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Lecturer
Dates & Places
- Tuesday 16.30-18.30 HS 7
- Thursday 16.30-18.30 Se 2
- Exams
- Mid-term: Thursday April 30 2009, 16.30-18.00 HS2
- Final exam: Tuesday June 16 2009, 16.30-18.30 HS7
Study Programs
- Mag.
internationale
Betriebswirtschaft
- KFK Logistikmanagement, KFK
Produktionsmanagement
- KFK Production Management, KFK Transportation Logistics, KFK Supply Chain Management
- Mag.
Betriebswirtschaft
- KFK Logistikmanagement, KFK
Produktionsmanagement
- KFK Production Management, KFK Transportation Logistics, KFK Supply Chain Management
- Mag. Wirtschaftsinformatik
- KFK Produktionsmanagement
Course Content
- Topics Covered
- This course deals with tactical problems of production and logistics, namely layout and design.
Main topics are:
- configuration problems in job shop production (Werkstattproduktion)
linear assignment problems
qudratic assignment problems
- configuration problems in cellular manufacturing systems (Inselproduktion)
- configuration problems in flow shop production (Fließfertigung)
- simple assembly line balancing problems
mixed model assembly
- configuration of warehouses
- configuration and analysis of flexible manufacturing systems
- Methods used
- the following methods will be presented in the various application areas
- specialized exact methods (e.g. Kuhn's algorithm)
- generic exact methods Branch and bound
- mathematical programming formulation (LP, IP, MIP, ...) for use in standard solvers
- dedicated starting heuristics
- improvement heuristics, local search
- metaheuristics
Requirements
- mid term exam (40%)
- final exam (40%)
- participation in class (20%, presentation of numerical examples, etc.)
Prerequisites
- Prerequisite:
appropriate Bachelor degree (with basic knowledge of production and
operations management, e.g. "ABWL Produktion & Logistik")
- It is suggested that you take this course only after having taken one of the courses „Operations
Management“ (old "Studienplan") or "Transportation Logistics
(TL)", "Production Analysis", or "Supply Chain Management"
(new "Studienplan")
Basic Literature
-
nAskin, R.G., Standridge, C.R.: Modeling & Analysis Of Manufacturing Systems, John Wiley & Sons, 1993
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Nahmias, S.: Production and Operations Analysis, 4th ed., McGraw-Hill, 2000
- Günther, H.-O., Tempelmeier, H.: Produktion und Logistik, Springer, 2005
- Nahmias, S.: Production and Operations Analysis, 4th ed., McGraw-Hill, 2000
- Zäpfel, G., Taktisches Produktionsmanagement, Gruyter, 1989
- Heizer, J., Render, B., Operations Management, Prentice Hall, 2006
- Domschke, W., Scholl, A., Voß, S., Produktionsplanung, Springer, 2005
- Francis, R., McGinnis, L., White, J., Facility Layout and Location: An Analytical Approach, Prentice Hall, 1992
Downloads
- Lecture notes
- Lecture Script Part I job shops >> pdf
- Lecture Script Part I extended (incl. CRAFT) >> pdf
- Example problem for method CRAFT >> XLS
- Lecture Script Part II cellular manufacturing >> pdf
- Assembly line balancing - part 1 -> see slides
- Exact methods for Assembly line balancing 1 >>doc
- Exact methods for Assembly line balancing 2 >>doc
- Slides
- Administrative Details / KFK >> PPT
- Configuration of job shop
- Cellular manufacturing
- Flow shop
- Exercises
- Exercises Part 1 (job shop) >> pdf
- Exercise Part 2 (craft) >> pdf
- Exercise Part 3 (cellular) >> pdf
- Exercises Part 4 >>pdf
- Exercises Part 5 >>pdf
- Exercises Part 6 (B&B): B&B for the car assembly problem that you find here: example 2.1 >> pdf. In
a first step you should order all jobs due the the presented rules to
find an initial solution for the depth search. Then apply
the fathoming rules to explore the branching tree.
- Paper for "Würfelteil"
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