APPLIES TO ACADEMIC YEAR 2014/2015
GRA 6754 Operations 2
Responsible for the course
Stein Erik Grønland
Department of Strategy and Logistics
According to study plan
Language of instruction
In this course, the students will learn key models and strategies for operations management and how to apply these.
Understand the interaction between batching and inventory.
Understand how various strategies can be used to better coordinate supply chains.
Understand how service time variability can impact a process.
Understand the basic trade offs in supply network design and supply chain planning.
Understand how the use of LP and MIP models can reduce suboptimisation in such systems.
Be able to estimate the impact of setups on capacity and calculate a theoretically optimal batch size in presence of setup times.
Be able to measure variability of a process and analyse an arrival prosess.
Be able to predict average waiting times for simple cases.
Be able to estimate throughput loss for a queue with one single resource.
Be able to estimate the effects of using risk pooling strategies.
Be able to construct and the most basic LP and MIP based models for supply network design and supply chain planning using a standard solver.
Be able to perform capacity analyses using models for supply network design and supply chain planning.
GRA 6753 Operations 1
Cachon, Gérard, Christian Terwiesch. 2012. Matching supply with demand : an introduction to operations management. 3rd ed. McGraw-Hill
Chopra, Sunil, Peter Meindl. 2013. Supply chain management : strategy, planning, and operation. 5th ed. Pearson
During the course there may be hand-outs and other material on additional topics relevant for the course and the examination.
Shapiro, Jeremy F. 2007. Modeling the supply chain. 2nd ed. Thomson
Variability and its Impact on Process Performance
The Impact of Variability on Process Performance
Risk Pooling Strategies
Revenue Management with Capacity Controls
Supply Chain Coordination
Mixed Integer Programming
Supply Network Design
Supply Chain Planning
Microsoft Excel, It's learning
Learning process and workload
A course of 6 ECTS credits corresponds to a workload of 160-180 hours.
There will be optional evalutions of test assignements.
Please note that while attendance is not compulsory in all courses, it is the student’s own responsibility to obtain any information provided in class that is not included on the course homepage/It's learning or text book.
A 5 hour written exam (individual) accounting for 100% of the final grade.
Specific information regarding student evaluation beyond the information given in the course description will be provided in class.
GRA 67541 written exam accounts for 100% of the final grade in GRA 6754.
Examination support materials
All support materials allowed.
Examination support materials at written examiniations are explained under examination information in the student portal @bi. Please note use of calculator and dictionary in the section on support materials.
It is only possible to retake an examination when the course is next taught.
The assessment in some courses is based on more than one exam code.
Where this is the case, you may retake only the assessed components of one of these exam codes.
Where this is not the case, all of the assessed components of the course must be retaken.
All retaken examinations will incur an additional fee.
Academic honesty and trust are important to all of us as individuals, and represent values that are encouraged and promoted by the honor code system. This is a most significant university tradition. Students are responsible for familiarizing themselves with the ideals of the honor code system, to which the faculty are also deeply committed.
Any violation of the honor code will be dealt with in accordance with BI’s procedures for cheating. These issues are a serious matter to everyone associated with the programs at BI and are at the heart of the honor code and academic integrity. If you have any questions about your responsibilities under the honor code, please ask.