Wednesday, November 14 2018
1:10pm - 2:10pm
Manufacturing Related Disciplines Complex (MRDC), Room 4211
For more information:
Add To My Calendar
ME Robotics Seminar—Michael Goldfarb of Vanderbilt University

The Woodruff School of Mechanical Engineering presents “Semi-Powered Approaches for the Design of Lower Limb Prostheses” by Michael Goldfarb of Vanderbilt University. The event will be held in the Manufacturing Related Disciplines Complex (MRDC), Room 4211, at 1:10 p.m.


This talk will describe ongoing work in the design and control of prostheses intended to restore mobility to individuals with lower limb loss. In contrast to previously described approaches involving “fully powered” devices, this talk will explore opportunities in the development of low-power approaches to the design and control of wearable robotics, where the robotic devices employ semi-powered and/or modulated-passive behaviors that function in combination with power from the user in an effort to provide assistive functionality in a lower weight and/or more compact package relative to fully powered approaches. Such devices do not replace or displace fully powered approaches but offer a complement to them along the continuum of care that perhaps trades range of functionality for smaller size and lower weight.


Michael Goldfarb is the H. Fort Flowers Professor of Mechanical Engineering, professor of Electrical Engineering, and professor of Physical Medicine and Rehabilitation at Vanderbilt University. Goldfarb conducts research on the design and control of robotic devices and systems that interact physically with people, and more specifically, on the design and control of intelligent assistive devices that improve quality of life for people with physical disabilities. He has published more than 200 papers on related topics, including papers that were awarded best-paper awards in 1997, 1998, 2003, 2007, 2009, and 2013, and papers that were finalists for best paper awards in 2015 and 2017. Goldfarb’s current and prior work includes the development of robotic limbs for upper and lower extremity amputees and the development of lower limb exoskeletons for individuals with spinal cord injury and stroke.

Click images in enlarge.