Journal
SOFT ROBOTICS
Volume 5, Issue 2, Pages 204-215Publisher
MARY ANN LIEBERT, INC
DOI: 10.1089/soro.2017.0044
Keywords
inflatable robot; human-safe robot; assistive robot; bioinspired robot; pneumatic artificial muscle
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Funding
- National Aeronautics and Science Administration (NASA) under Small Business Innovation Research (SBIR) Contract [NNX14CJ39P]
- Technology Innovation Program - Ministry of Trade, Industry & Energy (MOTIE), Korea [2017-10069072]
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As robots begin to interact with humans and operate in human environments, safety becomes a major concern. Conventional robots, although reliable and consistent, can cause injury to anyone within its range of motion. Soft robotics, wherein systems are made to be soft and mechanically compliant, are thus a promising alternative due to their lightweight nature and ability to cushion impacts, but current designs often sacrifice accuracy and usefulness for safety. We, therefore, have developed a bioinspired robotic arm combining elements of rigid and soft robotics such that it exhibits the positive qualities of both, namely compliance and accuracy, while maintaining a low weight. This article describes the design of a robotic arm-wrist-hand system with seven degrees of freedom (DOFs). The shoulder and elbow each has two DOFs for two perpendicular rotational motions on each joint, and the hand has two DOFs for wrist rotations and one DOF for a grasp motion. The arm is pneumatically powered using custom-built McKibben type pneumatic artificial muscles, which are inflated and deflated using binary and proportional valves. The wrist and hand motions are actuated through servomotors. In addition to the actuators, the arm is equipped with a potentiometer in each joint for detecting joint angle changes. Simulation and experimental results for closed-loop position control are also presented in the article.
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