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Actuators inspired by muscle

June 2, 2016 By Abigail Esposito

Soft Robotics

The company is developing robotic grasping systems toward initial applications including picking and packing in unstructured environments such as handling fruits and vegetables in produce distribution warehouses. Longer term, this technology can be leveraged to develop products for biomedical applications.

To make robots more cooperative and have them perform tasks in close proximity to humans, they must be softer and safer. A new actuator developed by a team led by George Whitesides, Ph.D., who is a Core Faculty member at Harvard’s Wyss Institute for Biologically Inspired Engineering and the Woodford L. and Ann A. Flowers University Professor of Chemistry and Chemical Biology in Harvard University’s Faculty of Arts and Sciences (FAS), generates movements similar to those of skeletal muscles using vacuum power to automate soft, rubber beams.

Like real muscles, the actuators are soft, shock absorbing and pose no danger to their environment or humans working collaboratively alongside them or the potential future robots equipped with them. The work was reported June 1, 2016 in the journal Advanced Materials Technologies.

“Functionally, our actuator models the human bicep muscle,” said Whitesides. “There are other soft actuators that have been developed, but this one is most similar to muscle in terms of response time and efficiency.”

Whitesides’s team took an unconventional approach to its design by relying on vacuum to decrease the actuator’s volume and causing it to buckle. While conventional engineering would consider bucking to be a mechanical instability and a point of failure, in this case the team leveraged this instability to develop VAMPs (vacuum-actuated muscle-inspired pneumatic structures). Whereas previous soft actuators rely on pressurized systems that expand in volume, VAMPs mimic true muscle because they contract, which makes them an attractive candidate for use in confined spaces and for a variety of purposes.

The actuator—comprising soft rubber or “elastomeric” beams—is filled with small, hollow chambers of air like a honeycomb. By applying vacuum the chambers collapse and the entire actuator contracts, generating movement. The internal honeycomb structure can be custom tailored to enable linear, twisting, bending or combinatorial motions.

“Having VAMPs built of soft elastomers would make it much easier to automate a robot that could be used to help humans in the service industry,” said the study’s first author Dian Yang, who was a graduate researcher pursuing his Ph.D. in Engineering Sciences at Harvard during the time of the work, and is now a Postdoctoral Researcher.

Soft actuators

The actuator—comprising soft rubber or “elastomeric” beams—is filled with small, hollow chambers of air like a honeycomb. By applying vacuum the chambers collapse and the entire actuator contracts, generating movement. The internal honeycomb structure can be custom tailored to enable linear, twisting, bending or combinatorial motions.

The team envisions that robots built with VAMPs could be used to assist the disabled or elderly, to serve food, deliver goods and perform other tasks related to the service industry. What’s more, soft robots could make industrial production lines safer, faster and quality control easier to manage by enabling human operators to work in the same space.

Although a complex control system has not yet been developed for VAMPs, this type of actuation is easy to control due to its simplicity: when vacuum is applied, VAMPs will contract. They could be used as part of a tethered or untethered system depending on environmental or performance needs. Additionally, VAMPs are designed to prevent failure. Even when damaged with a 2 mm hole, the team showed that VAMPs will still function. In the event that major damage is caused to the system, it fails safely.

“It can’t explode, so it’s intrinsically safe,” said Whitesides.

Whereas other actuators powered by electricity or combustion could cause damage to humans or their surroundings, loss of vacuum pressure in VAMPs would simply render the actuator motionless.

“These self-healing, bioinspired actuators bring us another step closer to being able to build entirely soft-bodied robots, which may help to bridge the gap between humans and robots and open entirely new application areas in medicine and beyond,” said Director Donald Ingber, M.D., Ph.D., who is also the Judah Folkman Professor of Vascular Biology at Harvard Medical School and the Boston Children’s Hospital Vascular Biology Program, as well as Professor of Bioengineering at Harvard’s John A. Paulson School of Engineering and Applied Sciences.

Harvard’s Office of Technology Development has filed patents on this and related inventions, and the soft actuator technology has been licensed to Soft Robotics, a startup launched in 2013 and co-founded by Whitesides. The company is developing robotic grasping systems toward initial applications including picking and packing in unstructured environments such as handling fruits and vegetables in produce distribution warehouses. Longer term, this technology can be leveraged to develop products for biomedical applications.

Harvard University
www.harvard.edu

Advanced Materials Technologies
www.onlinelibrary.wiley.com

Soft Robotics
www.softroboticsinc.com

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