Calendar

Jan
27
Wed
LCSR Seminar: Mahyar Fazlyab “Safe Deep Learning in Feedback Loops: A Robust Control Approach” @ https://wse.zoom.us/s/94623801186
Jan 27 @ 12:00 pm – 1:00 pm

Link for Live Seminar

Link for Recorded seminars – 2020/2021 school year

 

Abstract:

Neural networks have become increasingly effective at many difficult machine-learning tasks. However, the nonlinear and large-scale nature of neural networks makes them hard to analyze and, therefore, they are mostly used as black-box models without formal guarantees. This issue becomes even more complicated when DNNs are used in learning-enabled closed-loop systems, where a small perturbation can substantially impact the system being controlled. Therefore, it is of utmost importance to develop tools that can provide useful certificates of stability, safety, and robustness for DNN-driven systems.

 

In this talk, we present a convex optimization framework that can address several problems regarding deep neural networks. The main idea is to abstract hard-to-analyze components of a DNN (e.g., the nonlinear activation functions) with the formalism of quadratic constraints. This abstraction allows us to reason about various properties of DNNs (safety, robustness, stability in closed-loop settings, etc.) via semidefinite programming.

 

Biography:

Mahyar Fazlyab will join the Department of Electrical and Computer Engineering as an assistant professor in July 2021. Currently, he is an assistant research professor at the Mathematical Institute for Data Science (MINDS) at Johns Hopkins University (JHU). Before that, Mahyar received his Ph.D. in Electrical and Systems Engineering (ESE) from the University of Pennsylvania (UPenn) in 2018, with a dual MA’s degree in Statistics from the Wharton School. He was also a postdoctoral fellow in the ESE Department at UPenn from 2018 to 2020. Mahyar’s research interests are at the intersection of optimization, control, and machine learning. His current research focus is on the safety and stability of learning-enabled autonomous systems. Mahyarwon the Joseph and Rosaline Wolf Best Doctoral Dissertation Award in 2019, awarded by the Department of Electrical and Systems Engineering at the University of Pennsylvania.

 

Feb
3
Wed
LCSR Seminar: Overview of the human subjects research IRB review and approval process at Johns Hopkins School of Medicine and Homewood @ https://wse.zoom.us/s/94623801186
Feb 3 @ 12:00 pm – 1:00 pm

Link for Live Seminar

Link for Recorded seminars – 2020/2021 school year

 

Presenter:

Laura M. Evans – Senior Policy Associate, Director, Homewood IRB

Ken Borst – Associate Director, IRB Operations, SOM Admin Clinical Invest Human Subjects

 

Feb
10
Wed
LCSR Seminar: Shan Lin “Exploring Robust Real-time Instrument Segmentation for Endoscopic Sinus Surgery” @ https://wse.zoom.us/s/94623801186
Feb 10 @ 12:00 pm – 1:00 pm

Link for Live Seminar

Link for Recorded seminars – 2020/2021 school year

 

Abstract:

Vision-based surgical instrument segmentation, which aims to detect instrument regions in surgery images, is often a critical component for the computer or robot-assisted surgical systems. While advanced algorithms including deep CNN models have achieved promising instrument segmentation results, several limitations remain unsolved: (1) The robustness and generalization ability of existing algorithms is still insufficient for challenging surgery images, and (2) deep networks usually come with high computation cost, which needed to be addressed for time-sensitive applications during surgery. In this talk, I will present two algorithms to address these challenges. First, I will introduce a lightweight CNN that can achieve better segmentation performance with less inference time on low-quality endoscopic sinus surgery videos compared with several advanced deep networks. I will then discuss a domain adaptation method that can transfer the knowledge learned from relevant and labeled datasets for instrument segmentation on an unlabeled dataset.

 

Biography:

Shan Lin is a PhD candidate in the Electrical and Computer Engineering department at the University of Washington working with Prof. Blake Hannaford on medical robotics. Her research focuses on surgical instrument segmentation and skill assessment.

