Perception is one of the most fundamental functions of our mind as it provides the primary source of information about our surrounding world. Our senses enable us to take up information from the environment, while perception is the process by which this information is interpreted, a “making sense of the senses”. The purpose of this CRC is to understand perception across a wide range of domains in terms of three underlying principles: Prediction, Valuation and Categorization. These cardinal mechanisms create and maintain sophisticated internal models of the world. The brain is the organ that continuously optimizes these internal models, enabling us to predict the future state of the environment and the consequences of actions, evaluate the potential risks and benefits of different stimuli and responses, and categorize a complex continuous world into discrete mental concepts and behaviors. Accordingly, our CRC is organized into three research areas:A. Prediction. We investigate how perceptual predictions actively guide our sensors to acquire information optimally. We seek to understand how predictions allow us to discount the sensory consequences of our own actions and how they enable robust and efficient information uptake. B. Valuation. We investigate how valuation processes weigh different sensory signals and action outcomes to maximize information gain and reward. We seek to understand how valuation both optimizes the immediate behavioral consequences of an action and continuously corrects internal models. C. Categorization. We investigate how categories are inferred from regularities in the environment, across different domains, from color to emotions. We seek to understand how categories emerge, and the advantages they confer for perception by emphasizing relevant information.To obtain a comprehensive understanding of prediction, valuation and categorization, we deploy a unique combination of human behavioral experiments, physiology and modeling. Our goal is to delineate the cardinal mechanisms behaviorally, to identify their underlying neural substrates and to explain their functions with computational models. In the long run, we seek to extend our investigation of the development of the cardinal mechanisms throughout the entire life span, and to uncover the functional role of their impairment in neurological and psychiatric disorders.

DFG Programme CRC/Transregios

International Connection Turkey, United Kingdom, USA

• A01 - Prediction of position and motion during saccadic and smooth pursuit eye movements (Project Heads Braun, Doris Ingeborg ;  Bremmer, Frank ;  Gegenfurtner, Ph.D., Karl Reiner )
• A02 - Predictive self-motion processing in primates: Neurophysiology, modeling and behavior (Project Head Bremmer, Frank )
• A03 - Predictive perception: Multisensory consequences of one’s own actions (Project Heads Kircher, Tilo ;  Straube, Ph.D., Benjamin )
• A04 - Predictive somatosensory processing during voluntary movements (Project Heads Fiehler, Katja ;  Voudouris, Ph.D., Dimitrios )
• A05 - Prior information and predictive mechanisms in exploration and perception during active touch (Project Head Drewing, Knut )
• A07 - Predictive visual-spatial abilities and motor skills beyond infancy (Project Heads Jovanovic, Bianca ;  Schwarzer, Gudrun )
• A09 - Spatiotemporal prediction in the cortical processing of natural visual information (Project Head Kaiser, Ph.D., Daniel )
• A10 - Neural mechanisms underlying action-based predictions and their effects on perception (Project Head van Kemenade, Bianca )
• B02 - Control of eye movements by informational value (Project Head Schütz, Alexander Christian )
• B03 - Determining priority in visual selection (Project Head Schubö, Anna )
• B05 - Value-based modulation of perception and action in real-world settings across the adult lifespan (Project Heads Billino, Jutta ;  Einhäuser-Treyer, Wolfgang ;  Gegenfurtner, Ph.D., Karl Reiner )
• B06 - Predictive error perception in complex natural environments (Project Heads Hegele, Mathias ;  Maurer, Lisa ;  Müller, Hermann )
• B07 - Neurochemical and neurophysiological mechanisms in the interaction of reward processing with bottom-up and top-down networks: The role of dopamine and E/I balance (Project Head Mulert, Christoph )
• B08 - Integration of prior knowledge and sensory information in the perception of material qualities (Project Heads Boyaci, Hüseyin ;  Doerschner-Boyaci, Ph.D., Katja )
• C01 - Visual categorization of complex naturalistic materials (Project Heads Fleming, Ph.D., Roland William ;  Schmidt, Filipp )
• C02 - On the origin of color categories (Project Head Gegenfurtner, Ph.D., Karl Reiner )
• C03 - Emotion categorization across the life span: Multiple domains and opportunities for enhancement (Project Heads Kauschke, Christina ;  Schwarzer, Gudrun )
• C06 - Perception of modular movement primitives (Project Heads Endres, Ph.D., Dominik M. ;  Schütz, Alexander Christian )
• C07 - The genesis of object-context associations in hierarchically structured real-world environments (Project Head Vo, Melissa Le-Hoa )
• C09 - Factors shaping categorical face processing (Project Heads Dobs, Katharina ;  de Haas, Ph.D., Benjamin )
• C10 - Neural substrates of word and number categorization (Project Head Grotheer, Mareike )
• C11 - Visual and semantic determinants of mental and neural representations of objects (Project Head Hebart, Martin )
• INF - NeurOscientific Workflow Assistance (NOWA) (Project Heads Gegenfurtner, Ph.D., Karl Reiner ;  de Haas, Ph.D., Benjamin ;  Helf, Clemens ;  Schütz, Alexander Christian ;  Valsecchi, Ph.D., Matteo )
• S - Deep learning: Unlocking the potential (Project Heads Dobs, Katharina ;  Fleming, Ph.D., Roland William )
• Z - Central Tasks of the Collaborative Research Centre (Project Head Gegenfurtner, Ph.D., Karl Reiner )

• A08 - Prediction, prediction error and learning in peripheral vision (Project Heads Gegenfurtner, Ph.D., Karl Reiner ;  Valsecchi, Ph.D., Matteo )
• B01 - The interaction of visual and motivational salience in natural-scene perception (Project Heads Einhäuser-Treyer, Wolfgang ;  Wittmann, Bianca )
• B04 - Effects of informational value on perception and attention in associative learning. (Project Heads Einhäuser-Treyer, Wolfgang ;  Lachnit, Harald )
• C05 - A mind divided? The animate-inanimate distinction in action and language perception (Project Heads Bornkessel-Schlesewsky, Ina ;  Hegele, Mathias )

Applicant Institution Justus-Liebig-Universität Gießen

Co-Applicant Institution Philipps-Universität Marburg

Participating University Goethe-Universität Frankfurt am Main; Technische Universität Chemnitz

Spokesperson Professor Karl Reiner Gegenfurtner, Ph.D.