Digital Teaching
The course takes place in person. Further information will be given in the first lecture.
By registering for the lecture in TUCaN you should automatically be enrolled in the Moodle course. Otherwise, please contact the responsible supervisor of the course, who can be found on the [url=https://www.fsr.tu-darmstadt.de/studiumundlehre_1/lehrveranstaltungen_3/sichere_avioniksysteme/index.en.jsp]FSR website[/url].
Course Contents
Using the example of aircraft avionics systems, the complex interaction between technical systems, operational procedures and human factors is conveyed. The module consists of weekly lectures and a block course in the flight simulator of the institute FSR conducted by a experienced captain.
Subjects: operational requirements for flight guidance systems, structure of flight guidance systems, architectures and design of safe systems, pilot assistance systems in the cockpit, human factors.
Literature
C.C. Rodriges, S.K. Cusick: Commercial Aviation Safety, McGraw Hill 2011
Messerschmidt, Bölkow, Blohm (Hrsg.): Technische Zuverlässigkeit, Springer Verlag
A. Meyna, G. Pauli: Zuverlässigkeitstechnik: Quantitative Bewertungsverfahren, Hanser 2. Auflage 2010
Preconditions
None
Recommended: Flight Mechanics I, Basics of Navigation I, Systemic Evaluation of Air Transportation, Reliability of mechanical engineering systems
The course takes place in person. Further information will be given in the first lecture.
By registering for the lecture in TUCaN you should automatically be enrolled in the Moodle course. Otherwise, please contact the responsible supervisor of the course, who can be found on the [url=https://www.fsr.tu-darmstadt.de/studiumundlehre_1/lehrveranstaltungen_3/sichere_avioniksysteme/index.en.jsp]FSR website[/url].
Course Contents
Using the example of aircraft avionics systems, the complex interaction between technical systems, operational procedures and human factors is conveyed. The module consists of weekly lectures and a block course in the flight simulator of the institute FSR conducted by a experienced captain.
Subjects: operational requirements for flight guidance systems, structure of flight guidance systems, architectures and design of safe systems, pilot assistance systems in the cockpit, human factors.
Literature
C.C. Rodriges, S.K. Cusick: Commercial Aviation Safety, McGraw Hill 2011
Messerschmidt, Bölkow, Blohm (Hrsg.): Technische Zuverlässigkeit, Springer Verlag
A. Meyna, G. Pauli: Zuverlässigkeitstechnik: Quantitative Bewertungsverfahren, Hanser 2. Auflage 2010
Preconditions
None
Recommended: Flight Mechanics I, Basics of Navigation I, Systemic Evaluation of Air Transportation, Reliability of mechanical engineering systems
- Lehrende: Uwe Klingauf
Semester: Verão 2024