 

Feb
17
Wed
LCSR Seminar: James Bellingham “Ocean Observing in the Age of Robots” @ https://wse.zoom.us/s/94623801186
Feb 17 @ 12:00 pm – 1:00 pm

Link for Live Seminar

Link for Recorded seminars – 2020/2021 school year

 

Abstract:

Progress in the ocean sciences has been fundamentally limited by the high cost of observing the ocean interior, which in turn has been driven by the necessity that humans go to sea to make those measurements. That linkage is being broken. We are on the cusp of an age where robotic systems will operate routinely without the on-site attendance of humans. In this talk I will discuss design of survey-class Autonomous Underwater Vehicles and multi-platform observing systems, some implications for the future of marine systems, and the impact on how we do science at sea. These topics are impossible to discuss without considering the larger ocean technology enterprise. The use of robotics has been a key enabler for the offshore oil and gas industry and is making large inroads to defense. As robotics become more capable and accessible, their impacts will spread, enabling entirely new ocean enterprises. Thus marine robotics both promise to greatly improve our ability to observe the ocean, while at the same time offering a powerful enabling technology for ocean industries.

 

Biography:

James G. Bellingham research activities center on the creation of new, high-performance classes of underwater robots and the design and operations of large-scale multi-platform field programs. He has led and participated in research expeditions around the world from the Arctic to the Antarctic.  Jim founded the Consortium for Marine Robotics at the Woods Hole Oceanographic Institution (WHOI), founded the Autonomous Underwater Vehicles Laboratory at MIT, and co-founded Bluefin Robotics. He was Director of Engineering and Chief Technologist at the Monterey Bay Aquarium Research Institute (MBARI).  Jim serves on numerous advisory and National Academies studies.  His awards include the Lockheed Martin Award for Ocean Science and Engineering, the MIT Fourteenth Robert Bruce Wallace lecturer, the Blue Innovation Rising Tides Award, and the Navy Superior Public Service Award.

 

Feb
24
Wed
LCSR Seminar: Hao Su “High-Performance Soft Wearable Robots for Human Augmentation and Rehabilitation” @ https://wse.zoom.us/s/94623801186
Feb 24 @ 12:00 pm – 1:00 pm

Link for Live Seminar

Link for Recorded seminars – 2020/2021 school year

 

Abstract:

Wearable robots for physical augmentation of humans are the new frontier of robotics, but they are typically rigid, bulky, and limited in lab settings for steady-state walking assistance. To overcome those challenges, the first part of the talk will present a new design paradigm that leverages high torque density motors to enable the electrification of robotic actuation. Thus, our rigid and soft robots are able to achieve unprecedented performances, including most lightweight powered exoskeleton, high compliance, and high bandwidth human-robot interaction. The second part of the talk will focus on AI-powered controllers that estimate human dynamics and assist multimodal locomotion with superhuman performance to walk longer, squat more, jump higher, and swim faster. We use robots as a tool for scientific discovery to explore new research fields, including wearable robots for pediatric rehabilitation and pain relief of musculoskeletal disorders. Our breakthrough advances in bionic limbs will provide greater mobility and new hope to those with physical disabilities. We envision that our work will enable a paradigm shift of wearable robots from lab-bounded rehabilitation machines to ubiquitous personal robots for workplace injury prevention, pediatric and elderly rehabilitation, home care, and space exploration.

 

Biography:

Hao Su is Irwin Zahn Endowed Assistant Professor in the Department of Mechanical Engineering at the City University of New York, City College. He is the Director of the Biomechatronics and Intelligent Robotics (BIRO) Lab. He was a postdoctoral research fellow at Harvard University and the Wyss Institute for Biologically Inspired Engineering. Before this role, he was a Research Scientist at Philips Research North America, where he designed robots for lung and cardiac surgery. He received his Ph.D. degree at Worcester Polytechnic Institute. Dr. Su received the NSF CAREER Award, Best Medical Robotics Paper Runner-up Award at the IEEE International Conference on Robotics and Automation (ICRA), and Philips Innovation Transfer Award. His research is sponsored by NSF (National Robotics Initiative, Cyber-Physical Systems, Future of Work), NIH R01, National Institute on Disability, Independent Living, and Rehabilitation Research (NIDLRR), and Toyota Mobility Foundation. He is currently directing a Center of Assistive and Personal Robotics for Independent Living (APRIL) funded by the National Science Foundation and Department of Health and Human Services.

