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Lecturer(s)
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Kouřil Lukáš, Mgr.
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Pechoušek Jiří, doc. RNDr. Ph.D.
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Course content
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digital measurement systems programming, methods of development, control applications, serial link utilization, GPIB system, SCPI standard, VISA drivers, IVI drivers, application with multifunction devices utilization of PXI system with real time system LabVIEW RT development of measurement system with sbRIO and CompactRIO modules, including FPGA circuits implementation of additional packages of LabVIEW
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Learning activities and teaching methods
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Laboratory Work
- Preparation for the Exam
- 30 hours per semester
- Attendace
- 40 hours per semester
- Homework for Teaching
- 10 hours per semester
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Learning outcomes
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The goal is to introduce the advanced methods of measurement systems developing.
3. Application Apply knowledge for development of measurement systems Construct measurement systems
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Prerequisites
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basic programming knowledge principles of digital systems
KEF/ČMSA1
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Assessment methods and criteria
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Student performance, Dialog
Knowledge given in the syllabus
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Recommended literature
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Bress, T. J. (2013). Effective LabVIEW Programming. NTS Press.
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De Asmundis, R. (ed). (2011). LabVIEW - Modeling, Programming and Simulations. InTech, Rijeka.
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Haasz V., Roztočil J., Novák J. (2000). Číslicové měřicí systémy. CVUT Praha.
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Haasz, V.; Sedláček, M. (2000). Elektrická měření. Přístroje a metody. ČVUT, Praha.
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National Instruments. LabView Measurement Manual.
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National Instruments. LabVIEW User Manual.
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Pechoušek, J. (2004). Základy programování v LabVIEW. Vydavatelství UP, Olomouc.
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Silviu, F. (ed). (2011). LabVIEW - Practical Applications and Solutions. InTech, Rijeka.
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Sydenham, P. Thor, R. (eds). (2005). Handbook of Measuring System Design. Wiley.
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Tumanski, S. (2006). Principles of Electrical Measurement. Taylor & Francis.
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Vedral, J. Fischer. (1999). Elektronické obvody pro měřící techniku. ČVUT Praha.
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Vlach J. a kol. (2008). Začínáme s LabVIEW. BEN technická literatura, Praha.
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