POSTPONED – Olaf Hellwich (Science of Intelligence)
SCIoI, Marchstraße 23, 10587 Berlin, Room 2.057More details to follow. This talk will take place in person at SCIoI (room 2.057).
More details to follow. This talk will take place in person at SCIoI (room 2.057).
Many applications in robotics would benefit from robots being able to learn manipulation skills from only few demonstrations or trials. This contrasts with the ongoing trend in machine learning of constantly increasing the amount of data required to learn tasks. The main challenge of acquiring manipulation skills from limited training data is to find inductive
Mohsen is a doctoral researcher at SCIoI, working on Project 27, Speed-Accuracy Tradeoffs in Collective Estimation. His research explores the role of networks in shaping collective opinion dynamics. In this lecture, he will provide an overview of network science with a focus on its applications in collective robotics. He will cover basic topics in graph
Justin Werfel is a senior research scientist at Harvard’s Wyss Institute for Biologically Inspired Engineering, where he works on topics in complex and emergent systems, including swarm robotics, termite behavior, engineered molecular nanosystems, and evolutionary theory. He leads the Designing Emergence Laboratory, and works closely with a number of other collaborating labs. This talk will take place as
Abstract: Research in developmental robotics includes modeling human intelligence and the process of its emergence in robotic systems. A novel research paradigm in psychology is emerging in conjunction with such efforts regarding reproducing human-specific communication abilities in robots and observing how children interact with robots with various communication capabilities. I will discuss such research trends
The past few years have witnessed significant progress in the field of legged locomotion and manipulation. This is mainly due to the availability of high-performance hardware as well as development of algorithms that scale to high-dimensional, hybrid and under-actuated systems. In this talk, I will present my recent research efforts, mainly on the algorithmic side,
Mario di Bernardo is Professor of Automatic Control at the University of Naples Federico II, Italy and Visiting Professor of Nonlinear Systems and Control at the University of Bristol, U.K. He currently serves as Deputy pro-Vice Chancellor for Internationalization at the University of Naples and coordinates the research area and PhD program on Modeling and
Onur Güntürkün is regarded as a pioneer of biologically based psychology. The aim of his work is to find out how perception, thought and action arise in the brain. He is interested in diverse topics, such as motor learning, fear, risk-taking behavior and even kissing. In his research, Güntürkün combines psychological, biological and neuroanatomical aspects
Sabine Hauert is Professor of Swarm Engineering at the University of Bristol in the UK. Her research focuses on making swarms for people, and across scales, from nanorobots for cancer treatment, to larger robots for environmental monitoring, or logistics. Before joining the University of Bristol, Sabine engineered swarms of nanoparticles for cancer treatment at MIT,
Carlo Pinciroli is an Associate Professor and Graduate Coordinator of the Robotics Engineering department at Worcester Polytechnic Institute (WPI), where he leads the NEST (Novel Engineering for Swarm Technologies) Lab. With additional appointments in WPI’s Artificial Intelligence Program, Computer Science, and Fire Protection Engineering, his research centers on swarm robotics. He is the creator of
Oliver Kroemer’s research focuses on developing algorithms and representations that enable robots to learn versatile manipulation skills over time. By equipping robots with the ability to acquire new skills and adapt manipulations to novel situations, his work opens up a wide range of potential applications—from assisting the elderly and maintaining parks and public spaces to
Mary Ellen Foster's research focuses on developing artificial agents—primarily robots—that can engage in natural, face-to-face conversations with humans, similar to well-known examples like C-3PO or R2-D2. To achieve such seamless interactions, robots must be equipped to both interpret and produce a variety of social signals, including speech, facial expressions, gestures, and body language. This requires