This CRC has set out from the fact that the two major mathematical fields of analysis and probability theory have become more and more intertwined, both with respect to aims and achievements and with respect to methodology. A considerable number of significant results in either field was recognized to be relevant for the other.As always in mathematics when there are rapid new developments on the conceptual and theoretical side, a vast number of new applications emerged in other sciences, in particular in economics, physics, and biology. For example, the developments in stochastics provide the perfect language to formulate a rigorous theory of financial markets; the theoretical insight created new markets, which in turn led to new mathematical questions. Likewise, random matrix theory has led to a detailed understanding of many physical systems on the one hand, and to new challenges in analysis and probability theory on the other hand. In biology, the mutually beneficial cross-fertilization between diffusion theory and population genetics has led to far-reaching insights into the processes of evolution.Randomness (or noise) is a common characteristic of many mathematical models in the above fields; the underlying structures (e.g. state spaces or observables) are of low regularity. The CRC is devoted to the deep analysis of both the “bad” and the “good” features of randomness and noise, and to exploiting the underlying (albeit) low regularity structures. On the one hand, noise comes into a model as a nuisance, destroying the possibility of a deterministic description of the dynamics.Another example for “bad” randomness is the lack of information about probability distributions when modeling financial markets; such model “uncertainty” is considered generic and has to be “tamed”.On the other hand, randomness does have definite advantages, and techniques to exploit low regularity are being developed. E.g. in the presence of “sufficient” noise, ill-defined deterministic dynamics turn into well-defined mathematical objects.The focal points for future research will be: Rough state spaces and diverse geometry, restricted versus unrestricted uniqueness and regularization by noise, robust economics and strategic aspects of investment under uncertainty, fluctuating hydrodynamics and stochastic fluid dynamics, and universality in higher dimensions.Thus, the CRC will focus on “taming uncertainty” and “profiting from randomness and low regularity”. It aims at developing the underlying concepts and theory, and at their application to long-standing open problems in economics and the natural sciences.

DFG Programme Collaborative Research Centres

International Connection Austria, China

• A01 - Nonlinear interactions of rough waves (Project Head Herr, Sebastian )
• A03 - Analysis on manifolds, metric spaces and graphs (Project Head Grigoryan, Alexander )
• A05 - Fokker-Planck-Kolmogorov equations on general state spaces (Project Heads Röckner, Michael ;  Wang, Feng-Yu )
• A06 - Random versus deterministic dynamical systems with aperiodic long-range order (Project Head Baake, Michael )
• A07 - Differential and integro-differential operators with degenerate coefficients (Project Heads Balci, Anna Kh. ;  Diening, Lars ;  Kaßmann, Rolf Moritz )
• A08 - Variational structures for evolution equations, optimal transport, and synthetic curvature (Project Head Erbar, Matthias )
• B01 - New trends in stochastic partial differential equations (Project Heads Gess, Benjamin ;  Röckner, Michael ;  Zhang, Xicheng ;  Zhu, Rongchan ;  Zhu, Xiangchan )
• B03 - Numerical approximation of stochastic partial differential equations and stochastic games (Project Head Banas, Ph.D., Lubomir )
• B05 - Universal and asymptotic distributions in high-dimensional probability (Project Heads Akemann, Gernot ;  Götze, Friedrich )
• B07 - Stochastic non-Newtonian fluids: regularity and numerics (Project Heads Diening, Lars ;  Hofmanova, Ph.D., Martina )
• B08 - Stochastic PDE with conservative noise (Project Head Gess, Benjamin )
• B10 - High-dimensional Markov processes in cones (Project Head Wachtel, Vitali )
• C01 - Ancestral lines in population models with interaction (Project Heads Baake, Ellen ;  Cordero, Fernando )
• C02 - Innovation dynamics under market uncertainty and financial constraints (Project Head Dawid, Herbert )
• C03 - Recursive utility with intertemporal substitution and related stochastic representation problems (Project Head Riedel, Frank )
• C04 - Stochastic games of singular control and games of stopping (Project Head Ferrari, Ph.D., Giorgio )
• C05 - Financial equilibria under Knightian uncertainty (Project Heads Peng, Shige ;  Riedel, Frank )
• C06 - Coupled random matrices in field theory and statistical mechanics (Project Head Akemann, Gernot )
• C07 - Markovian dynamics under model uncertainty (Project Head Nendel, Max )
• Z - Central tasks of the Collaborative Research Centre (Project Heads Herr, Sebastian ;  Röckner, Michael )

• A02 - Singular integral operators and stochastic processes (Project Head Kaßmann, Rolf Moritz )
• A04 - Measure concentration and information distances (Project Head Götze, Friedrich )
• B02 - Stochastic partial differential equations with singular noise (Project Heads Röckner, Michael ;  Zhu, Rongchan ;  Zhu, Xiangchan )
• B04 - Stochastic dynamics on networks and metastability (Project Head Gentz, Barbara )

Applicant Institution Universität Bielefeld

Participating University Tianjin University; Wuhan University

Participating Institution Chinese Academy of Sciences; Beijing Institute of Technology
Department of Mathematics

Spokesperson Professor Dr. Sebastian Herr, since 7/2021