| Course Unit Code | 450-2002/03 |
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| Number of ECTS Credits Allocated | 3 ECTS credits |
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| Type of Course Unit * | Compulsory |
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| Level of Course Unit * | First Cycle |
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| Year of Study * | Second Year |
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| Semester when the Course Unit is delivered | Winter Semester |
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| Mode of Delivery | Face-to-face |
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| Language of Instruction | Czech |
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| Prerequisites and Co-Requisites | Course succeeds to compulsory courses of previous semester |
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| Name of Lecturer(s) | Personal ID | Name |
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| KUB631 | Ing. Jan Kubíček, Ph.D. |
| Summary |
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| Content of this subject is instruction about how to work within MATLAB. MATLAB handles a range of computing tasks in engineering and science, from data acquisition and analysis to application development. The MATLAB environment integrates mathematical computing, visualization, and a powerful technical language. Built-in interfaces let you access quick and import data from instruments, files, and external databases and programs. In addition, MATLAB lets you integrate external routines written in C, C++, Java with your MATLAB applications. |
| Learning Outcomes of the Course Unit |
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The goal of this subject is to obtain know-how for use program MATLAB. Users have found that the combination of the intuitive MATLAB interface, language, and the built-in math and graphics functions make MATLAB the preferred platform for technical computing compared to C, Fortran, and other languages and applications. This will be useful in study of other subjects in branch study of measuring and control technology.
Users have found that the combination of the intuitive MATLAB interface, language, and the built-in math and graphics functions make MATLAB the preferred platform for technical computing compared to C, Fortran, and other languages and applications. This will be useful in study of other subjects in branch study of measuring and control technology. |
| Course Contents |
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Lectures:
MATLAB and SIMULINK - hardware a software requirements. Application area. Fundamental perceptions.
MATLAB environment, constants, variables, vectors, matrix, data file- m files.
Fundamental mathematical operators - arithmetical, rotation, logical. Computation of scalar in array. Results display and plot. Functions.
Programming in MATLAB. Commands IF, ELSEIF, FOR, LOOPS, WHILE.
MATLAB facilities for displaying vectors and matrices as graphs, as well as annotating and printing these graphs.2 D Graphics, Basic plotting. Command PLOT, STEM.
Three-dimensional graphics and result processing of tasks. Basic commands.
Graphics user interface design GUI. Construction, suggestion user interface by the use editorial functions uicontrol, uimenu and in GUI editor.
Numerical solving of linear equations. Polynomial analysis. Numeric Integration and derivation. Interpolation and regression analysis.
Statistics Toolbox, for use with MATLAB, supplies basic statistics capability on the level of a first course in engineering or scientific statistics. Minimum, maximum, median, sum, deviation. Histogram. Random numbers and their functions. Bases \"Statistic Toolbox\" and his function.
Graphical computing and programming in SIMULINK. S - Function.
Using MATLAB and SIMULINK in measurement and signal processing. Introduction to \"Signal Processing Toolbox\". Using MATLAB and SIMULINK in control systems. Introduction to\" Control System Toolbox\".
MATLAB as environment for data measuring. Data measurement with the use sound card, parallel port, serial port. Working with the function in \"Real Time Workshop Toolbox\"
Working with symbolic variables in \"Symbolic Math Toolbox\"
Compilation to the C, DLL libraries and standalone form EXE in \"MATLAB Compiler Toolbox\".
Computer labs:
Introduction to the hardware a software environment MATLAB and SIMULINK Application area and requirements. Simple illustration and examples. Fundamental perceptions.
Exercise in MATLAB environment, constants, variables, vectors, matrix, explanation of data and m files.
Exercise in fundamental mathematical operators - arithmetical, rotation, logical. Computation of scalar in array. Basic display and plot results.
Exercise in programming in MATLAB. Creation of Scripts and Functions. Exercise in commands IF, ELSEIF, FOR, LOOPS, WHILE.
Exercise in MATLAB facilities for displaying vectors and matrices as graphs, as well as annotating and printing these graphs.2 D Graphics, Basic plotting like PLOT, STEM.
Exercise in three-dimensional graphics and results interpretation. Basic commands explanation.
