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Using LabVIEW to determine measurement uncertainty
Hoferková, Kateřina ; Štohl, Radek (referee) ; Šedivá, Soňa (advisor)
This bachelor thesis is focused on problematics of determining the measurement uncertainty. In the theoretical part of the thesis there is a theory of the procedure of determining the uncertainty of the measurement. The practical part of the thesis is focused on the realization of the program created in LabVIEW 2017. The bachelor thesis is about a determining the measurement uncertainty according to GUM, the standard uncertainty of type A, the standard uncertainty of type B, the combined uncertainty and the expanded uncertainty. The thesis is focused on determining the measurement uncertainty of direct measurements, indirect measurements and Monte Carlo method. The enclosed LabVIEW program enables to insert the data to determine the measurement uncertainty. The program determines the measurement uncertainty according to GUM and Monte Carlo method. The results of a calculation can be optionally saved to a file for an archiving.
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Virtual oscilloscope
Hoferková, Kateřina ; Pikula, Stanislav (referee) ; Šedivá, Soňa (advisor)
This thesis is focused on the design and implementation of a virtual oscilloscope used primarily for study purposes. The virtual oscilloscope is created in LabVIEW environment. The application also includes a function generator with two outputs. The theoretical part of the thesis is focused on the analysis of function generator and oscilloscope, and also describes the LabVIEW environment and its possibilities for creating a virtual measuring instrument. The practical part of the thesis describes creating of a two-channel virtual oscilloscope, which is inspired by the Siglent SDS1000X series oscilloscope. The thesis also includes two laboratory tasks prepared for this virtual oscilloscope.
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Virtual oscilloscope
Hoferková, Kateřina ; Pikula, Stanislav (referee) ; Šedivá, Soňa (advisor)
This thesis is focused on the design and implementation of a virtual oscilloscope used primarily for study purposes. The virtual oscilloscope is created in LabVIEW environment. The application also includes a function generator with two outputs. The theoretical part of the thesis is focused on the analysis of function generator and oscilloscope, and also describes the LabVIEW environment and its possibilities for creating a virtual measuring instrument. The practical part of the thesis describes creating of a two-channel virtual oscilloscope, which is inspired by the Siglent SDS1000X series oscilloscope. The thesis also includes two laboratory tasks prepared for this virtual oscilloscope.
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Způsoby odměňování a jejich vliv na motivaci ve vybraném podniku
Hoferková, Kateřina
This bachelor thesis focuses on a variety of methods of remuneration and on its impact on motivation. The aim of the thesis is analysing of current remuneration system in particular company and suggestions for improvement. The thesis includes overview of knowledge on remuneration and motivation which is the main resource for research on ABC s. r. o. company. Moreover, it includes questionnaires and interviews with employees of the company to eliminate any possible deflection. Based on the research I suggest improvements for remuneration to motivate employees.
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Using LabVIEW to determine measurement uncertainty
Hoferková, Kateřina ; Štohl, Radek (referee) ; Šedivá, Soňa (advisor)
This bachelor thesis is focused on problematics of determining the measurement uncertainty. In the theoretical part of the thesis there is a theory of the procedure of determining the uncertainty of the measurement. The practical part of the thesis is focused on the realization of the program created in LabVIEW 2017. The bachelor thesis is about a determining the measurement uncertainty according to GUM, the standard uncertainty of type A, the standard uncertainty of type B, the combined uncertainty and the expanded uncertainty. The thesis is focused on determining the measurement uncertainty of direct measurements, indirect measurements and Monte Carlo method. The enclosed LabVIEW program enables to insert the data to determine the measurement uncertainty. The program determines the measurement uncertainty according to GUM and Monte Carlo method. The results of a calculation can be optionally saved to a file for an archiving.
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