Chairholder

© Hartmut Fricke

Hartmut Fricke has held the professorship for Aviation Technology and Logistics since 2001 and is the director of the Institute of Logistics and Aviation, which since 2018 also includes the professorship for Helicopter Technology as a joint appointment with DLR in Braunschweig, Institute of Systems Engineering. The intention of this expansion driven by Fricke is to extend the chair's research capabilities to Urban Air Mobility (UAM), which will be significantly characterized by rotorcraft drone operations. The chair's portfolio now covers all common aircraft configurations and operational spectrums. Hartmut Fricke and his team publish regularly at the leading international conferences in the field of Air Traffic Management, Digital Avionics as well as Operations Research and the relevant scientific journals. He has been a member of the Program Committee and European Doctoral Chair of the Europe / USA AIr Transport Research and Development (ATRD) Seminar. Since 2024 he has been Spokesperson of the DFG Research Trraining Group AIrMetro studying the urban integration of highly automated / unmanned aerial vehicles (UAV) in a dedicated team of 20+ PhD RTG students. 

Hartmut Fricke has been member of the Scientific Advisory Board to the German Federal Minister of Transport (BMV)  since 2006. Besides many other, significant contributions were also made to the standardization of drone flight operations as well as airport infrastructure in Germany in that function.

In 2019, Dr. Fricke was elected to the Federal Drone Advisory Board and the BMV Innovation Commission.

Since 2020, he has been DFG Liaison Officer of TU Dresden. 

Since 2022, Dr. Fricke has been the Aerospace Coordinator of the Free State of Saxony.

RESEARCH AREAS

• Support of ground processes at airports Airport Operations:
  Analysis of aircraft turnaround behavior under specific boundary conditions (hub / non-hub). Statistical modeling of process chains, design of A-CDM decision support systems, control and regulation of system disturbances by means of stochastic optimization and covolution.
• Evaluation procedures for the efficiency of airspace structures Airspace Management:
  Economic and anthropotechnical benchmark of airspace structures, specifically within the Single European Sky (SES) driven supranational Functional Airspace Block (FAB) context. Global performance analysis between Asia (China) and Europe using Machine Learning (NL) and Explainable Artificial Intelligence (EAI) methods.
• Safety assessment of flight procedures and taxiing movements Safety:

  Complex Agent based Modeling and Simulations (ABMS) are used to evaluate innovative approach/departure procedures in terms of aircraft conflict/collision probability. On approach, closely spaced multi-runway systems of large airports, alternative sequencing models for the approach sector, new staggering logics between aircraft with machine learning (ML) methods are focused. Emphasis on LiDAR sensor technology as a safety contribution for apron operations at small airfields with computer vision and machine learning (ML) technologies.

• Optimized planning and execution of flight trajectories Trajectory Management: 

  Flight performance analysis and modeling in the context of variable objective functions such as fuel minimization, noise reduction, environmental protection, on-time performance, speed. Development of the complex simulation tool TOMATO for multi-criteria trajectory optimization with special attention to weather. Traffic flow analyses. Optimized climb and descent (CCO/CDO) procedures using optimal control and linear optimization methods. 

• Certification of drone flight operations over urban and rural areas Urban Air Mobility:
  Design of takeoff/landing sites for electric VTOL under optimality criteria. Transfer and migration of procedural planning from approach/departure procedures of conventional commercial air traffic (ICAO PANS-OPS) to UAM. UAM inclusive traffic management in the context of  SESARs U-Space. 
• Validation and human-in-the-loop simulation technology Simulatoren:
  The chair continuously expands its testing and validation environments, especially the ATM real-time simulation laboratory consisting of air traffic controller, pseudo pilot workstations, Airbus A320 FMS flight simulator. Further development of special software in cooperation with EUROCONTROL Experimental Center is a permanent activity. Use of commercial software for airport planning (AviPlan) and procedure planning (AirTop) in cooperation with Transoft Solutions Aviation to teach our students in latest industial products for air transport infrastructure planning. 

LECTURES

• Aerodynamics and Flight Characteristics
• Airline Management
• Fundamentals of Aircraft Engines
• Communication - Surveillance
• Cockpit Technologies and Procedures
• Flight Performance
• Aeronautical Meteorology
• Flight Planning
• Airport Operations
• Air Traffic Control
• Air Transport Facilities, Operations and Air Traffic Control
• Air Transport Law and Policy
• Navigation
• Safety in Aviation
• Security
• Terminal Processes

• Procedure Design and Network Management

PUBLICATIONS

105 Entries

2016

• Ecological Impact of Air Traffic Control En-Route Charging Zones From Multi Criteria Optimized Flight PathsLindner, M., Förster, S., Rosenow, J. & Fricke, H., Oct 2016, Proceedings of Greener AviationResearch output: Contribution to book/conference proceedings/anthology/report > Conference contribution
• Potential of Integrated Aircraft Rotation and Flight Scheduling by Using Individual Tail Sign PerformanceLindner, M., Rosenow, J., Förster, S. & Fricke, H., Oct 2016, Proceedings of the 65th German Aerospace Congress (DLRK)Research output: Contribution to book/conference proceedings/anthology/report > Conference contribution
• Multi-Objective Trajectory Optimization: Modern Trajectory Optimization Affects More Criteria than Fuel-Burn and Time of FlightRosenow, J., Förster, S., Lindner, M. & Fricke, H., May 2016, In: Internationales Verkehrswesen. 68, 1, p. 40-43, 4 p.Research output: Contribution to journal > Research article
• EASA‑Zertifizierung von Flugplätzen – ein Safety Case: Flugbetriebliche Risiken durch unzureichend befestigte Start- und Landebahnstreifen.Schlosser, M. & Fricke, H., Jan 2016, In: Ingenieur-Spiegel : Fachmagazin für Ingenieure [Dunkelblaue Ausgabe] : Luftfahrt. 2016, 01, p. 73-75Research output: Contribution to journal > Research article

2015

• A Methodology to Assess the Safety of Aircraft Operations When Aerodrome Obstacle Standards Cannot Be MetFricke, H., Thiel, C. & Schlosser, M., 2015, In: Open Journal of Applied Sciences. 05, 02, p. 62-81, 20 p.Electronic (full-text) versionResearch output: Contribution to journal > Research article

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