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Lecturer(s)
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Pata Vladimír, prof. Dr. Ing.
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Course content
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1. Metrological databases and data communication within metrological devices. 2. Principles of data processors and data loggers, including data communication protocols. 3. The principle of statistical calculations of Cp and Cpk indices in relation to the metrological process of the enterprise. 4. Errors of metrological devices, their classification and detection. 5. Issues of extremes in the evaluation of metrological processes, statistical solutions. 6. Evaluation of the quality of metal surfaces according to the ISO 4287, 88 and ISO 25 series standards. 7. Introduction to temperature metrology in industrial practice. 8. Evaluation of temperatures and temperature fields and their visualization. 9. Fundamentals of laser interferometer applications in industrial metrology. 10. Determining the accuracy and repeatability of position settings in applications of laser interferometers. 11. Sensing and mathematical-statistical evaluation of vibrations, their influence on the metrological process, possible methods of shielding. 12. Geometric tests of straightness in a plane, methods of measurement and evaluation. 13. Geometric flatness tests, methods of measurement and evaluation. 14. Theory of harmonic waves and interference applied in the field of metrology.
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Learning activities and teaching methods
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- Preparation for examination
- 120 hours per semester
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| prerequisite |
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| Knowledge |
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| In order to successfully master the subject "technical metrology", it is assumed that the student is able to: Basic mathematical skills: The student should have sufficient mathematical knowledge, especially in arithmetic and algebra, since metrology often involves working with numerical data and calculations. Understanding the Laws of Physics: A basic understanding of physical principles such as mechanics, electromagnetism and thermodynamics is important because measurement and metrology are tightly linked to physical phenomena. Work with technical tools: The student should be able to operate and correctly use basic technical tools and measuring devices such as micrometers, voltmeters, oscilloscopes, etc. Basic IT skills: The ability to work with a computer, perform data analysis and use software tools for processing measured values is important. Logical thinking: The student should have the ability to think logically and critically, which is important for the correct evaluation of measurement results and solving problems associated with metrology. Basic chemical and material understanding: In some cases, knowledge of chemistry and material-technology properties can be important, especially if metrology is related to material analysis. Basic knowledge of technical standards and legislation: Previous knowledge of technical standards and legislation related to metrology can be an advantage. Overall, the prerequisite for successfully completing the subject "technical metrology" is basic technical and physical education, as well as the willingness and ability to learn and develop one's skills in the field of metrology and measurement. |
| In order to successfully master the subject "technical metrology", it is assumed that the student is able to: Basic mathematical skills: The student should have sufficient mathematical knowledge, especially in arithmetic and algebra, since metrology often involves working with numerical data and calculations. Understanding the Laws of Physics: A basic understanding of physical principles such as mechanics, electromagnetism and thermodynamics is important because measurement and metrology are tightly linked to physical phenomena. Work with technical tools: The student should be able to operate and correctly use basic technical tools and measuring devices such as micrometers, voltmeters, oscilloscopes, etc. Basic IT skills: The ability to work with a computer, perform data analysis and use software tools for processing measured values is important. Logical thinking: The student should have the ability to think logically and critically, which is important for the correct evaluation of measurement results and solving problems associated with metrology. Basic chemical and material understanding: In some cases, knowledge of chemistry and material-technology properties can be important, especially if metrology is related to material analysis. Basic knowledge of technical standards and legislation: Previous knowledge of technical standards and legislation related to metrology can be an advantage. Overall, the prerequisite for successfully completing the subject "technical metrology" is basic technical and physical education, as well as the willingness and ability to learn and develop one's skills in the field of metrology and measurement. |
| Skills |
