Talk Abstract and Speaker Bio for RRJS 2026 Edition
Prof. Christian Cipriani
Sant'Anna Scuola universitaria Superiore Pisa, Italy
TITLE: TBA
ABSTRACT:
TBA
BIO:
Prof. Christian Cipriani is the Dean of the Faculty of experimental sciences of the Scuola Superiore Sant'Anna and Head of the Artificial Hands Area at the BioRobotics Institute. His field of research is (bio)mechatronics applied to the area of upper limb prosthetics.
From 2017 to 2023 he served as the Director of the BioRobotics Institute. From 2014 to 2016 he was an Associate Professor of Bioengineering at the BioRobotics Institute of SSSA also serving as Deputy Director (2014-2017). In 2012 he has been a Visiting Scientist with the Biomechatronics Development Lab at University of Colorado Denver | Anschutz Medical Campus, with a Fulbright Scholarship. He received the Ph.D. in Biorobotics Science and Engineering from a joint program between IMT Institute for Advanced Studies, Lucca and Scuola Superiore Sant'Anna in 2008, and the Laurea degree in Electronic Engineering (MSc) with full marks from the University of Pisa, Italy in 2004.
He has coordinated several national and international research projects and authored 180+ peer reviewed scientific papers, 100+ of which on international journals. His current research is sponsored by the Italian Workers’ Compensation Authority (INAIL), the Italian Ministry of University and Research (MUR), and the European Research Council (ERC). He is the founder of Prensilia S.r.l., a spin-off company of SSSA that develops and commercializes prosthetic and robotic hands.
Prof. Marco Controzzi
Sant'Anna Scuola universitaria Superiore Pisa, Italy
TITLE: TBA
ABSTRACT:
TBA
BIO:
Marco Controzzi received the M.Sc. degree in Mechanical Engineering from the University of Pisa, Italy, in 2008, and the Ph.D. in Biorobotics from the Scuola Superiore Sant’Anna, Pisa, Italy, in 2013. He is currently Associate Professor at The Biorobotics Institute, Scuola Superiore Sant’Anna, Pisa, Italy. He joined the ARTS-Lab of the Scuola Superiore Sant’Anna in 2006 as Research Assistant. Marco Controzzi is founder of a spin-off company of the Scuola Superiore Sant'Anna: Prensilia Srl.
Prof. Giuseppe Notarstefano
Università di Bologna, Italy
TITLE: Learning-driven Optimization and Safe Control of Autonomous and Distributed Robots
ABSTRACT: In this talk I will present a learning-driven optimization and control framework for the safe operation of autonomous robots in real time and under uncertain operating conditions while learning about the environment. In the first part of the talk, I will introduce novel hierarchical and learning-driven numerical optimal control methods to safely drive autonomous robots within constrained operating regions. At the methodological level, I will show how systems theory provides elegant and insightful tools to analyze complex systems involving the interconnection between algorithmic and physical dynamics. In the second part of the talk, I will move to a distributed framework in which the solution to an optimization problem is computed cooperatively by multiple agents without a central coordinator. For this setting, I will present multi-resolution distributed learning and optimization algorithms that combine microscopic agent-level schemes with macroscopic models. Finally, I will introduce novel ROS 2-based toolboxes for distributed robotics and show virtual and mixed-reality experiments involving heterogeneous multi-robot systems.
BIO: Giuseppe Notarstefano is a Professor in the Department of Electrical, Electronic, and Information Engineering G. Marconi at Alma Mater Studiorum Università di Bologna, where he has alsos been Director of Degree of Automation Engineering from 2019 to 2025. He was Associate Professor (June ‘16 – June ‘18) and previously Assistant Professor, Ricercatore, (from Feb ‘07) at the Università del Salento, Lecce, Italy. He received the Laurea degree “summa cum laude” in Electronics Engineering from the Università di Pisa in 2003 and the Ph.D. degree in Automation and Operation Research from the Università di Padova in 2007. He has been visiting scholar at the University of Stuttgart, University of California Santa Barbara and University of Colorado Boulder. His research interests include distributed optimization and learning, cooperative and distributed robotics, nonlinear optimal control and learning, and trajectory optimization and maneuvering of autonomous vehicles. He has served as an Associate Editor for IEEE Transactions on Automatic Control, IEEE Transactions on Control Systems Technology and IEEE Control Systems Letters. He has been part of the Conference Editorial Board of IEEE Control Systems Society and EUCA. He was recipient of the IEEE TCNS outstanding paper award 2021 and his students have received awards for best student papers and theses including the EECI European PhD award on Systems and Control. He was a recipient of an ERC Starting Grant 2014.
