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Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM

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Zeitschriftentitel: Measurement Science Review
Personen und Körperschaften: Li, Hongli, Chen, Xiaohuai, Cheng, Yinbao, Liu, Houde, Wang, Hanbin, Cheng, Zhenying, Wang, Hongtao
In: Measurement Science Review, 17, 2017, 5, S. 226-231
Format: E-Article
Sprache: Englisch
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
Instrumentation
Biomedical Engineering
Control and Systems Engineering
author_facet Li, Hongli
Chen, Xiaohuai
Cheng, Yinbao
Liu, Houde
Wang, Hanbin
Cheng, Zhenying
Wang, Hongtao
Li, Hongli
Chen, Xiaohuai
Cheng, Yinbao
Liu, Houde
Wang, Hanbin
Cheng, Zhenying
Wang, Hongtao
author Li, Hongli
Chen, Xiaohuai
Cheng, Yinbao
Liu, Houde
Wang, Hanbin
Cheng, Zhenying
Wang, Hongtao
spellingShingle Li, Hongli
Chen, Xiaohuai
Cheng, Yinbao
Liu, Houde
Wang, Hanbin
Cheng, Zhenying
Wang, Hongtao
Measurement Science Review
Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
Instrumentation
Biomedical Engineering
Control and Systems Engineering
author_sort li, hongli
spelling Li, Hongli Chen, Xiaohuai Cheng, Yinbao Liu, Houde Wang, Hanbin Cheng, Zhenying Wang, Hongtao 1335-8871 Walter de Gruyter GmbH Instrumentation Biomedical Engineering Control and Systems Engineering http://dx.doi.org/10.1515/msr-2017-0027 <jats:title>Abstract</jats:title> <jats:p>Due to the variety of measurement tasks and the complexity of the errors of coordinate measuring machine (CMM), it is very difficult to reasonably evaluate the uncertainty of the measurement results of CMM. It has limited the application of CMM. Task oriented uncertainty evaluation has become a difficult problem to be solved. Taking dimension measurement as an example, this paper puts forward a practical method of uncertainty modeling and evaluation of CMM task oriented measurement (called SVCMM method). This method makes full use of the CMM acceptance or reinspection report and the Monte Carlo computer simulation method (MCM). The evaluation example is presented, and the results are evaluated by the traditional method given in GUM and the proposed method, respectively. The SVCMM method is verified to be feasible and practical. It can help CMM users to conveniently complete the measurement uncertainty evaluation through a single measurement cycle.</jats:p> Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM Measurement Science Review
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title Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_unstemmed Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_full Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_fullStr Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_full_unstemmed Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_short Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_sort uncertainty modeling and evaluation of cmm task oriented measurement based on svcmm
topic Instrumentation
Biomedical Engineering
Control and Systems Engineering
url http://dx.doi.org/10.1515/msr-2017-0027
publishDate 2017
physical 226-231
description <jats:title>Abstract</jats:title> <jats:p>Due to the variety of measurement tasks and the complexity of the errors of coordinate measuring machine (CMM), it is very difficult to reasonably evaluate the uncertainty of the measurement results of CMM. It has limited the application of CMM. Task oriented uncertainty evaluation has become a difficult problem to be solved. Taking dimension measurement as an example, this paper puts forward a practical method of uncertainty modeling and evaluation of CMM task oriented measurement (called SVCMM method). This method makes full use of the CMM acceptance or reinspection report and the Monte Carlo computer simulation method (MCM). The evaluation example is presented, and the results are evaluated by the traditional method given in GUM and the proposed method, respectively. The SVCMM method is verified to be feasible and practical. It can help CMM users to conveniently complete the measurement uncertainty evaluation through a single measurement cycle.</jats:p>
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author Li, Hongli, Chen, Xiaohuai, Cheng, Yinbao, Liu, Houde, Wang, Hanbin, Cheng, Zhenying, Wang, Hongtao
author_facet Li, Hongli, Chen, Xiaohuai, Cheng, Yinbao, Liu, Houde, Wang, Hanbin, Cheng, Zhenying, Wang, Hongtao, Li, Hongli, Chen, Xiaohuai, Cheng, Yinbao, Liu, Houde, Wang, Hanbin, Cheng, Zhenying, Wang, Hongtao
author_sort li, hongli
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description <jats:title>Abstract</jats:title> <jats:p>Due to the variety of measurement tasks and the complexity of the errors of coordinate measuring machine (CMM), it is very difficult to reasonably evaluate the uncertainty of the measurement results of CMM. It has limited the application of CMM. Task oriented uncertainty evaluation has become a difficult problem to be solved. Taking dimension measurement as an example, this paper puts forward a practical method of uncertainty modeling and evaluation of CMM task oriented measurement (called SVCMM method). This method makes full use of the CMM acceptance or reinspection report and the Monte Carlo computer simulation method (MCM). The evaluation example is presented, and the results are evaluated by the traditional method given in GUM and the proposed method, respectively. The SVCMM method is verified to be feasible and practical. It can help CMM users to conveniently complete the measurement uncertainty evaluation through a single measurement cycle.</jats:p>
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spelling Li, Hongli Chen, Xiaohuai Cheng, Yinbao Liu, Houde Wang, Hanbin Cheng, Zhenying Wang, Hongtao 1335-8871 Walter de Gruyter GmbH Instrumentation Biomedical Engineering Control and Systems Engineering http://dx.doi.org/10.1515/msr-2017-0027 <jats:title>Abstract</jats:title> <jats:p>Due to the variety of measurement tasks and the complexity of the errors of coordinate measuring machine (CMM), it is very difficult to reasonably evaluate the uncertainty of the measurement results of CMM. It has limited the application of CMM. Task oriented uncertainty evaluation has become a difficult problem to be solved. Taking dimension measurement as an example, this paper puts forward a practical method of uncertainty modeling and evaluation of CMM task oriented measurement (called SVCMM method). This method makes full use of the CMM acceptance or reinspection report and the Monte Carlo computer simulation method (MCM). The evaluation example is presented, and the results are evaluated by the traditional method given in GUM and the proposed method, respectively. The SVCMM method is verified to be feasible and practical. It can help CMM users to conveniently complete the measurement uncertainty evaluation through a single measurement cycle.</jats:p> Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM Measurement Science Review
spellingShingle Li, Hongli, Chen, Xiaohuai, Cheng, Yinbao, Liu, Houde, Wang, Hanbin, Cheng, Zhenying, Wang, Hongtao, Measurement Science Review, Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM, Instrumentation, Biomedical Engineering, Control and Systems Engineering
title Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_full Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_fullStr Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_full_unstemmed Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_short Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
title_sort uncertainty modeling and evaluation of cmm task oriented measurement based on svcmm
title_unstemmed Uncertainty Modeling and Evaluation of CMM Task Oriented Measurement Based on SVCMM
topic Instrumentation, Biomedical Engineering, Control and Systems Engineering
url http://dx.doi.org/10.1515/msr-2017-0027