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Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine

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Zeitschriftentitel: Measurement Science Review
Personen und Körperschaften: Vrba, Igor, Palencar, Rudolf, Hadzistevic, Miodrag, Strbac, Branko, Spasic-Jokic, Vesna, Hodolic, Janko
In: Measurement Science Review, 15, 2015, 3, S. 111-118
Format: E-Article
Sprache: Englisch
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
Instrumentation
Biomedical Engineering
Control and Systems Engineering
author_facet Vrba, Igor
Palencar, Rudolf
Hadzistevic, Miodrag
Strbac, Branko
Spasic-Jokic, Vesna
Hodolic, Janko
Vrba, Igor
Palencar, Rudolf
Hadzistevic, Miodrag
Strbac, Branko
Spasic-Jokic, Vesna
Hodolic, Janko
author Vrba, Igor
Palencar, Rudolf
Hadzistevic, Miodrag
Strbac, Branko
Spasic-Jokic, Vesna
Hodolic, Janko
spellingShingle Vrba, Igor
Palencar, Rudolf
Hadzistevic, Miodrag
Strbac, Branko
Spasic-Jokic, Vesna
Hodolic, Janko
Measurement Science Review
Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
Instrumentation
Biomedical Engineering
Control and Systems Engineering
author_sort vrba, igor
spelling Vrba, Igor Palencar, Rudolf Hadzistevic, Miodrag Strbac, Branko Spasic-Jokic, Vesna Hodolic, Janko 1335-8871 Walter de Gruyter GmbH Instrumentation Biomedical Engineering Control and Systems Engineering http://dx.doi.org/10.1515/msr-2015-0017 <jats:title>Abstract</jats:title> <jats:p>This paper describes a methodology for uncertainty assessment for Coordinate Measuring Machine measurement of complex real work pieces from industry. The study applied two approaches (in scanning mode only) for estimating the measurement uncertainty with the support of Taguchi plan in the experiment containing five factors: scanning speed, sample density, probe configuration, scanning direction, and position of measuring object. In the first approach the uncertainty was estimated by measuring the basic geometric objects (primitives like sphere and torus) representing the decomposition of complex surfaces and in the second one a complex surface was treated as an unknown quantity. Calculated uncertainty Type A for both measurement tasks was in the range from 0.65 μm to 6.47 μm. Evaluation of the uncertainty Type B covered specifications of the machine and standard uncertainties derived from temperature effects. Total <jats:italic>u<jats:sub>B</jats:sub> </jats:italic> component was found to be in order of 0.4 μm. Future research will be directed towards the development and application of simulation methods</jats:p> Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine Measurement Science Review
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title Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_unstemmed Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_full Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_fullStr Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_full_unstemmed Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_short Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_sort different approaches in uncertainty evaluation for measurement of complex surfaces using coordinate measuring machine
topic Instrumentation
Biomedical Engineering
Control and Systems Engineering
url http://dx.doi.org/10.1515/msr-2015-0017
publishDate 2015
physical 111-118
description <jats:title>Abstract</jats:title> <jats:p>This paper describes a methodology for uncertainty assessment for Coordinate Measuring Machine measurement of complex real work pieces from industry. The study applied two approaches (in scanning mode only) for estimating the measurement uncertainty with the support of Taguchi plan in the experiment containing five factors: scanning speed, sample density, probe configuration, scanning direction, and position of measuring object. In the first approach the uncertainty was estimated by measuring the basic geometric objects (primitives like sphere and torus) representing the decomposition of complex surfaces and in the second one a complex surface was treated as an unknown quantity. Calculated uncertainty Type A for both measurement tasks was in the range from 0.65 μm to 6.47 μm. Evaluation of the uncertainty Type B covered specifications of the machine and standard uncertainties derived from temperature effects. Total <jats:italic>u<jats:sub>B</jats:sub> </jats:italic> component was found to be in order of 0.4 μm. Future research will be directed towards the development and application of simulation methods</jats:p>
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author Vrba, Igor, Palencar, Rudolf, Hadzistevic, Miodrag, Strbac, Branko, Spasic-Jokic, Vesna, Hodolic, Janko
author_facet Vrba, Igor, Palencar, Rudolf, Hadzistevic, Miodrag, Strbac, Branko, Spasic-Jokic, Vesna, Hodolic, Janko, Vrba, Igor, Palencar, Rudolf, Hadzistevic, Miodrag, Strbac, Branko, Spasic-Jokic, Vesna, Hodolic, Janko
author_sort vrba, igor
container_issue 3
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container_title Measurement Science Review
container_volume 15
description <jats:title>Abstract</jats:title> <jats:p>This paper describes a methodology for uncertainty assessment for Coordinate Measuring Machine measurement of complex real work pieces from industry. The study applied two approaches (in scanning mode only) for estimating the measurement uncertainty with the support of Taguchi plan in the experiment containing five factors: scanning speed, sample density, probe configuration, scanning direction, and position of measuring object. In the first approach the uncertainty was estimated by measuring the basic geometric objects (primitives like sphere and torus) representing the decomposition of complex surfaces and in the second one a complex surface was treated as an unknown quantity. Calculated uncertainty Type A for both measurement tasks was in the range from 0.65 μm to 6.47 μm. Evaluation of the uncertainty Type B covered specifications of the machine and standard uncertainties derived from temperature effects. Total <jats:italic>u<jats:sub>B</jats:sub> </jats:italic> component was found to be in order of 0.4 μm. Future research will be directed towards the development and application of simulation methods</jats:p>
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spelling Vrba, Igor Palencar, Rudolf Hadzistevic, Miodrag Strbac, Branko Spasic-Jokic, Vesna Hodolic, Janko 1335-8871 Walter de Gruyter GmbH Instrumentation Biomedical Engineering Control and Systems Engineering http://dx.doi.org/10.1515/msr-2015-0017 <jats:title>Abstract</jats:title> <jats:p>This paper describes a methodology for uncertainty assessment for Coordinate Measuring Machine measurement of complex real work pieces from industry. The study applied two approaches (in scanning mode only) for estimating the measurement uncertainty with the support of Taguchi plan in the experiment containing five factors: scanning speed, sample density, probe configuration, scanning direction, and position of measuring object. In the first approach the uncertainty was estimated by measuring the basic geometric objects (primitives like sphere and torus) representing the decomposition of complex surfaces and in the second one a complex surface was treated as an unknown quantity. Calculated uncertainty Type A for both measurement tasks was in the range from 0.65 μm to 6.47 μm. Evaluation of the uncertainty Type B covered specifications of the machine and standard uncertainties derived from temperature effects. Total <jats:italic>u<jats:sub>B</jats:sub> </jats:italic> component was found to be in order of 0.4 μm. Future research will be directed towards the development and application of simulation methods</jats:p> Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine Measurement Science Review
spellingShingle Vrba, Igor, Palencar, Rudolf, Hadzistevic, Miodrag, Strbac, Branko, Spasic-Jokic, Vesna, Hodolic, Janko, Measurement Science Review, Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine, Instrumentation, Biomedical Engineering, Control and Systems Engineering
title Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_full Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_fullStr Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_full_unstemmed Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_short Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
title_sort different approaches in uncertainty evaluation for measurement of complex surfaces using coordinate measuring machine
title_unstemmed Different Approaches in Uncertainty Evaluation for Measurement of Complex Surfaces Using Coordinate Measuring Machine
topic Instrumentation, Biomedical Engineering, Control and Systems Engineering
url http://dx.doi.org/10.1515/msr-2015-0017