Dr. Edoardo Lamon
Università di Trento
TITLE: Towards Remote Physical Examination with Collaborative Robotics
ABSTRACT:
Remote physical examination is an emerging frontier in medical telerobotics, with the potential to extend selected diagnostic procedures beyond conventional telehealth. In this talk, I will present our recent work on roboticultrasonography and palpation, where remote operators are supported through haptic feedback, virtual reality interfaces, and shared-control approaches. A central focus of this research is the modelling of patient anatomy and the estimation of tissue viscoelastic properties, which support safe, compliant, and repeatable physical interaction, as well as consistent force regulation during scanning and palpation. Building on these foundations, I will discuss examples including assisted tele-ultrasonography, robotic exploration for lump detection, and ongoing developments towards ultrasound-guided intervention. Taken together, these studies highlight how collaborative robotics can support more effective, ergonomic, and reliable approaches to remote physical examination.
BIO:
Edoardo Lamon is an Assistant Professor in the Department of Information Engineering and Computer Science (DISI) at the Università di Trento. From 2021 to 2023, he was a Postdoctoral Researcher in the Human-Robot Interfaces and Interaction (HRI²) group at the Istituto Italiano di Tecnologia (IIT) in Genoa, Italy, where he also carried out his PhD research. He received his PhD from the University of Pisa in 2021; his dissertation was selected as a finalist for the Georges Giralt PhD Award, recognizing the best European thesis in robotics.
At the University of Trento, he is a member of the Interdepartmental Robotics Lab (IDRA), where he leads research activities in assistive and medical robotics. His research interests include physical human-robot interaction, medical robotics, human-robot collaboration, and the application of artificial intelligence, robot control and learning in industrial and medical scenarios.
He has contributed to several successful EU-funded projects, including HARMONICA, SOPHIA, and CONCERT, as well as national project proposals such as the Fondazione VRT-funded SIRING-IA project. He is the author of more than 30 publications in scientific journals and international conferences. He serves as Associate Editor for IEEE Transactions on Medical Robotics and Bionics (since 2026) and IEEE Robotics and Automation Letters, and as Associate Editor for the IEEE International Conference on Ubiquitous Robots (both since 2023).
His work has received several distinctions, including finalist recognition for the Georges Giralt PhD Award for the best European PhD thesis in robotics, the Best Paper Award on Surgical Robotics at I-RIM 3D 2025, finalist recognition for the Best Paper Award on Mobile Manipulation at IROS 2022, for Best Paper Awards at I-RIM in 2024, 2021, and 2019, and for the MECSPE Solution Award in 2020.
Prof. Andrea Garulli
Università di Siena, Italy
TITLE: Reinforcement Learning Approaches to Human-Aware Robot Navigation
ABSTRACT:
The integration of autonomous mobile robots into human-populated environments is a classical challenge in modern robotics. While model-based planning algorithms have been the standard for a long time, they often struggle to capture the complex, interactive nature of crowd dynamics. Consequently, RL has emerged as a promising paradigm, allowing robots to learn sophisticated navigation policies directly from the interaction with the environment. In this talk, we will review some recent research activity on RL-based human-aware robot navigation at the University of Siena. In particular, we introduce JESSI (JAX-based E2E Safe Social Interpretable navigation), a lightweight end-to-end RL framework that maps raw LiDAR scans directly to kinematically feasible control commands. JESSI enhances safety via Dirichlet-parameterized continuous action spaces and deterministic bounding, while an integrated attention-based perception module extracts probabilistic human states for interpretable, socially aware decision-making. The role of pedestrian dynamics simulations in RL-based navigation will also be discussed. To this aim, we present LegNav, an extension of the headed social force model, with explicit leg dynamics and realistic 2D LiDAR rendering, providing a simulation framework that allows to train very efficiently a deployable policy on a single consumer GPU.
BIO:
Andrea Garulli was born in Bologna, Italy, in 1968. He received the Laurea in Electronic Engineering from the University of Firenze in 1993, and the Ph.D. in System Engineering from the University of Bologna in 1997. In 1996 he joined the University of Siena, where he is currently Professor of Control Systems. He has held positions of dean of the Faculty of Engineering (2011-2012) and director of the Department of Information Engineering and Mathematics (2015-2021).
