EECS Special Seminar: Nadia Figueroa Fernandez "Towards Safe and Efficient Learning and Control for Physical Human Robot Interaction"

Speaker: Nadia Figueroa Fernandez , CSAIL

Date: Tuesday, March 02, 2021

Time: 10:00 AM to 11:00 AM Note: all times are in the Eastern Time Zone

Public: No

Location: Virtual TBA

Event Type: Seminar

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Host: Daniela Rus

Contact: Fern D Keniston,

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Reminder Subject: TALK: EECS Special Seminar: Nadia Figueroa Fernandez "Towards Safe and Efficient Learning and Control for Physical Human Robot Interaction"

Title: Towards Safe and Efficient Learning and Control for Physical Human Robot Interaction

Abstract: ​​
From factories to households, we envision a future where robots can work safely and efficiently alongside humans. For robots to truly be adopted in such dynamic environments, we must i) minimize human effort while communicating and transferring tasks to robots; ii) endow robots with the capabilities of adapting to changes in the environment, in the task objectives and human intentions; and iii) ensure safety for both the human and the robot. However, combining these objectives is challenging as providing a single optimal solution can be intractable and even infeasible due to problem complexity and contradicting goals. In my research, I seek to unify robot learning and control strategies to provide safe and fluid physical human-robot-interaction (pHRI) while theoretically guaranteeing task success and stability. To achieve this, I devise techniques that step over traditional disciplinary boundaries, seamlessly blending concepts from control theory, robotics, and machine learning. In this talk, I will present contributions that leverage Bayesian non-parametrics with dynamical system (DS) theory, solving challenging open problems in the Learning from Demonstration (LfD) and pHRI domains. By formulating and learning motion policies as DS with convergence guarantees, a single motion policy (or sequence of) can be used to solve a myriad of robotics problems. I will present novel DS formulations and efficient learning schemes that are capable of executing i) continuous complex motions, such as pick-and-place and trajectory following tasks; ii) sequential household manipulation tasks, such as rolling dough or peeling vegetables; iii) and more dynamic scenarios, such as object hand-overs from humans and catching objects in flight. Finally, I will show how these techniques scale to more complex scenarios and domains such as navigation and co-manipulation with humanoid robots.

Nadia Figueroa is a Postdoctoral Associate in the Interactive Robotics Group at MIT advised by Prof. Julie Shah. She holds a PhD in Robotics, Control and Intelligent Systems (2019) from the Swiss Federal Institute of Technology in Lausanne (EPFL). Prior to this, she was a Research Assistant (2012-2013) at the Engineering Department of New York University Abu Dhabi (NYU-AD) and a Student Research Assistant (2011-2012) at the Institute of Robotics and Mechatronics (RMC) of the German Aerospace Center (DLR). She holds a B.Sc. degree in Mechatronics (2007) from Monterrey Tech (ITESM-Mexico) and an M.Sc. degree in Automation and Robotics (2012) from the Technical University of Dortmund, Germany. Her research focuses on leveraging machine learning techniques with concepts from dynamical systems theory to solve salient problems in the areas of learning from demonstration, incremental/interactive learning, human-robot collaboration, multi-robot coordination, shared autonomy and control.

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Created by Fern D Keniston Email at Friday, February 12, 2021 at 7:52 PM.