Marianne Maertens (event takes place at MAR at 2pm), “Smart mechanisms in visual perception”
More details to follow.
More details to follow.
A cornerstone of SCIoI are the three example behaviors that provide the motivation, as well as the demonstration platforms to showcase the amazing research happening within the cluster. In order to get the ball rolling towards interesting example behaviors, we have recently started regular "integration hackathon" meetings. They bring together people from different projects, who
Berlin4Ukraine: Meet & Learn. A networking event for exile researchers. PhD students and researchers from all academic disciplines that had to flee from war, violence and political persecution frequently face similar problems: They want to continue their scientific work but are often unfamiliar with the German research landscape, the academic system as well as the local funding culture.
Swarms, such as schools of fish, and flocks of birds, have shown a great capability of solving complex problems in nature. Such examples are bees finding the best nest site, or fish escaping from a predator. Here at the Swarm Robotics Lab of SCIoI, we demonstrate how a swarm of robots can solve problems, make
SCIoI is taking part of the Lange Nacht der Wissenschaften 2022 with five unique events! We will have Richard Schweitzer and Nicolas Roth showing and performing experiments on eye movements, Dustin Lehmann presenting robot interaction, plus a demonstration on swarm intelligence with Mohsen Raoufi, and a talk with David Bierbach at the Humboldt Labor. Do
The RBO Lab Team gives three exciting demonstrations of recent advances in robotics: acoustic sensing with soft robot fingers, robot hand teleoperation, and moving robotic hand perceiving spatial depths. The RBO Lab Team has given three exciting demonstrations of recent advances in robotics: acoustic sensing with soft robot fingers, robot hand teleoperation, and moving robotic
In this demonstration visitors can experience a group of balancing robots working together to learn difficult motions and moving together like a collective. Visitors can even take control of individual robots to see how the other robots react and adapt their behavior.
To perceive the world around us, we constantly make rapid eye movements called saccades. Despite being the fastest and most frequent of all human movements, we remain largely unaware of them. To observe this, just try to detect your own saccades in the mirror. Using high-speed recording and presentation devices, we can make your saccades
Viele Tiere zeigen erstaunliche kognitive Leistungen. Am Beispiel von Fischen wird Dr. Bierbach einige der beachtlichen Geistesleistungen von Tieren aufzeigen – vom Antizipieren des zukünftigen Verhaltens bekannter Artgenossen über das Kopieren bei der Partnerwahl bis zum Synchronschwimmen im Schwarm.
Abstract: Collective behavior, as exhibited by bird flocks, fish schools or insect swarms, is a fascinating example of self-organized behavior in biology. Mathematical models of flocking were key for the development of our current understanding on how complex complex group-level behaviors may emerge from simple local rules of interaction of close-by individuals. In this lecture
Abstract:Theories of learning from multimodal sources (e.g., combinations of text and pictures, aka multimedia) posit that in order to effectively learn from multimedia, students need to select information from text and pictures, organize the information in memory, and most importantly, integrate the information into one mental model. In the first part of my presentation, I
Abstract: The eyes are the Marco Polo of the human body — they travel incessantly across the visual world in front of us, curious for interesting or even insightful information. Tracking someone’s eye movements, therefore, provides insights into their perception and cognition — the eyes are indeed a window to the mind. That eye movements