He is a Fellow of the IEEE and he has been member of the Conference Editorial Board of the IEEE Control Systems Society and Associate Editor for the IEEE Transactions on Automatic Control and Automatica. He is author of more than 200 technical publications and co-author of the book "Homogeneous Polynomial Forms for Robustness Analysis of Uncertain Systems" (Springer, 2009). His main research interests include system identification, robust estimation and control, autonomous systems, mobile robotics and aerospace applications.
Prof. Jens Kober
University of Stuttgart, Germany
TITLE: TBA
ABSTRACT:
TBA
BIO:
Jens Kober is a full professor (W3) heading the “Learning and Interactive Robots” (LaIR) department at the University of Stuttgart within the Institute for Artificial Intelligence. He has a joint appointment as Research Team Lead at Fraunhofer IPA. Jens is the recipient of the Robotics: Science and Systems Early Career Award 2022 and the IEEE-RAS Early Academic Career Award in Robotics and Automation 2018. His Ph.D. thesis has won the 2013 Georges Giralt PhD Award as the best Robotics PhD thesis in Europe in 2012. Jens was an associate professor (2019-2026) and an assistant professor (2015-2019) at TU Delft, Netherlands, first at the Delft Center for Systems and Control (DCSC) and later at the Cognitive Robotics department (CoR). He also was a member of the TU Delft Robotics Institute. Previously, he worked as a postdoctoral scholar (2012-2014) jointly at the CoR-Lab, Bielefeld University, Germany and at the Honda Research Institute Europe, Germany.From 2007-2012 he was working with Jan Peters as a master's student and subsequently as a Ph.D. student at the Robot Learning Lab, Max-Planck Institute for Intelligent Systems, Empirical Inference Department (formerly part of the MPI for Biological Cybernetics) and Autonomous Motion Department. Jens has graduated in Spring 2012 with a Doctor of Engineering “summa cum laude” from the Intelligent Autonomous Systems Group, Technische Universität Darmstadt. Jens holds degrees (MSc equivalent) in control engineering from University of Stuttgart and in general engineering from the École Centrale Paris (ECP). He has been a visiting research student at the Advanced Telecommunication Research (ATR) Center, Japan and an intern at Disney Research Pittsburgh, USA. Jens is an ELLIS Fellow and IEEE Senior Member. Jens serves as the Secretary of the Robot Learning Foundation, as Member of the International Advisory Board - CIIRC - Czech Technical University in Prague. He serves as a senior editor for the IEEE Robotics and Automation Letters, for the IEEE Transactions on Robotics, and for the IEEE Transactions on Robot Learning, as well as an associate editor of npj Robotics and as area chair/associate editor for numerous conferences. He served as co-chair of the IEEE-RAS TC Robot Learning (2016-2021), as co-director of the ELLIS Unit Delft, as a Local Arrangements Chair for Robotics: Science and Systems 2024, as the Virtual Conference Arrangements Chair for Robotics: Science and Systems 2020, as a Program Chair for the Conference on Robot Learning 2020, as the Finance Chair for the International Conference on Advanced Intelligent Mechatronics 2021, as associate editor for the IEEE/ASME Transactions on Mechatronics, as editor for the IEEE/RSJ International Conference on Intelligent Robots and Systems, and as editorial board member of the Journal of Machine Learning Research. He has served as reviewer for most well-known journals and conferences in the fields of machine learning and robotics.
Prof. Masoumeh Mansouri
University of Birmingham, United Kingdom
TITLE: Robust Decision Making in Multi-Agent Systems
ABSTRACT:
This talk explores several principles of robust decision making in multi-agent systems, focusing on how autonomous agents can operate reliably in complex, uncertain, and dynamic environments. In particular, I will cover aspects such as problem decomposition, verification, failure handling, and responsible modelling in the context of real-world robotic applications, including mining, object transportation, automated assembly, museum robots, and construction sites.
BIO:
Masoumeh Iran Mansouri is an Associate Professor in the School of Computer Science at the University of Birmingham, UK. Previously, she was a researcher at the Centre for Applied Autonomous Sensor Systems at Örebro University. She has also been a visiting researcher at the Oxford Robotics Institute and Sven Koenig’s lab at the University of Southern California. Her research primarily focuses on AI planning methods for robotics, particularly on integrating robot task and motion planning to enable robots to make autonomous or semi-autonomous decisions in unstructured environments shared with humans. Her research also extends to critical cultural robotics which investigates the intersection of cultural theories and robotics from a critical perspective. She is the co-founder of the Critical Cultural Robotics Network at the University of Birmingham, and recently, co-founded the Critical Cultural Robotics Network to explore forms of contestation against AI systems.