Course details

Modelling and Simulation

IMS Acad. year 2010/2011 Winter semester 5 credits

Current academic year

Introduction to modelling and simulation concepts. System analysis and classification. Abstract and simulation models. Continuous, discrete, and combined models. Heterogeneous models. Using Petri nets and finite automata in simulation. Pseudorandom number generation and testing. Queuing systems. Monte Carlo method. Continuous simulation, numerical methods, Modelica language. Simulation experiment control. Visualization and analysis of simulation results.

Guarantor

Peringer Petr, Dr. Ing. (DITS FIT BUT)

Language of instruction

Czech

Completion

Credit+Examination (written)

Time span

39 hrs lectures, 2 hrs exercises, 2 hrs pc labs, 9 hrs projects

Assessment points

70 exam, 10 half-term test, 20 projects

Department

Lecturer

Peringer Petr, Dr. Ing. (DITS FIT BUT)

Instructor

Subject specific learning outcomes and competences

Knowledge of simulation principles. The ability to create simulation models of various types. Basic knowledge of simulation system principles.

Learning objectives

The goal is to introduce students to basic simulation methods and tools for modelling and simulation of continuous, discrete and combined systems.

Prerequisites

Prerequisite kwnowledge and skills

Basic knowledge of numerical mathematics, probability and statistics, and basics of programming.

Study literature

  • Fishwick P.: Simulation Model Design and Execution, PrenticeHall, 1995, ISBN 0-13-098609-7
  • Law A., Kelton D.: Simulation Modelling and Analysis, McGraw-Hill, 1991, ISBN 0-07-100803-9
  • Texts available on WWW.

Fundamental literature

  • Fishwick P.: Simulation Model Design and Execution, PrenticeHall, 1995, ISBN 0-13-098609-7
  • Law A., Kelton D.: Simulation Modelling and Analysis, McGraw-Hill, 1991, ISBN 0-07-100803-9
  • Rábová Z. a kol: Modelování a simulace, VUT Brno, 1992, ISBN 80-214-0480-9
  • Ross, S.: Simulation, Academic Press, 2002, ISBN 0-12-598053-1

Syllabus of lectures

  • Introduction to modelling and simulation. System analysis, clasification of systems. System theory basics, its relation to simulation.
  • Model classification: conceptual, abstract, and simulation models. Heterogeneous models. Methodology of model building.
  • Simulation systems and languages, means for model and experiment description. Principles of simulation system design.
  • Parallel process modelling. Using Petri nets and finite automata in simulation.
  • Models o queuing systems. Discrete simulation models. Model time, simulation experiment control.
  • Continuous systems modelling. Overview of numerical methods used for continuous simulation. System Dymola/Modelica.
  • Combined simulation. The role of simulation in digital systems design.
  • Special model classes, models of heterogeneous systems.
  • Cellular automata and simulation.
  • Checking model validity, verification of models. Analysis of simulation results.
  • Simulation results visualization. Model optimization.
  • Generating, transformation, and testing of pseudorandom numbers. Stochastic models, Monte Carlo method.
  • Overview of commonly used simulation systems.

Syllabus of numerical exercises

  1. discrete simulation: using Petri nets, using SIMLIB/C++
  2. continuous simulation: differential equations, block diagrams, examples of models in SIMLIB/C++

Syllabus of computer exercises

  1. Introduction to Dymola simulation system, continuous simulation.

Syllabus - others, projects and individual work of students

Individual selection of a suitable problem, its analysis, simulation model creation, experimenting with the model, and analysis of results.

Progress assessment

project, midterm exam

Controlled instruction

Within this course, attadance on the lectures is not monitored.
The knowledge of students is examined by the projects and
by the final exam. The minimal number of points which
can be obtained from the final exam is 30. Otherwise,
no points will be assigned to a student.

Exam prerequisites

At least half of the points you can get during the semester

Course inclusion in study plans

  • Programme IT-BC-3, field BIT, 3rd year of study, Compulsory
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