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| In order to successfully master the subject "technical metrology", the student should have certain professional skills and abilities even before starting the course. These skills include: Working with measuring instruments: The student should be able to operate and use various types of measuring equipment such as micrometers, gauges, calibration instruments and electronic measuring instruments. The correct and precise use of these devices is important. Data analysis: The student should be able to analyze the data obtained during the measurement. This includes the ability to create graphs, perform statistical analysis and interpret measurement results. Mathematical Skills: Knowledge and ability to use mathematical concepts and formulas are important for calculations and evaluation of errors in measurements. Critical thinking: The student should be able to critically approach measurement data and results, the ability to identify errors and inaccuracies and look for ways to minimize them. Computer skills: Basic computer skills are important for using software tools for data processing and modeling measurement systems. Technical and Physical Understanding: Knowledge of basic technical and physical principles is essential to understanding metrology processes and equipment. Communication skills: The ability to clearly and accurately communicate measurement procedures, results and findings with colleagues and superiors is important. Working with technical standards: The ability to work with technical standards and legislation related to metrology is important, especially when metrology is related to regulation and standardization. These professional skills are important for successful completion of the subject "technical metrology" and for effective work in areas where metrology is a key factor. Students should be willing to develop these skills during the course of instruction and practice. |
| In order to successfully master the subject "technical metrology", the student should have certain professional skills and abilities even before starting the course. These skills include: Working with measuring instruments: The student should be able to operate and use various types of measuring equipment such as micrometers, gauges, calibration instruments and electronic measuring instruments. The correct and precise use of these devices is important. Data analysis: The student should be able to analyze the data obtained during the measurement. This includes the ability to create graphs, perform statistical analysis and interpret measurement results. Mathematical Skills: Knowledge and ability to use mathematical concepts and formulas are important for calculations and evaluation of errors in measurements. Critical thinking: The student should be able to critically approach measurement data and results, the ability to identify errors and inaccuracies and look for ways to minimize them. Computer skills: Basic computer skills are important for using software tools for data processing and modeling measurement systems. Technical and Physical Understanding: Knowledge of basic technical and physical principles is essential to understanding metrology processes and equipment. Communication skills: The ability to clearly and accurately communicate measurement procedures, results and findings with colleagues and superiors is important. Working with technical standards: The ability to work with technical standards and legislation related to metrology is important, especially when metrology is related to regulation and standardization. These professional skills are important for successful completion of the subject "technical metrology" and for effective work in areas where metrology is a key factor. Students should be willing to develop these skills during the course of instruction and practice. |
| learning outcomes |
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| Knowledge |
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| Principles of measurement: The student has a deeper understanding of the basic principles of measurement, including the definition of measurement, units, and different types of measuring devices. |
| Principles of measurement: The student has a deeper understanding of the basic principles of measurement, including the definition of measurement, units, and different types of measuring devices. |
| Standardization and calibration: The student understands the importance of standardization and calibration of measuring devices and knows the processes involved in maintaining and ensuring measurement accuracy. |
| Standardization and calibration: The student understands the importance of standardization and calibration of measuring devices and knows the processes involved in maintaining and ensuring measurement accuracy. |
| Errors and inaccuracies: The student is able to identify, quantify and minimize errors and inaccuracies during measurement. |
| Errors and inaccuracies: The student is able to identify, quantify and minimize errors and inaccuracies during measurement. |
| Measuring devices: The student knows different types of measuring devices, their construction, principles of operation and application. |
| Measuring devices: The student knows different types of measuring devices, their construction, principles of operation and application. |
| Data processing: The student has the ability to perform data analysis from measurements, including the creation of graphs, statistical analyzes and interpretation of results. |
| Data processing: The student has the ability to perform data analysis from measurements, including the creation of graphs, statistical analyzes and interpretation of results. |
| Application of metrology: The student understands the various areas where metrology is applied, such as industrial production, engineering, construction, healthcare and electronics. |
| Application of metrology: The student understands the various areas where metrology is applied, such as industrial production, engineering, construction, healthcare and electronics. |
| Legislative and normative aspects: The student is aware of the relevant legal regulations, technical standards and regulations related to metrology and measurement. |
| Legislative and normative aspects: The student is aware of the relevant legal regulations, technical standards and regulations related to metrology and measurement. |
| Skill development: The student has skills in taking measurements, using measuring equipment correctly and interpreting results. He is also able to apply the basics of mathematics and statistics when analyzing measured data. |
| Skill development: The student has skills in taking measurements, using measuring equipment correctly and interpreting results. He is also able to apply the basics of mathematics and statistics when analyzing measured data. |