Exercise in graphics user interface design GUI. Construction, suggestion user interface by the use editorial functions uicontrol, uimenu and in GUI editor.
Exercise in numerical solving of linear equations. Work with polynomial analysis. Exercise in numeric integration and derivation. Interpolation and regression analysis.
Exercise in \"Statistics Toolbox\" for use with MATLAB, supplies basic statistics capability on the level of a first course in engineering or scientific statistics. Minimum, maximum, median, sum, deviation. Computing with histogram. Working with random numbers and their functions.
Realization and tests of graphical computing in SIMULINK. S - Function.
Verification of using MATLAB in signal processing tasks. Work with \"Signal Processing Toolbox\".Verification of using MATLAB and SIMULINK in control system. Using functions in \"Control System Toolbox\".
Exercise in data measurement from the different sources in MATLAB. Measurement with the use sound card, parallel port and serial port. Work with functions in \"Real Time Workshop Toolbox\".
Exercise in how to use symbolic variables in MATLAB \"Symbolic Math Toolbox\".
Exercise in compilation of functions to the C, DLL libraries and stand alone EXE form in \"MATLAB Compiler Toolbox\". |
| Recommended or Required Reading |
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| Required Reading: |
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MATLAB User's Guide. The MathWorks,
MATLAB Reference Guide. The MathWorks,
MATLAB Release Notes. . The MathWorks,
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M. Penhaker. Práce v prostředí MATLAB. Ostrava: Vysoká škola báňská - Technická univerzita, 2007.
Kozák, Š., Kajan,S.: Matlab - Simulink I, 1. vyd.. - Bratislava Slovenská technická univerzita, 1999. - 125 s., il. ISBN 80-227-1213-2
Kozák, Š.: Matlab - Simulink II, 1. vyd.. - Bratislava : Slovenská technická univerzita, 1999. - 141 s, il. ISBN 80-227-1235-3
Dušek, F.: Matlab a Simulink, úvod do používání, - Vyd. 1.. - Pardubice, Univerzita Pardubice, 2000. - 146 s., il. ISBN 80-7194-273-1
Zaplatílek, K., Doňar, B.: MATLAB pro začátečníky, - 1. vyd.. - Praha, BEN, 2003. - 143 s., il. ISBN 80-7300-095-4.
MATLAB User's Guide. The MathWorks,
MATLAB Reference Guide. The MathWorks,
MATLAB Release Notes. . The MathWorks,
MATLAB New Features Guide. The MathWorks,
MATLAB Building a Graphical User Interface. The MathWorks, |
| Recommended Reading: |
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MATLAB New Features Guide. The MathWorks,
MATLAB Building a Graphical User Interface. The MathWorks, |
Zaplatílek, K., Doňar, B.: MATLAB : tvorba uživatelských aplikací ,. - 1. vyd.. - Praha, BEN, 2004. - 215 s., il. ISBN 80-7300-133-0
Sedláček, M., Šmíd, R.: MATLAB v měření, - 1. vyd.. - Praha, Vydavatelství ČVUT, 2004 dotisk. - 204 s., il. ISBN 80-01-02851-8 Gavalec M. a kol.
Gavalec M.: Pravdepodobnosť a matematická štatistika v počítačovom prostredí MATLABu ,... [et al.]. - 2. opr. Vyd, Košice : Elfa [Košice], 2002. - 152 s., il. ISBN 80-89066-05-4
Stejskal, V., Okrouhlík,M.: Kmitání s Matlabem , - Vyd. 1.. - Praha, Vydavatelství ČVUT, 2002. - 376 s., il. ISBN 80-01-02435-0
Noskievič, P.: Modelování a identifikace systémů, - Ostrava, Montanex, 1999. - iv, ii, 276 s., il. ISBN 80-7225-030-2 |
| Planned learning activities and teaching methods |
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| Lectures, Individual consultations, Tutorials |
| Assesment methods and criteria |
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| Task Title | Task Type | Maximum Number of Points
(Act. for Subtasks) | Minimum Number of Points for Task Passing |
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| Graded credit | Graded credit | 100 | 51 |