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Module code: FTM-SEMS |
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3 |
Semester: 2 |
Mandatory course: no |
Language of instruction:
German |
Assessment:
Oral exam
[updated 30.10.2023]
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FTM-SEMS (P242-0125) Automotive Engineering, Master, ASPO 01.04.2021
, semester 2, optional course
FTM-SEMS (P242-0125) Automotive Engineering, Master, ASPO 01.04.2023
, semester 2, optional course
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The total student study time for this course is 90 hours.
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Recommended prerequisites (modules):
None.
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Recommended as prerequisite for:
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Module coordinator:
Prof. Dr.-Ing. Rüdiger Tiemann |
Lecturer: M.Eng. Julian Riedel
[updated 28.06.2023]
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Learning outcomes:
Excursus: After successfully completing this module, students will be familiar with trends in the on-board network architecture of modern vehicles and their requirements, resulting from the architecture itself and future mobility concepts. Part 1: Systems Engineering - Students will understand the interdisciplinary approach to develop and implement complex, technical systems in large projects - By understanding the importance of traceability, traceability and coordination, students will be able to solve problems using systems engineering approaches - Students will be able to to derive and formulate requirements at various levels in order to reflect these requirements in the development process Part 2: Modern Simulation Methodologies - Students will be able to apply methodologies for development and validation with the help of (co-)simulations - By becoming familiar with two tools prominent in the automotive industry (IPG CarMaker and Typhoon HIL) and using their knowledge of requirements for simulations, students will be able to formulate goals, as well as methodologies for implementation and ultimately realize a co-simulation
[updated 30.10.2023]
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Module content:
Excursus: Requirements for modern onboard networks and the shift towards zone control units in the context of “Software Defined Vehicles” Part 1: Systems Engineering (SE) - Repetition: V-model + Introduction Z-model - Coupling the V-model to development levels with requirements - Examples for the implementation of traceability - Introduction to system architecture and modeling (SysML) - Examples for the development of a vehicle feature Part 2: Modern Simulation Methodologies - Importance and requirements of co-simulations based on a practical example - Methodologies and implementation for the creation of co-simulation - Requirements for real-time simulations - IPG CarMaker and Typhoon HIL as a software package for the simulation of a complete battery electric vehicle
[updated 30.10.2023]
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Recommended or required reading:
[updated 30.10.2023]
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