Komplexe Netzwerke, Maschinelles Lernen & Entscheidungstheorie
Komplexe Netzwerke, Maschinelles Lernen & Entscheidungstheorie
Pionierarbeit mit neuen Methoden. Das ist eines der Themen unserer Forschung.

Was komplexe Netzwerke in Handel oder sozialen Netzwerke ausmacht, spielt auch im Klimasystem und sogar im menschlichen Gehirn eine wichtige Rolle. Mit ausgeklügelten mathematischen Methoden untersucht die Forschung die Dynamiken all dieser Phänomene. Dynamiken, die oft nicht-linear und schwer zu erkennen sind, und bis zu einem gewissen Grad von universeller Natur. Zu diesem Zweck wird maschinelles Lernen angewandt, oft als Künstliche Intelligenz bezeichnet, das aus großen Datenmengen (Big Data) Erkenntnisse gewinnen kann - von Wetterphänomenen bis hin zu menschlichen Interaktionen. Entscheidungstheorie und Spieltheorie hilft dabei zu verstehen, warum Menschen tun, was sie tun.

Personen

Christian Otto
Arbeitsgruppenleiter
Transformationspfade
Climate impacts Nonlinear Dynamics Inequality and equity Complex Networks Global Extremes Energy Model Intercomparison RD3 - Transformation Pathways Acclimate Sustainable Development Economics Quantitative Methods Agent-based Models Food / Agriculture
Leonie Wenz
Stv. Abteilungsleiterin
Arbeitsgruppenleiterin
Komplexitätsforschung
Climate impacts Adaptation Nonlinear Data Analysis RD4 - Complexity Science Inequality and equity Complex Networks Machine Learning Global Acclimate Sustainable Development Economics
Norbert Marwan
Stv. Abteilungsleiter
Complexity Science
Paleoclimate Nonlinear Dynamics Nonlinear Data Analysis RD4 - Complexity Science Tipping Elements Complex Networks
Jürgen Kurths
Wissenschaftler
Komplexitätsforschung
South America Complex Networks Health Energy Climate impacts Planetary Boundaries Weather Tipping Elements Oceans Brandenburg Arctic / Antarctica RD4 - Complexity Science Europe Atmosphere Germany Paleoclimate North America Asia Nonlinear Dynamics Nonlinear Data Analysis Oceania/Australia Machine Learning Sustainable Development Open Source Software
Patryk Kubiczek
Doktorand
Transformationspfade
Climate impacts Complex Networks Global RD3 - Transformation Pathways Acclimate Economics Agent-based Models Food / Agriculture
Niklas H. Kitzmann
Wissenschaftler
Doktorand
Erdsystemanalyse
RD1 - Earth System Analysis Science Unit - Earth Resilience (ERSU) Tipping Elements Complex Networks Cities Global copan:CORE Agent-based Models
Josef Ludescher
Wissenschaftler
Erdsystemanalyse
Complex Networks Planetary Boundaries Science Lab RD1 - Earth System Analysis
Jonathan Donges
Erdsystemanalyse
Paleoclimate Planetary Boundaries Nonlinear Dynamics RD1 - Earth System Analysis Nonlinear Data Analysis Tipping Elements Complex Networks Decarbonization Global Extremes PISM-PIK Ice POEM Sustainable Development copan:CORE Agent-based Models Security / Migration Open Source Software
Maik Billing
Wissenschaftler
Earth System Analysis
Biodiversity RD1 - Earth System Analysis Machine Learning Forest Ecosystems LPJmL
Nico Wunderling
Postdoktorand
Wissenschaftler
Erdsystemanalyse
Nonlinear Dynamics Nonlinear Data Analysis RD1 - Earth System Analysis CLIMBER Science Unit - Earth Resilience (ERSU) South America Complex Networks Tipping Elements Global Ecosystems Open Source Software
Dánnell Quesada Chacón
Wissenschaftler
Transformationspfade
Climate impacts Biodiversity Machine Learning Extremes RD3 - Transformation Pathways
Sven Willner
Komplexitätsforschung
Climate impacts Adaptation Nonlinear Dynamics Nonlinear Data Analysis RD4 - Complexity Science Complex Networks Extremes Global Acclimate Economics Agent-based Models Open Source Software
Stefan Lange
Wissenschaftler
Transformationspfade
Africa Climate impacts Nonlinear Data Analysis South America Machine Learning Health Extremes Global Atmosphere Model Intercomparison Germany RD3 - Transformation Pathways Open Source Software
Jonas Pilot
RD4 - Complexity Science Machine Learning
Marcos Alves
Doktorand
Transformation Pathways
RD3 - Transformation Pathways MAgPIE Machine Learning PIAM
Michael Lindner
Nonlinear Dynamics RD4 - Complexity Science Complex Networks Machine Learning Energy Open Source Software
Maria A. Martin
Stab der wissenschaftlichen Direktoren
Tipping Elements Complex Networks PISM-PIK Global Director Rockström Ice Directors' Staff Arctic / Antarctica
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Publikationen

Non-maximizing policies that fulfill multi-criterion aspirations in expectation
Algorithmic Decision Theory: 8th International Conference, ADT 2024, New Brunswick, NJ, USA, Octo...
Dima, Simon, Fischer, Simon, Heitzig, Jobst, Ol...
Resonant Solitary States in Complex Networks
New Journal of Physics
Niehues, Jakob, Yanchuk, Serhiy, Berner, Rico, ...
Community structure of tropics emerging from spatio-temporal variations in the Intertropical Conv...
Scientific Reports
Chopra, Gaurav, Unni, Vishnu R., Venkatesan, Pr...
Collaboration between artificial intelligence and Earth science communities for mutual benefit [C...
Nature Geoscience
Chen, Min, Qian, Zhen, Boers, Niklas, Creutzig,...
Optimized Adaptive Finite-Time Consensus Control for Stochastic Nonlinear Multiagent Systems With...
IEEE Transactions on Automation Science and Engineering
Wang, Xin, Guang, Weiwei, Huang, Tingwen, Kurth...
Sketching the spatial disparities in heatwave trends by changing atmospheric teleconnections in t...
Nature Communications
Cai, Fenying, Liu, Caihong, Gerten, Dieter, Yan...
Indication of long-range correlations governing city size
PNAS Nexus
Li, Yunfei, Ural, Deniz, Kantelhardt, Jan W., R...
Linkage Between European and East Asian Heatwaves on Synoptic Scales
Journal of Tropical Meteorology
Cai, Fenying, Liu, Cai-hong, Yang, Song, Deng, ...
Generic network sparsification via degree- and subgraph-based edge sampling
Information Sciences
Su, Zhen, Liu, Yang, Kurths, Jürgen, Meyerhenke...
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