Improving the understanding of human behavior – together with AI / EU funds project with two million euros
Darmstadt, March 17th 2022. Constantin Rothkopf, Director of the Center for Cognitive Science at TU Darmstadt, will receive a highly prestigious Consolidator Grant from the European Research Council (ERC). His project “ACTOR – Towards a computational account of natural sequential behavior” will be funded with almost two million euros over a period of five years. This award further strengthens the numerous activities of TU Darmstadt in the area of cognitive science and artificial intelligence (AI).
The goal of the project is to better understand human behavior in everyday tasks through computational cognitive models, i.e. by developing and applying algorithms similar to AI.
Since the mid 19th century, the behavioral sciences have used laboratory experiments to reveal numerous systematic illusions, errors and biases in human perception, decision making, thinking and acting. But how can these phenomena be explained scientifically? Cognitive science, the twin science of AI, employs computational models to better understand human behavior. The idea is that, if cognition is based on information processing, it has to adhere to the fundamental laws of computation. Indeed, the last decades have seen substantial progress in modeling, predicting and explaining human behavior including illusions, errors and biases through information processing algorithms.
While most behavioral experiments under laboratory conditions use short, highly controlled tasks with unambiguous goals, real world tasks such as navigating in an unfamiliar environment or even making a sandwich are characterized by a multitude of ambiguities, uncertainties and variabilities. As an example, although we are not aware of it, our eyes generate images of very poor quality, much worse than a consumer camera. Nevertheless, we humans are unmatched in the recognition and understanding of visual input. Of course, that comes at the price of approximately 60 per cent of our brain’s computational resources being involved in the information processing that makes us see. “It’s no coincidence that current computer algorithms excel at clearly defined tasks with few uncertainties such as playing chess and go, but they are still hopelessly lost in everyday tasks governed by the full breadth of the world’s uncertainties: it’s because of the fundamental laws of information processing.” says Rothkopf.
This is where ACTOR starts by considering not only classic experiments from perceptual psychology but also everyday tasks in the real world such as navigating unknown environments or even preparing a sandwich. “Based on computational models of sequentially perceiving and acting, to which we have contributed together with our colleagues for several years, we will develop a better understanding of human conscious and unconscious decision processes in natural tasks.” says Rothkopf. The results will not only further the understanding of human perception, cognition and behavior but are expected to also contribute to applications in which humans interact with adaptive systems such as in the area of human computer interaction or interacting with learning robotic systems.
About Professor Constantin Rothkopf
Constantin Rothkopf is founding director of the Center for Cognitive Science at TU Darmstadt and founding member of the Hessian Center for Artificial Intelligence (hessian.AI) as well as full professor for psychology of information processing at the Technical University of Darmstadt. After obtaining his PhD in Brain and Cognitive Sciences and Computer Science at the University of Rochester, NY in 2009 he did a postdoc at the Frankfurt Institute for Advanced Studies. After a year as a substitute professor at the Institute for Cognitive Science in Osnabrück he started a faculty position at TU Darmstadt in 2013. During 2017 he was a visiting professor at the Department for Cognitive Science at Central European University, Budapest.
The ERC Consolidator Grants are awarded by the European Research Council to researchers from all disciplines for a period of seven to twelve years after their doctorate. In this way, the European Union promotes promising research: the Consolidator Grant is aimed at researchers who already have an excellent track record and now need support for their groundbreaking research projects to achieve scientific consolidation. In the current round, 313 grants have been awarded and 2652 applications were submitted.
About TU Darmstadt
TU Darmstadt is one of the leading technical universities in Germany and stands for excellent and relevant science. Global transformations – from the energy transition to Industry 4.0 and artificial intelligence – are being decisively shaped by TU Darmstadt through outstanding findings and forward-looking study programmes.
TU Darmstadt concentrates its top-level research in three fields: energy and environment, information and intelligence, matter and materials. Its problem-centred interdisciplinarity and productive exchange with society, business and politics generate progress for sustainable development worldwide.
Since its foundation in 1877, TU Darmstadt has been one of the most internationally oriented universities in Germany. As a European technical university, it is building a trans-European campus in the Unite! alliance. Together with its partners at the Rhine-Main universities – Goethe University Frankfurt and Johannes Gutenberg University Mainz – it continues to develop the Frankfurt-Rhine-Main metropolitan region as a globally attractive science area.
MI-Nr. 17e/2022, Rothkopf/cst