Course Description
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Course Name
Operations Research II
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Host University
Universidad del Norte
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Location
Barranquilla, Colombia
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Area of Study
Engineering Science and Math, Industrial Engineering, Mathematics
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Language Level
Taught In English
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Credits
3 -
Recommended U.S. Semester Credits3
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Recommended U.S. Quarter Units0
Hours & Credits
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Overview
Description of Operations Research II
Operations Research is an applied area that implies the construction of mathematical models, which represent the most important characteristics of a situation that requires an effective use of the resources available in a Decision Making process.
Mathematical models are formulated and applied in order to study the Decision Making processes in the probabilistic field, by using intelligent competition models (Game Theory), through Markov Chains, Queuing models and Inventory models.Course Learning Outcomes
1. Use the adequate techniques in the efficient allocation of resources, as a support of the decision making process in an unpredictable systems environment, conformed by random variables.
2. Learn the structure of a payoff matrix in a game under competition, where the best decision is taken among the combination of resources in a strategic and tactical form.
3. Recognize and describe a system through Markov Chains, describe a Markov Chain through the construction of transition matrices or through state diagrams and calculate a Markovian system, the probabilities of a steady state, even if it is absorbing, in the chain that represents the system.
4. Know the different structures of queuing models, identify and analyze the elements associated to the costs of the queuing system, using the models to calculate the optimal quantity of the service center.
5. Study quantitatively and integrally the administration of inventory.
6. Apply the mathematic models in the study of inventory systems, from the following points of view: economic quantity of the order and sensitivity analysis.Topics covered
1. Decision making under uncertainty conditions.
2. Decision making under risk conditions.
3. Game theory.
4. Stochastic processes, markovian systems.
5 Queuing systems models.
6. Inventory models.
Course Disclaimer
Courses and course hours of instruction are subject to change.
Eligibility for courses may be subject to a placement exam and/or pre-requisites.
Availability of courses is based on enrollment numbers. All students should seek pre-approval for alternate courses in the event of last minute class cancellations
Please note that some courses with locals have recommended prerequisite courses. It is the student's responsibility to consult any recommended prerequisites prior to enrolling in their course.