Getting a grip on robotic grasp . . . Researchers at MIT - TopicsExpress

Getting a grip on robotic grasp . . . Researchers at MIT have developed a robot that enhances the grasping motion of the human hand. The device, worn around ones wrist, works essentially like two extra fingers adjacent to the pinky and thumb. A novel control algorithm enables it to move in sync with the wearers fingers to grasp objects of various shapes and sizes. Wearing the robot, a user could use one hand to, for instance, hold the base of a bottle while twisting off its cap. This is a completely intuitive and natural way to move your robotic fingers, says Harry Asada, the Ford Professor of Engineering in MITs Department of Mechanical Engineering. You do not need to command the robot, but simply move your fingers naturally. Then the robotic fingers react and assist your fingers. Ultimately, Asada says, with some training people may come to perceive the robotic fingers as part of their body—like a tool you have been using for a long time, you feel the robot as an extension of your hand. He hopes that the two-fingered robot may assist people with limited dexterity in performing routine household tasks, such as opening jars and lifting heavy objects. He and graduate student Faye Wu presented a paper on the robot this week at the Robotics: Science and Systems conference in Berkeley, Calif. Biomechanical synergy The robot, which the researchers have dubbed supernumerary robotic fingers, consists of actuators linked together to exert forces as strong as those of human fingers during a grasping motion. To develop an algorithm to coordinate the robotic fingers with a human hand, the researchers first looked to the physiology of hand gestures, learning that a hands five fingers are highly coordinated. While a hand may reach out and grab an orange in a different way than, say, a mug, just two general patterns of motion are used to grasp objects: bringing the fingers together, and twisting them inwards. A grasp of any object can be explained through a combination of these two patterns. The researchers hypothesized that a similar biomechanical synergy may exist not only among the five human fingers, but also among seven. To test the hypothesis, Wu wore a glove outfitted with multiple position-recording sensors, and attached to her wrist via a light brace. She then scavenged the lab for common objects, such as a box of cookies, a soda bottle, and a football.

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