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Robotics Institute
Seminar, December 10
Time
and Place | Seminar Abstract | Speaker
Biography | Speaker Appointments
Digital Mechatronics
and Polymer Muscle Actuators for Robotic Systems
Field and Space
Robotics Laboratory
Massachusetts Institute of Technology
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Time and Place |
Mauldin
Auditorium (NSH 1305)
Refreshments
Talk
Digital
mechatronic devices approximate the motion of
continuous mechanisms by using larger numbers of binary
Degrees-of-Freedom. Digital mechatronic devices have excellent repeatability, are
reliable, robust and are simple to control. Artificial muscle actuators that
are made of elastomers are ideally suited digital mechatronic devices. These actuators have unique properties
such as very large strain and large forces. They are light and inexpensive.
This makes them appropriate for many diverse applications, from disposable
medical devices to space systems. Using polymer actuators in binary devices
overcomes some of their limitations, such as internal creep, which limit their
use in more conventional designs. This presentation will include recent
analytical and experimental studies of the fundamentals of polymer actuated mechatronic devices.
Applications addressed will include their potential as key elements in
future planetary exploration systems and their current potential applications
in medical robotics.
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Speaker Biography |
Dr. Dubowsky is a Professor
of Mechanical Engineering at the Massachusetts Institute of Technology,
For appointments, please contact Peggy Martin.
The Robotics Institute is part of the School of Computer Science, Carnegie Mellon University.