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Last update: G_F (12.05.2016)
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Last update: G_F (12.05.2016)
The aim of this class is to introduce the students to selected advanced problems in LabVIEW programming, stongly tied to automation and instrument control. |
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Last update: doc. RNDr. Vojtěch Chlan, Ph.D. (12.06.2019)
Exam is oral. Requirements correspond to syllabus of the subject to the extent presented at the lecture. |
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Last update: doc. RNDr. Vojtěch Chlan, Ph.D. (14.05.2019)
1. Havlíček Josef, Vlach Jaroslav, et al., Začínáme s LabVIEW, BEN - technická literatura, Praha 2008 2. http://www.ni.com/academic/students |
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Last update: G_F (12.05.2016)
1. LabVIEW compiler
Compilation of stand-alone applications, libraries and installation packages
2. Advanced architectures, modularity, documentation
Best practices for large projects, cummunication between modules, precise timing in advanced architectures
3. Instrument drivers
When and why to write them? Important considerations in driver software, current best practices: use of libraries, access levels, use of low and high level VIs
4. Real-time systems, FPGA
Introduction to Real-Time systems and their applications, Introduction to FPGAs and time-critical decision-making, use of NI myRIO for precise timing and control
5. Image processing in LabVIEW
Introduction to digital graphics, using the NI-VISION package for fast and efficient image processing.
6. Class project
Groups of 3-5 students will work on a larger project together to explore teamwork in programming and project management. Topics may include: simple robots, downscaled models of industrial machines or graphic processing systems (such as object identification or motion tracking). |