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Event
Mathematical models and methods for Production Systems [WS222117059]
Organisation
- KIT-Fakultät für Maschinenbau
Part of
Literature
Ronald W. Wolff (1989) Stochastic Modeling and the Theory of Queues, Englewood Cliffs, NJ : Prentice-Hall.
John A. Buzacott, J. George Shanthikumar (1993) Stochastic Models of Manufacturing Systems, Upper Saddle River, NJ : Prentice Hall.
Appointments
- 27.10.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 03.11.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 10.11.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 17.11.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 24.11.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 01.12.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 08.12.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 15.12.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 22.12.2022 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 12.01.2023 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 19.01.2023 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 26.01.2023 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 02.02.2023 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 09.02.2023 09:45 - 13:00 - Room: 50.38 Raum 0.22
- 16.02.2023 09:45 - 13:00 - Room: 50.38 Raum 0.22
Note
Media:
black board, lecture notes, presentations
Learning Content:
- single server systems: M/M/1, M/G/1: priority rules, model of failures
- networks: open and closed approximations, exact solutions and approximations
- application to flexible manufacturing systems, AGV (automated guided vehicles) - systems
- modeling of control approaches like constant work in process (ConWIP) or kanban
- discrete-time modeling of queuing systems
Learning Goals:
Students are able to:
- Describe queueing systems with analytical solvable stochastic models,
- Derive approches for modeling and controlling material flow and production systems based on models of queueing theory,
- Use simulation and exakt methods.
Recommendations:
- Basic knowledge of statistic
- recommended compusory optional subject: Stochastics
- recommended lecture: Materials flow in logistic systems (also parallel)
Workload:
regular attendance: 42 hours
self-study: 198 hours