Inhalt des Dokuments
A1
Prof. Dr. Anna Zakharova [1]
Control and dynamics of multilayer networks
[2]
A2
Prof. Dr.
Volker Mehrmann [3]
Analysis and computation of stability exponents for
port-Hamiltonian delay differential-algebraic equations
[4]
A3
Dr.
Matthias Wolfrum [5]
Self-organization and control in coupled networks and time-delayed
systems [6]
A4
Prof. Dr.
Bernold Fiedler [7] / Dr. Isabelle Schneider [8]
Spatio-temporal patterns: control, delays, and design
[9]
A5
Prof. Dr.
Alexander Mielke [10]
Pattern formation in coupled parabolic systems
[11]
A8
Prof. Dr.
Etienne Emmrich [12]
Nonlinear evolution equations: model hierarchies and complex fluids
[13]
A10
Prof.
Dr. Wilhelm Stannat [14]
Control of stochastic mean-field equations with applications to
brain networks [15]
A11
Prof. Dr. Felix von Oppen [16]
Feedback control for quantum information processing
[17]
A12
Prof. Dr.
André Eckardt [18] / Dr. Ling-Na Wu [19]
Feedback control of atomic quantum gases
[20]
B:
Concepts of applications
B1
Prof. Dr.
Andreas Knorr [21] / Dr. Alexander Carmele [22]
Feedback control of open quantum networks
[23]
B2
Prof. Dr.
Sabine Klapp [24]
Control of dynamical structures and transport in driven colloidal
systems [25]
B4
Prof. Dr. Holger Stark [26]
Control of flow patterns in complex fluids on the micron scale
[27]
B5
Prof. Dr.
Markus Bär [28]
Control of multiscale pattern formation and application to cardiac
dynamics and active matter [29]
B8
Prof. Dr. Klaus Obermayer [30]
Dynamics and control of inter-areal brain networks
[31]
B9
Prof. Dr.
Kathy Lüdge [32]
Stochastic and structural properties of complex laser networks for
optical computing [33]
B11
Prof. Dr. Vadim S. Anishchenko [34] / Prof.
Dr. Tatiana E. Vadivasova [35] / Dr. Galina Strelkova [36]
Dynamics of complex networks in the presence of external
influences: synchronization and control
[37]
B12
Dr. Anja
Metelmann [38]
Control and feedback protocols via dissipation engineering
[39]
------ Links: ------
[1]
https://www3.itp.tu-berlin.de/nonlinear_dynamics_in_
complex_networks/nlds0/members/leading_scientists/prof_
dr_anna_mandel_zakharova_phd/
[2]
https://www3.itp.tu-berlin.de/collaborative_research
_center_910/sonderforschungsbereich_910/research/projec
ts/a1/
[3]
https://www.math.tu-berlin.de/fachgebiete_ag_modnum
diff/fg_numerische_mathematik/v_menue/mitarbeiterinnen/
mehrmann/home/
[4]
https://www3.itp.tu-berlin.de/collaborative_research
_center_910/sonderforschungsbereich_910/research/projec
ts/a2/
[5]
http://www.wias-berlin.de/~wolfrum/
[6]
https://www3.itp.tu-berlin.de/collaborative_research
_center_910/sonderforschungsbereich_910/research/projec
ts/a3/
[7]
http://dynamics.mi.fu-berlin.de/persons/fiedler.php
[8]
http://dynamics.mi.fu-berlin.de/persons/schneider.p
hp
[9]
https://www3.itp.tu-berlin.de/collaborative_research
_center_910/sonderforschungsbereich_910/research/projec
ts/a4/
[10]
http://www.wias-berlin.de/projects/sfb910-a5/
[11]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/a5/
[12]
https://www.math.tu-berlin.de/fachgebiete_ag_modnu
mdiff/diffeqs/v_menue/fg_differentialgleichungen/mitarb
eiter/prof_dr_etienne_emmrich/v_menue/home/
[13]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/a8/
[14]
https://www.math.tu-berlin.de/fachgebiete_ag_stoch
finanz/fg_mathematische_stochastik_stochastische_prozes
se_in_den_neurowissenschaften/v_menue/mitarbeiter/prof_
dr_wilhelm_stannat/prof_dr_wilhelm_stannat/
[15]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/a10/
[16]
https://www.physik.fu-berlin.de/en/einrichtungen/a
g/ag-von-oppen/index.html
[17]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/a11/
[18]
https://www3.itp.tu-berlin.de/eckardt/ag_eckardt/ag
_eckardt/
[19]
https://www3.itp.tu-berlin.de/eckardt/ag_eckardt/mi
tglieder/
[20]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/a12/
[21]
https://www3.itp.tu-berlin.de/knorr/ag_knorr/mitgli
eder/
[22]
https://www3.itp.tu-berlin.de/knorr/ag_knorr/member
s/alexander_carmele/
[23]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b1/
[24]
https://www3.itp.tu-berlin.de/klapp/ag_klapp/homepa
ge_ag_klapp/
[25]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b2/
[26]
https://www3.itp.tu-berlin.de/stark/ag_stark/mitgli
eder/prof_dr_holger_stark/
[27]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b4/
[28]
https://www.ptb.de/cms/ptb/fachabteilungen/abt8/fb
-84/ag-841/mitarbeiter-841.html
[29]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b5/
[30]
https://www.ni.tu-berlin.de/menue/members/head_of_
research_group/obermayer_klaus/
[31]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b8/
[32]
https://www3.itp.tu-berlin.de/rg_luedge/agluedge/qd
_laser_ludge0/ludge/
[33]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b9/
[34]
http://chaos.ssu.runnet.ru/~wadim/wadim.htm
[35] http://www.sgu.ru/en/node/345
[36]
http://chaos.sgu.ru/~galya/galya.html
[37]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b11/
[38]
https://www.physik.fu-berlin.de/en/einrichtungen/a
g/ag-metelmann/index.html
[39]
https://www3.itp.tu-berlin.de/collaborative_researc
h_center_910/sonderforschungsbereich_910/research/proje
cts/b12/
