The seminar will begin at 12:00 p.m. Refreshments will be available starting at 1:15 p.m.
Abstract
Data-driven machine learning methods are making advances in many long-standing problems in robotics, including grasping, legged locomotion, perception, and more. There are, however, robotics applications for which data-driven methods are less effective. Data acquisition can be expensive, time consuming, or dangerous—to the surrounding workspace, humans in the workspace, or the robot itself. In such cases, generating data via simulation might seem a natural recourse, but simulation methods come with their own limitations, particularly when nondeterministic effects are significant or when complex dynamics are at play, requiring heavy computation and exposing the so-called sim2real gap. Another alternative is to rely on a set of demonstrations, limiting the amount of required data by careful curation of the training examples; however, these methods fail when confronted with problems that were not represented in the training examples (so-called out-of-distribution problems) and this precludes the possibility of providing provable performance guarantees.
In this talk, Seth Hutchinson will describe recent work on robotics problems that do not readily admit data-driven solutions, including flapping flight by a bat-like robot, vision-based control of soft continuum robots, a cable-driven graffiti-painting robot, and ensuring safe operation of mobile manipulators in human-robot interaction scenarios. He will describe some specific difficulties that confront data-driven methods for these problems and how model-based approaches can provide workable solutions. Along the way, he will also discuss how judicious incorporation of data-driven machine learning tools can enhance performance of these methods.
Speaker Biography
Seth Hutchinson is the executive director of the Institute for Robotics and Intelligent Machines at the Georgia Institute of Technology, where he is also a professor and the KUKA Chair for Robotics in the School of Interactive Computing. Hutchinson received his PhD from Purdue University in 1988, and in 1990 he joined the University of Illinois in Urbana-Champaign, where he was a professor of electrical and computer engineering (ECE) until 2017 and served as the associate department head for ECE from 2001 to 2007.
A fellow of the Institute of Electrical and Electronics Engineers (IEEE), Hutchinson served as the president of the IEEE Robotics and Automation Society (RAS) from 2020 to 2021 and has previously served as a member of the RAS Administrative Committee, as the editor-in-chief for IEEE Transactions on Robotics, and as the founding editor-in-chief of the RAS Conference Editorial Board. He has served on the organizing committees for more than 100 conferences, has more than 300 publications on the topics of robotics and computer vision, and is co-author of the books Robot Modeling and Control (Wiley), Principles of Robot Motion: Theory, Algorithms, and Implementations (MIT Press), and the forthcoming Introduction to Robotics and Perception (Cambridge University Press).