 

Mar
3
Wed
LCSR Seminar: Chad Jenkins “Semantic Robot Programming… and Maybe Making the World a Better Place” @ https://wse.zoom.us/s/94623801186
Mar 3 @ 12:00 pm – 1:00 pm

Link for Live Seminar

Link for Recorded seminars – 2020/2021 school year

 

Abstract:

The visions of interconnected heterogeneous autonomous robots in widespread use are a coming reality that will reshape our world. Similar to “app stores” for modern computing, people at varying levels of technical background will contribute to “robot app stores” as designers and developers. However, current paradigms to program robots beyond simple cases remains inaccessible to all but the most sophisticated of developers and researchers. In order for people to fluently program autonomous robots, a robot must be able to interpret user instructions that accord with that user’s model of the world. The challenge is that many aspects of such a model are difficult or impossible for the robot to sense directly. We posit a critical missing component is the grounding of semantic symbols in a manner that addresses both uncertainty in low-level robot perception and intentionality in high-level reasoning. Such a grounding will enable robots to fluidly work with human collaborators to perform tasks that require extended goal-directed autonomy.

 

I will present our efforts towards accessible and general methods of robot programming from the demonstrations of human users. Our recent work has focused on Semantic Robot Programming (SRP), a declarative paradigm for robot programming by demonstration that builds on semantic mapping. In contrast to procedural methods for motion imitation in configuration space, SRP is suited to generalize user demonstrations of goal scenes in workspace, such as for manipulation in cluttered environments. SRP extends our efforts to crowdsource robot learning from demonstration at scale through messaging protocols suited to web/cloud robotics. With such scaling of robotics in mind, prospects for cultivating both equal opportunity and technological excellence will be discussed in the context of broadening and strengthening Title IX and Title VI.

 

Biography:

Odest Chadwicke Jenkins, Ph.D., is a Professor of Computer Science and Engineering and Associate Director of the Robotics Institute at the University of Michigan. Prof. Jenkins earned his B.S. in Computer Science and Mathematics at Alma College (1996), M.S. in Computer Science at Georgia Tech (1998), and Ph.D. in Computer Science at the University of Southern California (2003). He previously served on the faculty of Brown University in Computer Science (2004-15). His research addresses problems in interactive robotics and human-robot interaction, primarily focused on mobile manipulation, robot perception, and robot learning from demonstration. His research often intersects topics in computer vision, machine learning, and computer animation. Prof. Jenkins has been recognized as a Sloan Research Fellow and is a recipient of the Presidential Early Career Award for Scientists and Engineers (PECASE). His work has also been supported by Young Investigator awards from the Office of Naval Research (ONR), the Air Force Office of Scientific Research (AFOSR) and the National Science Foundation (NSF). Prof. Jenkins is currently serving as Editor-in-Chief for the ACM Transactions on Human-Robot Interaction. He is a Fellow of the American Association for the Advancement of Science and the Association for the Advancement of Artificial Intelligence, and Senior Member of the Association for Computing Machinery and the Institute of Electrical and Electronics Engineers. He is an alumnus of the Defense Science Study Group (2018-19).

 

Mar
17
Wed
LCSR Seminar: Joe Moore @ https://wse.zoom.us/s/94623801186
Mar 17 @ 12:00 pm – 1:00 pm
Mar
31
Wed
LCSR Seminar: Auke Ijspeert @ https://wse.zoom.us/s/94623801186
Mar 31 @ 12:00 pm – 1:00 pm
Apr
7
Wed
LCSR Seminar: Robin Murphy @ https://wse.zoom.us/s/94623801186
Apr 7 @ 12:00 pm – 1:00 pm
Apr
21
Wed
LCSR Seminar: Gordon Berman @ https://wse.zoom.us/s/94623801186
Apr 21 @ 12:00 pm – 1:00 pm

Laboratory for Computational Sensing + Robotics