Virtual Engineering Lab

  • type: Projekt (PRO)
  • chair: KIT-Fakultäten - KIT-Fakultät für Maschinenbau - Institut für Informationsmanagement im Ingenieurwesen
    KIT-Fakultäten - KIT-Fakultät für Maschinenbau
  • semester: SS 2024
  • time: Tue 2024-04-16
    14:00 - 16:15, weekly


    Tue 2024-04-23
    14:00 - 16:15, weekly

    Tue 2024-04-30
    14:00 - 16:15, weekly

    Tue 2024-05-07
    14:00 - 16:15, weekly

    Tue 2024-05-14
    14:00 - 16:15, weekly

    Tue 2024-05-28
    14:00 - 16:15, weekly

    Tue 2024-06-04
    14:00 - 16:15, weekly

    Tue 2024-06-11
    14:00 - 16:15, weekly

    Tue 2024-06-18
    14:00 - 16:15, weekly

    Tue 2024-06-25
    14:00 - 16:15, weekly

    Tue 2024-07-02
    14:00 - 16:15, weekly

    Tue 2024-07-09
    14:00 - 16:15, weekly

    Tue 2024-07-16
    14:00 - 16:15, weekly

    Tue 2024-07-23
    14:00 - 16:15, weekly


  • start: 22.10.2024
  • lecturer: Dr.-Ing. Polina Häfner
    Prof. Dr.-Ing. Jivka Ovtcharova
  • lecture assistant:

    Felix Michels

  • sws: 3
  • ects: 4
  • lv-no.: 2123350
  • exam: 11.02.2025
  • information: On-Site
Content
  • Introduction in Virtual Reality (hardware, software, applications)
  • Exercises in the task specific software systems
  • Autonomous project work in the area of Virtual Reality in small groups
Language of instructionGerman/English
Bibliography

Keine / None

Organisational issues

Siehe Webseite zur Lehrveranstaltung / see web page of the lecture

News

Dear interested students of the Virtual Reality and Virtual Engineering Practical Course,

the practical course will take place in winter semester 2024/2025.

To register, please fill out the questionnaires in ILIAS by October 18, 2024, to let us know which project you prefer to work on. If you do not want to or cannot take part in the practical course, please let us know by mail.

To the ILIAS course for both practical courses

If you have any questions about registration, please email polina haefner∂kit edu.

The Virtual Engineering practical course is only offered to Master's students and the Virtual Reality practical course is only offered to Bachelor's students. Please consult your module handbooks. Students in both courses will work together on the projects.

Location: Seminar room on the 3rd floor at Kriegsstr. 77, 76133 Karlsruhe

The first event will be held on October 22 at 2pm in presence. Further information will be published in the ILIAS course.

Official language of the lecture: English

Content

Goals of the Virtual Reality Practical Course

Overall objective: After the practical course, students will be able to operate and use the existing hardware and software for Virtual Reality (VR) applications in order to:

  • design the solution of a complex task in a team
  • solve the subtasks within a specific work package in smaller groups, taking the interfaces into account
  • to develop a complete end product

Intended competencies: Methodical approach with practical engineering tasks, ability to work in a team, work in interdisciplinary groups, time management.

Course: The Virtual Reality practical course consists of the following partially overlapping phases:

  • Basics: Introduction to VR (hardware, software, applications)
  • Tools: Introduction to the development environment
  • Applications: different according to current research topic (see videos below)

The module examination is a different kind of success control and consists of:

  • Presentation of the project work (40%)
  • Individual project portfolio for the work in the 3rd phase (30%)
  • Independent work on a topic in the field of Virtual Reality (20%)
  • Social skills (10%)

Students can also use the labs for independent work (research, follow-up, development) outside of the courses by prior arrangement.

Past practical courses

Previous successes and results from the Virtual Reality Practical Course can be viewed on our YouTube Channel:

  • In the summer semester 2018, the VR Space project was continued. Furthermore, a VR image of the game factorio was developed as well as an application for Holobench.
  • In WS2017/18, students worked on the VR Space, Driving Simulator - Vibration Feedback, Flexible Workspaces and Data Glove projects.
  • Numerous projects were carried out in the summer semester 2017. The Smart Living 2051 project continued, a Virtual Museum, a replica of our solar system, and a Data Glove for interaction in the CAVE were developed.
  • During the winter semester 2016/2017, the projects "SmartLiving 2050" and "MR Driving Accumulator" were carried out.
  • In the summer semester of 2016, students from a wide range of disciplines (computer science, mechanical engineering, industrial engineering) participated in the projects "Cave Keeper", "Driving simulator - acoustics" and "Active chassis for a driving simulator".
  • In winter semester 2015/2016 three projects Virtual Twin of a Milling Machine, FoSi Forklift Simulator, Modeling of processes in VR with gesture control were realized.
  • Results SS 2015: Virtual Factory, Entwickling Sensors for 3D mobile Powerwall & Development of an autonomous robot capable of reconstructing interior spaces.
  • Results WS 2014/15: Energy Efficiency game & time machine game with haptic interface.
  • Publication with students "Interactive Visualization of Energy Efficiency Concepts in Virtual Reality", EuroVR 2014 conference in Bremen.
  • Cooperation with IPG Automotive GmbH for joint work on research topics in the context of the virtual reality internship
  • Cooperation with students of the Kinder-und Jugend-Uni Bretten in WS 2013/14 more...
  • The publication about the teaching methodology of the VR internship has won the Best Paper Award at the conference VARE 2013 more...
  • News about first semester "Energy Experience Lab" (WS 2012/13) more...
  • Second Foundation Award "Knowledge+Competences" 2013.
  • Video about the first version of the VR driving simulation (SS 2010, WS 2010/12, SS 2011)
  • MINT-Box project based on results of the VR practical course and further development of the project (see second part of the video)
  • Publication of the students from SS 2013 "Integration of a real vehicle into a mixed reality driving simulation" more...