Browsing by browse.metadata.outype "tuhhinstitute"

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  • Institution
  • Institution
    Autonomous Cyber Physical Systems E-24
    The Institute for Autonomous Cyber-Physical Systems (ACPS) is part of the School of Electrical Engineering, Computer Science, and Mathematics at the Hamburg University of Technology. The institute was founded in 2022 and is headed by Professor Dr.-Ing. Bernd-Christian Renner. Our research embraces two core fields: Firstly, we investigate novel methods and protocols for low- and zero-power wireless communication and energy management for regeneratively powered devices in the domain of cyber-physical systems (CPSs) with a special focus on smart infrastructure. Secondly, we carry out research in underwater communication, localization and navigation for swarms of micro autonomous underwater vehicles (uAUVs) for monitoring and inspection of underwater habitats and infrastructure (such as ports, off-shore wind parks, etc.). Our research has been primarly funded by DFG, BMBF, BMWK, and the Free and Hanseatic City of Hamburg. The institute is also involved in teaching at both undergraduate and graduate level. Our teaching ranges from fundamental courses on programming to special focus courses on cyber-physical systems, networked embedded systems, and deeply embedded programming.
    Director:
    Renner, Bernd-Christian  
    Type: TUHH Institute
  • Institution
    Materials, Physics and Chemistry of Buildings B-3
    The institute, a scientific unit of the University of Technology Hamburg, provides research and teaching, especially in the fields of building materials, physics and chemistry of buildings and building construction. In addition the institute provides services for customers, in particular material testing. Furthermore the institute participates in the formation of standards and guidelines in its fields of research and teaching. The research interests of the institute can be described as: Corrosion and durability of materials and structures, special and high performance materials, test methods for materials and components, connections between composition, structure and properties of the unprocessed materials, during processing and as hardened building materials, as well as energy saving, construction and environment.
    Director:
    Schmidt-Döhl, Frank  orcid-logo
    Type: TUHH Institute
  • Institution
    Biomedical Imaging E-5
    Director:
    Knopp, Tobias  
    Type: TUHH Institute
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  • Institution
    Data Science Foundations E-21
    The Institute for Data Science Foundations has been founded in April 2021, as a central component of the growth strategy of the Hamburg University of Technology. It is part of the Hamburg Innovation Port (HIP), a technology and innovation site located at the port of Hamburg-Harburg. The institutes’s research and teaching activities are concerned with fundamental methods for automated and data-based knowledge extraction. The institute pursues a holistic approach in which central aspects of intelligent systems are researched in a unified manner. In particular, concepts and methods from machine learning, learning in deep neural networks, reinforcement learning, and embodied intelligence are integrated. Mathematical theory development plays a central role here and is supported and guided by experimental work in a robotics lab. Of particular interest is the data-driven extraction of causal, as opposed to merely associational, knowledge. Decision making, action, and behaviour rely on this kind of knowledge and the coherent coupling of its various representational levels, ranging from the sub-symbolic to the symbolic level of representation. Methodologically, the institute has a strong focus on information theory and geometry, both integrated within the field of information geometry.
    Director:
    Ay, Nihat  
    Type: TUHH Institute
  • Institution
    Electrical Power and Energy Technology E-6
    Das ieet existiert seit 2015 und vertritt den Themenschwerpunkt der elektrischen Energiesystemtechnik an der Technischen Universität Hamburg in Forschung und Lehre. Die Zielsetzung dabei ist ein optimales systemtechnisches Zusammenwirken von Komponenten und Technologien zur Erzeugung, Übertragung, Speicherung, Verteilung und zum Verbrauch von elektrischer Energie. Im Fokus stehen elektrische Energienetze terrestrischer sowie bordsystemgebundener Energiesysteme für eine moderne, zukunftssichere, umweltverträgliche und wirtschaftliche elektrische Energieversorgung. Die Kompetenzen des Instituts liegen im Bereich der Modellierung, Optimierung und Betriebsführung von elektrischen Energienetzen und erstrecken sich hierbei besonders auch auf die Anwendung benachbarter Disziplinen wie Informations- und Kommunikationstechnik (IKT), Regelungs- und Automatisierungstechnik sowie Methoden der Künstlichen Intelligenz (KI). Neben industriellen Erfahrungen in Forschung und Entwicklung energietechnischer Bordsysteme in der Luftfahrt bilden die Dynamik, Stabilität und Regelung elektrischer Energiesysteme einen besonderen Kompetenzschwerpunkt. Im Vordergrund stehen Systeme mit leistungselektronisch gekoppelten Komponenten und zunehmend sektorengekoppelte Systeme mit mehreren Energieträgern.
