Stud.IP Uni Oldenburg
University of Oldenburg
30.09.2022 17:20:38
inf331 - Automated and Connected Driving
Department of Computing Science 6 KP
Module components Semester courses Wintersemester 2022/2023 Examination
Lecture
  • Limited access 2.01.331 - Intelligent and Connected Transportation Show lecturers
    • Prof. Dr. Frank Köster
    • Gerald Sauter
    • Dr.-Ing. Nils Müllner

    Dates on Thursday. 20.10.22 - Friday. 21.10.22, Thursday. 17.11.22 - Friday. 18.11.22 10:15 - 15:45, Friday. 02.12.22 13:15 - 15:45, Thursday. 12.01.23 - Friday. 13.01.23, Wednesday. 22.02.23 - Friday. 24.02.23 10:15 - 15:45
Exercises
  • Limited access 2.01.331 - Intelligent and Connected Transportation Show lecturers
    • Prof. Dr. Frank Köster
    • Gerald Sauter
    • Dr.-Ing. Nils Müllner

    Dates on Thursday. 20.10.22 - Friday. 21.10.22, Thursday. 17.11.22 - Friday. 18.11.22 10:15 - 15:45, Friday. 02.12.22 13:15 - 15:45, Thursday. 12.01.23 - Friday. 13.01.23, Wednesday. 22.02.23 - Friday. 24.02.23 10:15 - 15:45
Hinweise zum Modul
Prüfungszeiten
At the end of the lecture period
Module examination
Praktical work and oral exam
Skills to be acquired in this module
This module introduces the principles of automated driving.

**Professional competences:**
The stud The students:
  • Discuss different levels of automated driving (eg. SAE-Level) and the differences
  • Discuss different levels of connected driving and the differences
  • Discuss core-domains of automated vehicles
  • Discuss important technological pillars in the areas sense, plan, and act
  • Discuss transition between different levels of automation
  • Discuss the impact of connected vehicle functions on automated driving
  • Discuss the impact of automated vehicle functions on connected driving
  • Characterise the impact of automated and connected driving on road traffic
  • Characterise the interaction of humans and automated and connected vehicles
  • Design an abstract procedure for the change of different levels of automation
  • Design a rough vehicle architecture for automated and connected drivingents:
**Methodological competences:**

The students:
  • Analyze complex automated and connected vehicles (-> domains)
  • Analyze core-functions of automated and connected vehicles (-> functions)

 **Social competences: **

The students:
  •  Work in teams - Discuss their outcomes appropriately

**Self-competences:**

The students:
  •  Acknowledge the limits of their ability to cope with pressure during the analysis of complex (automated and connected) socio-technical systems

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