Stand of the Art in Metrology is a key element of advanced manufacturing. It ensures the accuracy and consistency of manufacturing processes and final products. In advanced manufacturing, metrology is constantly evolving to meet the increasing demands for quality, accuracy and efficiency. Advanced measurement strategies and capable measurement systems, the integration of IoT and digital twins to increase the degree of automation in the measurement process, and the use of advanced software and data analytics are key factors in ensuring quality and efficiency in manufacturing processes.
The membership of the research group is multidisciplinary and includes experts from all relevant departments of the Institute of Manufacturing Machines, Systems and Robotics.
Research topics:
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Digital transformation leading to Industry 4.0.
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Using a combination of different types of measurement systems or sensors to obtain more complex and accurate measurement data.
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Using AI and machine learning to analyse measurement data and predict trends in manufacturing processes.
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Integrating measurement systems directly into production lines for continuous quality control.
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Precise measurements taken directly on machine tools during production.
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Advanced analysis of large data sets to identify patterns and trends in measurement data.
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Optimise metrology processes.
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Implement measurement systems for complex measurement operations with high accuracy and repeatability.
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Assess the applicability and capability of length gauges.
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Metrology for proactive maintenance and adjustment of production equipment.
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Metrology strategies to assess the health and condition of production equipment and optimise manufacturing processes.
Examples of solved projects:
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Technologies and tools for the digital transformation of engineering
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Application possibilities of the multifunctional grinding machine BUD 100
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Research and development of a machine tool monitoring unit to support proactive maintenance
Examples of outputs:
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HOLUB, M.; JANKOVÝCH, R.; VETIŠKA, J.; ŠRÁMEK, J.; BLECHA, P.; SMOLÍK, J.; HEINRICH, P. Experimental Study of the Volumetric Error Effect on the Resulting Working Accuracy—Roundness. Applied Sciences – Basel, 2020, roč. 10, č. 18, s. 1-18. ISSN: 2076-3417.
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HOLUB, M.; VETIŠKA, J.; ANDRŠ, O.; KOVÁŘ, J. Effect of position of temperature sensors on the resulting volumetric accuracy of the machine tool. MEASUREMENT, Journal of the International Measurement Confederation (IMEKO), 2019, roč. 2020, č. 150, s. 1-8. ISSN: 0263-2241.
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HOLUB, M.; JANKOVÝCH, R.; VETIŠKA, J.; ŠRÁMEK, J.; BLECHA, P.; SMOLÍK, J.; HEINRICH, P. Experimental Study of the Volumetric Error Effect on the Resulting Working Accuracy—Roundness. Applied Sciences – Basel, 2020, roč. 10, č. 18, s. 1-18. ISSN: 2076-3417.
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HOLUB, M.; PAVLÍK, J.; VELECKÝ, P.; ZUTH, D.: SUO 60; Precision workpiece positioning system with a load capacity of up to 60 t. Slovácké strojírny, Uherský Brod. (funkční vzorek).
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HOLUB, M.; HERMANSKÝ, D.; ŠRÁMEK, J.; MAREK, T.; MAREK, J.; JANKOVÝCH, R.; PROKOPEC, L.; MAIXNER, M.; BRYCHTA, Z.; JANÁČ, S.: Měřidlo širokorozsahové BUD100/7000 Amest 60-1000; Functional sample of a wide-range meter. TOS Čelákovice Stankovského 1892, 250 88 Čelákovice. (funkční vzorek).
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JEDELSKÝ, J.; MALÝ, M.; BĚLKA, M.; POLZER, A.; SÁMELOVÁ, V.; CEJPEK, O.; WIGLEY, G. Effect of Fabrication Method and Surface Roughness on Spray Characteristics for Small Pressure-Swirl Atomizers. Journal of Manufacturing Processes, 2023, roč. 85, č. 1, s. 166-178. ISSN: 2212-4616.
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STIBOREK, M.; JINDŘICHOVÁ, L.; MELIORISOVÁ, S.; BEDNAŘÍK, A.; PRYSIAZHNYI, V.; KROUPA, J.; HOUŠKA, P.; ADAMOVÁ, B.; NAVRÁTILOVÁ, J.; KANICKÝ, V.; PREISLER, J. Infrared Laser Desorption of Intact Nanoparticles for Digital Tissue Imaging. ANALYTICAL CHEMISTRY, 2022, roč. 94, č. 51, s. 18114-18120. ISSN: 0003-2700.
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