    Director:
    Becker, Christian  orcid-logo
    Type: TUHH Institute
  • Institution
    Energy Systems M-5 (H)
    The institute was closed on 1.9.2023. The research areas of the Institute of Power Engineering included: • Investigations of the Thermodynamic Cycles of Steam generating Units and Combined Cycle Plants • Operational Behaviour of Steam Turbines • Investigations of Power Station Components • Optimization of existing Power Plants • Flexility Enhancement of Electricity Generation • Biomass Combustion • Combined Power, Heating and Cooling Technology for Industrial Plant and Thermal Power Stations • Flexible Operation of Fossil Fuel Plants • Sectoral Coupling and integration of Energy Networks These research activities were financed by the German Federal Government and other public bodies as well as Industry.
    Type: Former TUHH Organizational Unit
  • Institution
    Aircraft Cabin Systems M-25
    Director:
    God, Ralf  orcid-logo
    Type: TUHH Institute
  • Institution
    Aircraft Systems Engineering M-7
    Die Flugzeuge von morgen benötigen innovative Systemlösungen, um unter den herausfordernen Bedingungen wirtschaftlich und umweltverträglich betrieben werden zu können. Unsere Forschungsarbeiten focussieren entsprechend auf mechatronische Flugzeugsysteme wie sie für das zukünftige "More-Electric-Aircraft" und die Transformation zum elektrifizierten "Grünen Flugzeug" benötigt werden. Bereits seit unserer Gründung 1992 sind wir geprägt durch unsere Beiträge im Vorfeld der industrielle Produktentwicklung. Das Technologiezentrum Hamburg-Finkenwerder bietet aufgrund der unmittelbaren Nähe zum AIRBUS-Standort eine optimale Ausgangsbasis für die Zusammenarbeit mit allen Bereichen der Luftfahrtindustrie, Forschungseinrichtungen und Behörden. Zudem können wir auf eine moderne und umfangreiche Versuchstechnik zurückgreifen und so Systemkonzepte und Komponenten experimentell erproben, Simulationsmodelle und deren Parameter validieren und neue Technologien bewerten. Eine Schlüsselrolle spielen zudem die durchgehenden Modell-basierten Entwicklungsmethoden und deren Digitalisierung. Das Institut für Flugzeug-Systemtechnik bietet für Studenten den Master-Studiengang LFTMS an.
    Director:
    Thielecke, Frank  
    Type: TUHH Institute
  • Institution
    Geo-Hydroinformatics B-9
    The Institute of Geo-Hydroinformatics has been established in summer 2020. Our research is dedicated to tackling global challenges concerning water, soil, and the environment. We are passionate about creating new knowledge through research and innovation, especially in the development of innovative measurement tools and predictive capabilities that harness the strengths of sensing technologies and big data analytics. We aim to provide accurate and quantitative insights into multiscale and multiphase ecohydrological processes occurring near the Earth's surface. We integrate theoretical frameworks with state-of-the-art modeling and experimental techniques, leveraging cutting-edge tools such as artificial intelligence, computational fluid dynamics, environmental sensing technologies, thermal imaging, satellite remote sensing, big data, analytics and informatics to offer new insights and perspectives on the complex interactions between soil, water, and the atmosphere. Our current research projects includes: 1. Evaporation from agricultural water reservoirs in a warming climate: A global perspective 2. Groundwater-climate interactions and feedback loops 3. Prediction of extreme land surface temperatures 4. AI-driven modeling of soil degradation in the face of climate and anthropogenic pressures 5. Anthropogenic and climate impacts on endorheic lake storage changes 6. Impacts of microplastics on soil properties and processes 7. Soil salinization on a global scale 8. Soil water evaporation dynamics 9. Solute transport in porous media 10. Climate Informed Engineering 11. Global Extent of Land Subsidence in a Changing Climate
    Director:
    Shokri, Nima  
    Type: TUHH Institute
  • Institution
    High Frequency Technology E-3
    Gemeinsam mit unseren Projektpartnern forschen wir an innovativen Themen wie der berührungslosen Messung von Vitalparametern mittels Radar in medizinischen und veterinärmedizinischen Anwendungen, aber auch in industriellen Einsatzbereichen. Weitere Projekte befassen sich mit Ultra-Low-Power-Kommunikationsnetzwerken, Permittivitätsmessungen sowie Forschung im Bereich des Quantencomputings. Eine Besonderheit unseres Instituts ist, dass wir sowohl theoretisch als auch experimentell arbeiten. Dabei setzen wir moderne Simulationstechniken, Fertigungsverfahren, Präzisionsmesstechnik sowie Signalverarbeitung und maschinelles Lernen zur Auswertung der Ergebnisse ein. Durch unsere institutseigene Leiterplattenfertigung, Feinmechanikwerkstatt und verschiedene 3D-Drucker können theoretische Konzepte auch zeitnah umgesetzt und anschließend in unserer Antennenmesskammer oder auf der Linear Stage getestet werden. Sprechen Sie uns gerne persönlich an, um mehr über unsere Arbeit zu erfahren.
