Title:

Optimization

Code:OPM
Ac.Year:2011/2012
Sem:Winter
Curriculums:
ProgrammeField/
Specialization
YearDuty
IT-MSC-2MBI-Elective
IT-MSC-2MBS-Elective
IT-MSC-2MMI-Elective
IT-MSC-2MMM-Compulsory-Elective - group M
IT-MSC-2MPV-Elective
IT-MSC-2MSK-Elective
Language of Instruction:Czech
Credits:4
Completion:credit+exam (written&oral)
Type of
instruction:
Hour/semLecturesSeminar
Exercises
Laboratory
Exercises
Computer
Exercises
Other
Hours:2600130
 ExamsTestsExercisesLaboratoriesOther
Points:6000040
Guarantor:Michálek Jaroslav, doc. RNDr., CSc. (UM OSO)
Lecturer:Popela Pavel, RNDr., Ph.D. (UM OSO)
Faculty:Faculty of Mechanical Engineering BUT
Department:Department of Mathematics, section of Statistics and Optimalization FME BUT
 
Learning objectives:
  The course objective is to emphasize optimization modelling together with solution methods. It involves problem analysis, model building, model description and transformation, and the choice of the algorithm. Introduced methods are based on the theory and illustrated by geometrical point of view.
Description:
  The course presents fundamental optimization models and methods for solving of technical problems. The principal ideas of mathematical programming are discussed: problem analysis, model building, solution search, and the interpretation of results. The course mainly deals with linear programming (polyhedral sets, simplex method, duality) and nonlinear programming (convex analysis, Karush-Kuhn-Tucker conditions, selected algorithms). Basic information about network flows and integer programming is included as well as further generalizations of studied mathematical programs.
Knowledge and skills required for the course:
  Fundamental knowledge of principal concepts of Calculus and Linear Algebra in the scope of the mathematical engineering curriculum is assumed.
Learning outcomes and competencies:
  The course is designed for mathematical engineers and it is useful for applied sciences students. Students will learn the theoretical background of fundamental topics in optimization (especially linear and non-linear programming). They will also made familiar with useful algorithms and interesting applications.
Study literature:
 
  • Klapka a kol.: Metody operačního výzkumu, Brno 2001 (in Czech).
  • Dvořák a kol.: Operační analýza, Brno, 1996 (in Czech).
  • Charamza a kol.: Modelovací systém GAMS, Praha 1994 (in Czech).
  • Dupačová et al.: Lineárne programovanie, Alfa, 1990 (in Slovak).
  • Bazaraa et al.: Linear Programming and Network Flows, Wiley 1990.
  • Bazaraa et al.: Nonlinear Programming, Wiley 1993.
Controlled instruction:
  The attendance at seminars is required as well as active participation. Passive or missing students are required to work out additional assignments.
Progress assessment:
  The attendance at seminars is required as well as active participation. Passive or missing students are required to work out additional assignments.
 

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