Course details

Optimization Methods and Queuing Theory

DPC-TK1 FEKT DPC-TK1 Acad. year 2023/2024 Winter semester 4 credits

This study unit is made of two main parts. The first part deals with various currently used optimization methods. Students are first introduced to general Optimization theory. Then various forms of Mathematical Programming are dealt with. After the introduction into Linear and Integer Programming, the attention is given to Nonlinear Programming from its backgrounds like Convexity Theory and optimization conditions to overview and practical use of various optimization algorithms. A practically oriented introduction into Dynamic Programming with finite horizon follows. Students are also introduced into backgrounds of Stochastic Programming and Dynamic programming with infinite horizon, in particular to methods of solving Bellman's equations. The first part is closed by introduction to heuristic optimization algorithms.
The second part of the unit deals with the Queuing Theory. Various models of single queue systems and queuing networks are derived. The theory is then used by solving practical problems. Students are also introduced into simulation methods that are the only feasible solution method when a theoretical model is not available.

Guarantor

Language of instruction

Czech

Completion

Examination

Time span

  • 39 hrs seminar

Department

Instructor

Learning objectives

Developing awareness of various optimization methods from their mathematical background to their application in solving practical problems.
Developing awareness of mathematical models of Queuing Theory and their use in solving technical problems including simulation methods.

Obtaining the skills of studying, understanding, and applying mathematical models as specified in the unit contents. Ability to build mathematical programs solving particular optimization problems. Ability to use software packages that solve mathematical programs. In case of Queuing Theory it is understanding of the mathematical models and ability to apply them in practice.

Prerequisite knowledge and skills

Proficiency in mathematical disciplines at M.Eng. level

Study literature

  • Sklenář, J.: Dynamic Programming Theory and Applications. Teaching notes, University of Malta, 2017.
  • Popela, P.: Nonlinear Programming. Teaching notes, University of Malta, 2003.
  • Attard, N., Sklenář, J.: Linear Programming. Teaching notes, University of Malta, 2007.
  • Sklenář, J.: Introduction to Integer Linear Programming. Teaching notes, University of Malta, 2017.
  • Sklenář, J.: Infinite Horizon Dynamic Programming Models. Teaching notes, University of Malta, 2017.
  • Popela, P.: Stochastic Programming. Teaching notes, University of Malta, 2008.
  • Sklenář, J.: Queuing Theory - Worksheets. Teaching notes, University of Malta, 2016.
  • Sklenář, J.: Network Flow Models. Teaching notes, University of Malta, 2017.

Fundamental literature

  • Popela, P., Sklenář, J.: Optimization. Teaching notes, University of Malta, 2003.
  • Sklenář, J.: Queuing Theory. Teaching notes, University of Malta, 2016.

Progress assessment

examination

Schedule

DayTypeWeeksRoomStartEndCapacityLect.grpGroupsInfo
Wed exam 2024-01-03 T12/SC 7.66 10:0015:00 první řádný termín
Wed exam 2024-01-10 T12/SC 7.66 10:0015:00 druhý řádný termín
Wed exam 2024-01-17 T12/SC 7.66 11:0013:00 třetí řádný termín
Fri seminar lectures T12/SE 5.113 12:0014:5026 1DVI xx Sklenář

Course inclusion in study plans

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