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Digitalization Lab. (BA_WING_5_5)
Department
- Bachelor's program Industrial Engineering & Management
Course unit code
- BA_WING_5_5
Level of course unit
- Bachelor
Year of study
- Fall 2024
Semester when the course unit is delivered
- 5
Number of ECTS credits allocated
- 1.0
Name of lecturer(s)
- Lechner Armin, BSc MSc MBA
Learning outcomes of the course unit
- Students can implement basic principles of the digital factory by:
- learning the use and handling of collaborative robots
- Carry out a practical economic performance simulation
- Get to know methods for data networking
Mode of delivery
- face-to-face
Recommended optional program components
- none
Course contents
- Answering of problems of the industrial engineer about the integration of digitalization and automation measures. Via
- Application-related data collection, analysis and solution integration for automation environments.
- Laboratory exercise with collaborating robot systems and data collection for the conceptual implementation of the concept of the digital factory
Recommended or required reading
- - R. Miller and M. Miller, Robots and Robotics: Principles, Systems, and Industrial Applications. McGraw-Hill Education, 2017.
- Z. Luo, Robotics, Automation, and Control in Industrial and Service Settings, ser. Advances in Civil and Industrial Engineering (2326-6139). IGI Global, 2015.
- M. Wilson, Implementation of Robot Systems: An introduction to robotics, automation, and successful systems integration in manufacturing. Elsevier Science, 2014.
- L. Ross, S. Fardo, and M. Walach, Industrial Robotics Fundamentals: Theory and Applications, ser. Robotics theory and industrial applications. Goodheart-Willcox Company, Incorporated, 2017.
- S. Deb, Robotics Technology and Flexible Automation. Tata McGraw-Hill Education.
- Robotics Technology and Flexible Automation. McGraw-Hill Education (India) Pvt Limited, 2010.
- H. Colestock, Industrial Robotics: Selection, Design, and Maintenance, ser. Tab robotics. McGraw-Hill, 2005.
- P. J. McKerrow and P. McKerrow, Introduction to robotics. Addison Wesley Sydney, 1991.
- B. Siciliano and O. Khatib, Springer Handbook of Robotics, ser. Springer Handbook of Robotics. Springer Berlin Heidelberg, 2008.
- T. Bajd, M. Mihelj, J. Lenar_ci_c, A. Stanovnik, and M. Munih, Robotics, ser. Intelligent Systems, Control and Automation: Science and Engineering. Springer Netherlands, 2010.
- Gupta and S. Arora, Industrial Automation and Robotics. University Science Press, 2009.
- Ronzhin, G. Rigoll, and R. Meshcheryakov, Interactive Collaborative Robotics: Second International Conference, ICR 2017, Hat_eld, UK, September 12-16, 2017, Proceedings, ser. Lecture Notes in Computer Sci-ence. Springer International Publishing, 2017.
- T. Kurfess, Robotics and Automation Handbook. CRC Press, 2018.
- K. Kumar, D. Zindani, and J. Davim, Digital Manufacturing and Assembly Systems in Industry 4.0, ser. Science, Technology, and Management. CRC Press, 2019.
- P. Corke, Robotics, Vision and Control: Fundamental Algorithms in MATLAB, ser. Springer Tracts in Advanced Robotics. Springer Berlin Heidelberg, 2011.
Planned learning activities and teaching methods
- The course comprises an interactive mix of lectures, discussions and individual and group work.
Assessment methods and criteria
- Project
Language of instruction
- English
Work placement(s)
- none