| This professional knowledge enables the student to effectively work with measuring devices, make accurate measurements and understand the importance of metrology in technical fields. The professional knowledge that the student acquires after completing the course is crucial for a successful career in areas where measurement and metrology are an important part of the job. |
| This professional knowledge enables the student to effectively work with measuring devices, make accurate measurements and understand the importance of metrology in technical fields. The professional knowledge that the student acquires after completing the course is crucial for a successful career in areas where measurement and metrology are an important part of the job. |
| Skills |
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| Working with measuring devices: The student is able to properly operate and use different types of measuring devices, with an emphasis on accuracy and reliability of measurements. |
| Working with measuring devices: The student is able to properly operate and use different types of measuring devices, with an emphasis on accuracy and reliability of measurements. |
| Data analysis: The student has skills in the analysis of measurement data, including the ability to create graphs, perform statistical analysis, and interpret measurement results. |
| Data analysis: The student has skills in the analysis of measurement data, including the ability to create graphs, perform statistical analysis, and interpret measurement results. |
| Mathematical and statistical skills: The student is able to use mathematical and statistical concepts in performing calculations and evaluating errors in measurements. |
| Mathematical and statistical skills: The student is able to use mathematical and statistical concepts in performing calculations and evaluating errors in measurements. |
| Work with computer software: The student is able to work with computer software for data processing and modeling of measurement systems. |
| Work with computer software: The student is able to work with computer software for data processing and modeling of measurement systems. |
| Critical thinking: The student is able to critically assess measurement results, identify possible errors and inaccuracies and look for ways to minimize them. |
| Critical thinking: The student is able to critically assess measurement results, identify possible errors and inaccuracies and look for ways to minimize them. |
| Technical and physical understanding: The student understands the basic technical and physical principles related to measurement and metrology. |
| Technical and physical understanding: The student understands the basic technical and physical principles related to measurement and metrology. |
| Working with technical standards: The student is able to work with technical standards and legislation related to measurement and metrology. |
| Working with technical standards: The student is able to work with technical standards and legislation related to measurement and metrology. |
| Communication: The student is able to communicate clearly and accurately about measurement procedures, results and findings with colleagues and superiors. |
| Communication: The student is able to communicate clearly and accurately about measurement procedures, results and findings with colleagues and superiors. |
| Knowledge of metrology applications: The student understands the various areas where metrology is applied and is able to apply his knowledge in practical situations. |
| Knowledge of metrology applications: The student understands the various areas where metrology is applied and is able to apply his knowledge in practical situations. |
| These professional skills enable the student to work effectively in the field of metrology and measurement, both in the laboratory and in the industrial environment. After completing the course, the student is ready for work where accurate measurement is a key element. |
| These professional skills enable the student to work effectively in the field of metrology and measurement, both in the laboratory and in the industrial environment. After completing the course, the student is ready for work where accurate measurement is a key element. |
| teaching methods |
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| Knowledge |
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| Monologic (Exposition, lecture, briefing) |
| Monologic (Exposition, lecture, briefing) |
| Dialogic (Discussion, conversation, brainstorming) |
| Dialogic (Discussion, conversation, brainstorming) |
| Skills |
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| Practice exercises |
| Practice exercises |
| Individual work of students |
| Individual work of students |
| assessment methods |
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| Knowledge |
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| Oral examination |
| Oral examination |
| Written examination |
| Written examination |
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Recommended literature
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BOHÁČEK, J. Metrology. Praha: ČVUT, 2013. ISBN 978-80-01-05351-5.
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BUMBÁLEK, L., PATA, V. Kontrola a měření. Praha: Informatorium, 2009. ISBN 978-80-7333-072-9.
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Chudý, V. Meranie technických veličín. Bratislava : STU, 1999. ISBN 80-227-1275-2.
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MELOUN, M., MILITKÝ, J. Kompendium statistického zpracování dat. Praha: Karolinum, 2012. ISBN 978-80-246-2196-8.
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PATA, V., KUBIŠOVÁ, M. Statistické metody hodnocení jakosti strojírenských povrchů. Zlín: FT UTB, 2018. ISBN 978-80- 7454-740-.
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RABINOVICH, S.G. Measurement Errors and Uncertainties: Theory and Practice. 3rd Ed.. Springer, 2010. ISBN 978-1-4419-2053-9.
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