    Director:
    Kölpin, Alexander  orcid-logo
    Type: TUHH Institute
  • Institution
    Humanities B-6 (H)
    Das Institut Humanities wurde im Sommer 2000 an der TUHH eingerichtet und wird seitdem von Prof. Dr. Margarete Jarchow geleitet. Das Curriculum setzt Naturwissenschaften und Technologie in einen politisch-historischen und kulturellen Kontext. Gleichzeitig stärkt es die soziale, ethische und kulturelle Kompetenz der Studierenden und fördert ihre schriftliche und mündliche Kommunikationsfähigkeit. In der Forschung liegen die Schwerpunkte auf der Betrachtung und Analyse der Schnittstellen von Kultur und Technik.
    Director:
    Jarchow, Margarete  
    Type: Former TUHH Organizational Unit
  • Institution
    Industrialization of Smart Materials M-27
    The Institute for Industrialization of Smart Materials (ISM) is engaged in research and development of "smart" materials and their transfer into industrial products. Such materials are used in particular for adaptive, self-regulating system components, which can be realized, among other things, with the help of additive manufacturing (AM). The director of the institute, Professor Kelbassa, is also the director of the Fraunhofer Institute for Additive Manufacturing Technologies IAPT in Hamburg-Bergedorf. Further research focuses include, for example, function and sensor integration with the aid of AM.
    Director:
    Kelbassa, Ingomar  
    Type: TUHH Institute
  • Institution
    Integrated Circuits E-9
    Director:
    Li, Qiang  
    Type: TUHH Institute
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    Laser and System Technologies T-2 (H)
    The Institute of Laser and System Technologies is specialized in the fields of: - Education of engineers and vocational school teachers in product development, laser and systems engineering - Development of laser based production technology - Quality assurance of laser based processes and systems - Consulting and training for industrial customers
    Type: Former TUHH Organizational Unit
  • Institution
  • Institution
    Materials and X-Ray Physics M-2
    The institute was newly founded in 2020. Previous publications and projects can be found in Institute of Materials Physics and Technology M-22. Our research group at Technische Universität Hamburg TUHH and the Deutsches Elektronen-Synchrotron DESY engages in fundamental experimental research in condensed-matter physics and on novel functional materials. We explore experimentally the multiscale interplay of structure, dynamics and function of matter. We profit from the vivid and inspiring Natural and Materials Science environment of the Hamburg metropolitan area, encompassing Hamburg University (UHH), the Helmholtz-Zentrum Geesthacht for Coastal and Materials Research (HZG), and the European X-Ray Free Electron Laser (XFEL). We are a member of the Center for Intergrated Multiscale Materials Systems CIMMS, the Centre for Advanced Materials (ZHM Hamburg) and of the Collaborative Research Initiative SFB 986 “Tailor-Made Multi-Scale Materials Systems M³”. Our research projects focus on how condensed matter behaves in extreme spatial confinement, most prominently in nanoporous media, and on how to employ this fundamental knowledge for the design of advanced materials.
    Director:
    Huber, Patrick  orcid-logo
    Type: TUHH Institute