Research Projects Agency (DARPA)’s Warrior Web Program, the National Science Foundation, a Samsung Scholarship, the São Paulo Research Foundation and the Robert Bosch Stiftung.

Contacts and sources:
Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS)

http://www.ineffableisland.com/



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