Applied Systems Analysis

5 credits

Syllabus, Bachelor's level, 1RT242

A revised version of the syllabus is available.
Code
1RT242
Education cycle
First cycle
Main field(s) of study and in-depth level
Sociotechnical Systems G2F, Technology G2F
Grading system
Pass with distinction, Pass with credit, Pass, Fail
Finalised by
The Faculty Board of Science and Technology, 25 April 2012
Responsible department
Department of Information Technology

Entry requirements

60 credits science/technology including Linear algebra II, Probability and statistics, Scientific computing II.

Learning outcomes

Students that pass the course should be able to

  • understand and to give a survey of the basic parts of the systems analysis approach, from problem specification, through modelling, validation, problem solving techniques, to result evaluation, presentation of results and implementation
  • formulate and to analyse mathematical models of real-life problems in continuous and discrete time
  • simulate continuous time and discrete time systems from their mathematical models using available software, and to analyse the outputs of simulations by relevant statistical methods
  • formulate optimisation problems and solve linear programming problems using the Simplex method and appropriate optmisation software, and to extract and use sensitivity information in the simplex tableau, as well as to work with both the primal and dual forms of a linear programming problem
  • formulate and solve certain types of optimisation problems using a dynamic programming approach
  • generate a decision tree for the solution of certain types of decision-making problems

Content

The systems analysis approach to model based problem solving, including problem specification, modelling, validation, problem solving techniques and result evaluation. Emphasis on finding suitable techniques for solving practical problems in working life. Basic principles and applications of different methods from systems analysis and operations research including optimisation, queuing analysis and simulation. The presentation of optimisation methods is based on practical problems, and mainly linear problems are treated. Introduction to the simplex method. Time-controlled, event-controlled and object oriented /pseudoparallel simulation. Statistical methods, e.g. pseudo-number generators, variance reduction techniques and sensitivity analysis.

Instruction

Lectures, problem solving sessions and voluntary assignments.

Assessment

Written examination at the end of the course.

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