Roland Siegwart

Autonomous Systems Lab & Wyss Zurich

www.asl.ethz.ch & www.wysszurich.ch

Abstract:

In the last 20 years, flying robots have evolved from fascinating lab prototypes to extremely useful tools for aerial imaging, search and rescue, and inspections at height. However, the limited flight time and payload, as well as the restricted computing power of drones renders autonomous operations quite challenging. This talk will focus on the design and autonomous navigation of flying robots. Innovative designs of flying systems, from solar airplanes for continuous flights to hybrid concepts combining vertical take-off and landing with the efficiency of fixed-wing flight, and omni-directional and interactive multi-copters are presented. Recent results of visual and laser-based navigation (localization, mapping, planning) in GPS denied environments are showcased and discussed. Performance and potential applications are presented and discussed.

Bio:

Roland Siegwart (born in 1959) is professor for autonomous mobile robots at ETH Zurich, founding co-director of the Wyss Zurich accelerator and member of the board of directors of multiple high-tech companies. He studied mechanical engineering at ETH, spent ten years as professor at EPFL Lausanne (1996 – 2006), was vice president of ETH Zurich (2010 -2014) and held visiting positions at Stanford University and NASA Ames.

He is and was the coordinator of multiple European projects and co-founder over half a dozen spin-off companies, including Wingta, Anybotics, Sevensense and Voliro. He is IEEE Fellow, recipient of the IEEE RAS Inaba Technical Award, the IEEE RAS Pioneer award and officer of the International Federation of Robotics Research (IFRR). He is on the editorial board of multiple journals in robotics and was a general chair of several conferences in robotics including IROS 2002, AIM 2007, FSR 2007, ISRR 2009, FSR 2017 and CoRL 2018. His interests are in the design and navigation of flying, wheeled, walking and swimming robots operating in complex and highly dynamical environments. Since 20 years, his lab is pioneering the field of flying robots.

Christian Laugier

Bio:

Dr Christian LAUGIER is Research Director at Inria and responsible for R&D activities on Autonomous Vehicle within the Inria Chroma project-team (Grenoble & Lyon); he was previously Scientific Manager of the Inria eMotion project-team and Scientific Manager of the Inria cooperation program with the Asia & Oceania regions (Inria international affairs department). He was also during the previous decades Deputy Director of the LIFIA laboratory (IT & AI, ~200 persons) and Deputy Director of the LIG Laboratory (IT, ~500 persons) at the University of Grenoble. In addition, he was co-founder of the Probayes company and Scientific Advisor for Probayes (during 20 years) and for Baidu China for (during 2 years). He also made recognized scientific contributions and patented innovations shared with manufacturers such as Probayes, Toyota or Renault.

Dr Christian Laugier is IROS Fellow and IEEE Senior Member and he is the recipient of several IEEE and Conference Awards in the fields of Robotics and Intelligent Vehicles, such as the IROS Nakamura Award, the IROS Harashima Award, the IROS Distinguish Service Award, or the EU-Robotics Technology Transfer Award (finalist with Probayes). His current research interests are mainly in the field of Embedded Bayesian & AI driven Perception and Decision-making for autonomous robots and vehicles operating in complex uncertain and dynamic environments.

He has supervised some forty doctoral theses, he is the author or co-author of numerous referenced international publications and he has given numerous guest keynotes or plenary lectures in these scientific fields. He has also co-edited and/or contributed to the editing of several well-referenced Books & Handbooks in the fields of Robotics and Intelligent Vehicles.

Dr Christian Laugier is a member of several IEEE International Scientific Committees such the IROS, ARSO or T-IV steering committees; he is also a member of the Editorial Boards of several IEEE Scientific Journals such as Robomech or T-IV, and he is regularly involved in the Organizing Committees of the main IEEE conferences such as ICRA, IROS or IV. He is also a founding member and co-chair of the IEEE RAS Technical Committee on “Autonomous Ground Vehicles and Intelligent Transportation Systems”, which has been twice awarded and which regularly organize workshops attracting a growing number of participants within the framework of major conferences in the field (ICRA, IROS, IV).

An overview of recent research activities, publications and patents can be found at:  https://hal.inria.fr/hal-03147594

Maja J Matarić

University of Southern California

Los Angeles, California, USA

Abstract:

As robots become part of our world, we demand that they understand us, predict our needs and wants, and adapt to us as we change our moods and minds, learn, grow, and age. The nexus created by major improvements in machine learning for machine perception, navigation, and natural language processing has enabled human-robot interaction in real-world contexts, just as the need for human services continues to grow, from elder care to nursing to education and training, positively impacting user health and quality of life. We will discuss work that brings robotics together with machine learning for user modeling, signal processing, and affective computing in order to enable robots to understand, interact, and adapt to users’ ever-changing needs.  The talk will cover methods and challenges of using multi-modal interaction data and expressive agent behavior to monitor, coach, motivate, and support a wide variety of user populations and use cases.  We will cover insights from work with users across the age span (children, adults, elderly), ability span (typically developing, autism, stroke, Alzheimer’s), contexts (schools, therapy centers, homes), and deployment durations (up to 6 months), as well as commercial implications.

Bio:

Maja J Matarić is Chan Soon-Shiong Distinguished Professor of Computer Science, Neuroscience, and Pediatrics at the University of Southern California (USC) and the founding director of the USC Robotics and Autonomous Systems Center.  Her PhD and MS are from MIT, and her BS is from Kansas University.  She is Fellow of AAAS, IEEE, AAAI, and ACM, recipient of the US Presidential Award for Excellence in Science, Mathematics & Engineering Mentoring, Anita Borg Institute Women of Vision for Innovation, NSF Career, MIT TR35 Innovation, and IEEE RAS Early Career Awards, and authored “The Robotics Primer” (MIT Press).  Her university leadership includes serving as the Vice President of Research (2020-21) and as Engineering Vice Dean of Research (2006-2019).  She leads the Engineering K-12 STEM Center and actively mentors and empowers students, women, and other underrepresented groups toward pursuing STEM careers. A pioneer of the field of socially assistive robotics, her research is developing human-machine interaction for personalized support in convalescence, rehabilitation, training, and education for autism spectrum disorders, stroke, dementia, anxiety, and other major health and wellness challenges.

Aude G. Billard

Head of the LASA laboratory

Swiss Institute of Technology Lausanne (EPFL), Switzerland

Bio:

Aude Billard is full professor and head of the LASA laboratory at the School of Engineering at the Swiss Institute of Technology Lausanne (EPFL), and the Director of the Swiss National Theme Innovation Booster Network in Robotics.  She has been elected President of the IEEE Robotics and Automation Society, after serving in several roles in the administrative and executive committees of the society.  Dr. Billard holds a B.Sc and M.Sc. in Physics from EPFL (1995) and a Ph.D. in Artificial Intelligence (1998) from the University of Edinburgh.  Dr. Billard is an IEEE Fellow and was the recipient of the Intel Corporation Teaching award, the Swiss National Science Foundation career award, the Outstanding Young Person in Science and Innovation from the Swiss Chamber of Commerce, the IEEE RAS Distinguished Award and the IEEE-RAS Best Reviewer Award.  Her research spans the fields of machine learning and robotics with a particular emphasis on fast and reactive control and on human-robot interaction. This research received best paper awards from IEEE T-RO, RSS, ICRA, IROS, Humanoids and ROMAN and was featured in premier venues (BBC, IEEE Spectrum, Wired).