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Inhalt des Dokuments

A: Theoretical methods

A1

Dr.  Anna Zakharova

Control and dynamics of multilayer networks [1]

A2

Prof. Dr. Volker Mehrmann [2]

Analysis and computation of stability exponents for port-Hamiltonian delay differential-algebraic equations [3]

A3

Dr. Matthias Wolfrum [4]

Self-organization and control in coupled networks and time-delayed systems [5]

A4

Prof. Dr. Bernold Fiedler [6] / Dr. Isabelle Schneider [7]

Spatio-temporal patterns: control, delays, and design [8]

A5

Prof. Dr. Alexander Mielke [9]

Pattern formation in coupled parabolic systems [10]

A8

Prof. Dr. Etienne Emmrich [11]

Nonlinear evolution equations: model hierarchies and complex fluids [12]

A10

Prof. Dr. Wilhelm Stannat [13]

Control of stochastic mean-field equations with applications to brain networks [14]

A11

Prof. Dr. Felix von Oppen [15]

Feedback control for quantum information processing [16]

B: Concepts of applications

B1

Prof. Dr. Andreas Knorr [17] / Dr. Alexander Carmele [18]

Feedback control of open quantum networks [19]

B2

Prof. Dr. Sabine Klapp [20]

Control of dynamical structures and transport in driven colloidal systems [21]

B4

Prof. Dr. Holger Stark [22]

Control of flow patterns in complex fluids on the micron scale [23]

B5

Prof. Dr. Markus Bär [24]

Control of multiscale pattern formation and application to cardiac dynamics and active matter [25]

B8

Prof. Dr. Klaus Obermayer [26]

Dynamics and control of inter-areal brain networks [27]

B9

Prof. Dr. Kathy Lüdge [28]

Stochastic and structural properties of complex laser networks for optical computing [29]

B11

Prof. Dr. Vadim S. Anishchenko [30] / Prof. Dr. Tatiana E. Vadivasova [31] / Dr. Galina Strelkova [32]

Dynamics of complex networks in the presence of external influences: synchronization and control [33]

B12

Dr. Anja Metelmann [34]

Control and feedback protocols via dissipation engineering [35]

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