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Harvard's Wyss Institute awarded DARPA contract to further develop Soft Exosuit

Date: Sep 11, 2014

 

In this video, Harvard faculty member Conor Walsh and members of his team explain how the biologically inspired Soft Exosuit is targeted at enhancing the mobility of healthy individuals and restoring the mobility of those with physical disabilities.

BOSTON — The Wyss Institute for Biologically Inspired Engineering at Harvard University announced today that it was awarded a first-phase $2.9 million follow-on contract from the Defense Advanced Research Projects Agency (DARPA) to further develop a biologically inspired smart suit. The device, the Soft Exosuit, is intended to be worn comfortably under clothing and could enable soldiers to walk longer distances, keep fatigue at bay, and minimize the risk of injury when carrying heavy loads. Alternative versions of the suit could eventually assist those with limited mobility as well.

DARPA's Warrior Web program seeks to develop technologies to prevent and reduce musculoskeletal injuries for military personnel, but the same technologies could also have civilian applications. A reduction in such injuries could reduce long-term healthcare costs and enhance quality of life for wearers of the suit.

This is the first of a potentially two-phase contract, which enables Wyss Institute Core Faculty member Conor Walsh, Ph.D., and his team to build upon their earlier work, also funded by DARPA, demonstrating the proof-of-concept of this radically new approach to wearable robot design and fabrication. Inspired by a deep understanding of the biomechanics of human walking, the Soft Exosuit technology is spawning the development of entirely new forms of functional textiles, flexible power systems, soft sensors, and control strategies that enable intuitive and seamless human-machine interaction.

"While the idea of a wearable robot is not new, our design approach certainly is," said Walsh, who is also an Assistant Professor of Mechanical and Biomedical Engineering at Harvard's School of Engineering and Applied Sciences (SEAS) and founder of the Harvard Biodesign Lab.

The lightweight Soft Exosuit is designed to overcome the challenges of traditional heavier exoskeleton systems, such as power-hungry battery packs and rigid components that can interfere with natural joint movement. It is made of soft, functional textiles woven together into a piece of smart clothing that is pulled on like a pair of pants and intended to be worn under a soldier's regular gear. Through a biologically inspired design, the suit mimics the action of the leg muscles and tendons when a person walks, and provides small but carefully timed assistance at the joints of the leg without restricting the wearer's movement.

Exosuit
Mobility Enhancing Soft Exosuit: a soft wearable robot made from lightweight and flexible materials. Credit: Harvard's Wyss Institute

In a current prototype, a series of webbing straps positioned around the lower half of the body contain a low-power microprocessor and network of supple strain sensors that act as the "brain" and "nervous system" of the Soft Exosuit, respectively — continuously monitoring various data signals, including the suit tension, the position of the wearer (e.g., walking, running, crouched), and more.

"Over just a couple of short years, Conor and his team will work to fundamentally shift the paradigm of what is possible in wearable robotics," said Wyss Institute Founding Director Don Ingber, M.D., Ph.D. "Their work is a great example of the power of bringing together people from multiple disciplines with focused resources to translate what first seems like a dream into a product that could transform people's lives."

In addition to its military application, the team will collaborate with clinical partners to develop a medical version of the suit that can help stroke patients, for example, who often experience a slow, inefficient gait and could greatly benefit from walking assistance.

Collaborators include Wyss Institute and SEAS faculty member Robert Wood and visiting professor Ken Holt, and Terry Ellis at Boston University's College of Health and Rehabilitation Sciences. Critical to this project's success to date has been a team of Harvard postdoctoral fellows (Alan Asbeck, Stefano de Rossi, Ignacio Galiana, Yigit Menguc) and graduate students (Ye Ding, Jaehyun Bae, Kai Schmidt, Brendan Quinlivan), and staff from the Wyss Institute (Zivthan Dubrovsky, Robert Dyer, Mike Mogenson, Diana Wagner, Kathleen O'Donnell). Boston-based New Balance will also be a key collaborator on this new phase of the project, bringing expertise in textile and apparel innovation.

Under the terms of the contract with DARPA, the Wyss Institute will receive up to $2.9 million for its work on Warrior Web, with full funding contingent on meeting a series of technical milestones.

PRESS CONTACTS

Wyss Institute for Biologically Inspired Engineering at Harvard University
Kristen Kusek, kristen.kusek@wyss.harvard.edu, + 617-432-8266

Harvard SEAS
Caroline Perry, cperry@seas.harvard.edu, + 617-496-1351

IMAGES and VIDEO AVAILABLE

—This has been approved for public release by DARPA.—

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About the Wyss Institute for Biologically Inspired Engineering at Harvard University

The Wyss Institute for Biologically Inspired Engineering at Harvard University (http://wyss.harvard.edu) uses Nature's design principles to develop bioinspired materials and devices that will transform medicine and create a more sustainable world. Working as an alliance among all of Harvard's Schools, and in partnership with Beth Israel Deaconess Medical Center, Brigham and Women's Hospital, Boston Children's Hospital, Dana Farber Cancer Institute, Massachusetts General Hospital, the University of Massachusetts Medical School, Spaulding Rehabilitation Hospital, Boston University, Tufts University, and Charité - Universitätsmedizin Berlin, and the University of Zurich, the Institute crosses disciplinary and institutional barriers to engage in high-risk research that leads to transformative technological breakthroughs. By emulating Nature's principles for self-organizing and self-regulating, Wyss researchers are developing innovative new engineering solutions for healthcare, energy, architecture, robotics, and manufacturing. These technologies are translated into commercial products and therapies through collaborations with clinical investigators, corporate alliances, and new start-ups.

 

About the Harvard School of Engineering and Applied Sciences
The Harvard School of Engineering and Applied Sciences (SEAS) serves as the connector and integrator of Harvard's teaching and research efforts in engineering, applied sciences, and technology. Through collaboration with researchers from all parts of Harvard, other universities, and corporate and foundational partners, we bring discovery and innovation directly to bear on improving human life and society. For more information, visit: http://seas.harvard.edu.

 
We've won a Webby Award!

Wyss Institute is proud to announce our win in the 2012
Webby Awards in the Science category.