Individual course details | ||||||||||
Study programme | Applied and computational physics | |||||||||
Chosen research area (module) | ||||||||||
Nature and level of studies | ||||||||||
Name of the course | Standard laboratory software | |||||||||
Professor (lectures) | Ivan Belča | |||||||||
Professor/associate (examples/practical) | ||||||||||
Professor/associate (additional) | ||||||||||
ECTS | Status (required/elective) | |||||||||
Access requirements | ||||||||||
Aims of the course | Introduction to standard application used in laboratory experiment modeling, connecting and control measuring and control instruments, complex data processing, experiment automotion. | |||||||||
Learning outcomes | Competence of students to use standard lab software forexperiment design and modeling. | |||||||||
Contents of the course | ||||||||||
Lectures | Matlab/Simulink, Labview, Electronic Workbench, or similar applications for Linux OS. | |||||||||
Examples/ practical classes | Simulation and design of experiments. Connecting of measuring and controlin instruments usin LabView. Simulation of electronic circuits usin Electronic Workbench. Simulation, analisys and clasification of measurement results using Matlab. | |||||||||
Recommended books | ||||||||||
1 | Virtual
instrumentation using LabVIEW Principles and practises of Graphical
programming, Sanjay Gupta/ Joseph John. |
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2 | Matlab , a practical introduction to programming and problem solving, Stormy Attaway | |||||||||
3 | ||||||||||
4 | ||||||||||
5 | ||||||||||
Number of classes (weekly) | ||||||||||
Lectures | Examples&practicals | Student project | Additional | |||||||
Teaching and learning methods | Theoretical and practical lessons, seminars. | |||||||||
Assessment (maximal 100) | ||||||||||
assesed coursework | mark | examination | mark | |||||||
coursework | written examination | |||||||||
practicals | oral examination | |||||||||
papers | ||||||||||
presentations | ||||||||||