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Experience in Creating Computer Training Programs for Metrologists

Received: 29 April 2022     Accepted: 22 July 2022     Published: 31 August 2022
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Abstract

In the summer of 2001, a description of the international project COMET (EU) was presented, aimed at developing multimedia for teaching in the field of measurements and metrology. The introduction of multimedia for teaching in the field of metrology and measurements is relevant, as it allows for distance learning for students. Metrology and measurement has a key position in science, research, production, testing and certification. Information and communication technologies make it possible to effectively use both traditional and innovative means and forms of education. The use of information technology makes it possible to create distance learning for students. Modeling of measuring equipment and software development are introduced when creating computer laboratory work, which allows you to get a good result. The article deals with the issue of using computer training programs in the preparation of metrologists at the Department of Information and Measurement Technologies of the National Technical University of Ukraine "Kyiv Polytechnic Institute named after. I. Sikorsky", work started in the early 2000s. A simulation program for computerized laboratory work used in the course "Testing and conformity assessment" in the preparation of bachelors. When studying the discipline, there are difficulties associated with the need to acquire skills to work on real physical devices and layouts. Therefore, simulation models of measuring instruments are as close as possible to real instruments. When verifying multivalued resistance measures, DC bridges and resistance comparators complete with reference resistance measures; DC potentiometers combined with resistance measures. This work is devoted to the verification of a multi-valued resistance measure using a resistance comparator and a set of reference multi-valued resistance measures. The work includes: theoretical information, description of the simulation model, technical and metrological characteristics of measuring instruments used in the measurement; methods for determining the parameters of verification procedures; description of the procedure for conducting measurement experiments.

Published in Mathematics and Computer Science (Volume 7, Issue 4)
DOI 10.11648/j.mcs.20220704.13
Page(s) 75-80
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Belief Verification, Measure, Comparator, Comparison, Multi-valued Measure, Single-Valued Measure, Error

References
[1] MI 1695-87 GSI. Methodical instructions. Measures of electrical resistance are multivalued, used in DC circuits. Verification technique - M: Publishing house of standards, 1988, - 10 p.
[2] DSTU 3712-98 State verification scheme for electrical resistance verification tools. Instead of GOST 8.028-86; entered. 01-01-1999. – K.: State consumer standard of Ukraine. – 5 s.
[3] MI 187-86 Reliability criteria and parameters of verification methods.-M.Iz-vo standards, 1988-12.
[4] MI 188-86. Establishing the values of the parameters of verification methods -M: Publishing House of Standards-1988, - 9 p.
[5] E. V. Sviridov, Ya. I. Listratov, N. A. Vinogradova Development of applied software in the environment. Moscow: MEI Publishing House, 2005 - 50 p.
[6] Zatoka S. A. CERTIFICATE about the registration of copyright for the work. No. 61135 Computer program "Verification of a multivalued measure of resistance by comparison using a resistance comparator" 11. 05. 2015.
[7] M. Dorozhovets, B. Motalo, B. Stadnik, V. Vasilyuk, R. Borek, A. Kovalchik Fundamentals of metrology and measuring technology. Volume 2 Measuring equipment, Lviv: Publishing house of the National University "Lviv Polytechnic", 2005-654.
[8] L. M. Fedorov, N. Ya. Tsygan, V. I. Michurin Metrological support of electronic means of measuring electrical quantities. Reference book. Leningrad: ENERGOATOMIZDAT Leningrad branch, 1988-191.
[9] G. D. Burdun, B. N. Markov Fundamentals of metrology. Moscow: Standards Publishing House, 1972-311.
[10] DSTU IEC 60564: 2015 DC bridges for measuring resistance (IEC 60564: 1977, IDT) Kyiv: Derzhspozhivstandart, 2016.
[11] L. I. Lyubimov, I. D. Forsilova Verification of means of electrical quantities Leningrad: Energia Publishing House, 1978-189.
[12] R. F. Akiaev, L. I. Lyubimov, A. M. Panasyuk - Mirovich. Verification of measuring instruments for electrical and magnetic quantities Moscow: Standards Publishing House, 1983-255.
[13] DSTU GOST 22261: 2008. Interstate standard. Instruments for measuring electrical and magnetic quantities. General specifications (introduced without changes). Minsk: Interstate Council for Standardization, Metrology and Certification, 2009-51.
[14] GOST 23737-79 Measures of electrical resistance. General specifications - M: Publishing house of standards, 1985.
[15] DSTU-N RMG 51: 2006 (RMG 51-2002, IDT). Metrology. Documents for methods of verification of measuring instruments. Basic provisions (RMG 51-2002, IDT).
[16] COMPUTER SIMULATION OF FREQUENCY MEASUREMENT METHODS IX International Scientific and Practical Conferenc «TRENDS OF DEVELOPMENT MODERN SCIENCE AND PRACTICE»November 6-19, 2021, Stockholm, Sweden.
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  • APA Style

    Svetlana Zatoka. (2022). Experience in Creating Computer Training Programs for Metrologists. Mathematics and Computer Science, 7(4), 75-80. https://doi.org/10.11648/j.mcs.20220704.13

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    ACS Style

    Svetlana Zatoka. Experience in Creating Computer Training Programs for Metrologists. Math. Comput. Sci. 2022, 7(4), 75-80. doi: 10.11648/j.mcs.20220704.13

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    AMA Style

    Svetlana Zatoka. Experience in Creating Computer Training Programs for Metrologists. Math Comput Sci. 2022;7(4):75-80. doi: 10.11648/j.mcs.20220704.13

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  • @article{10.11648/j.mcs.20220704.13,
      author = {Svetlana Zatoka},
      title = {Experience in Creating Computer Training Programs for Metrologists},
      journal = {Mathematics and Computer Science},
      volume = {7},
      number = {4},
      pages = {75-80},
      doi = {10.11648/j.mcs.20220704.13},
      url = {https://doi.org/10.11648/j.mcs.20220704.13},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.mcs.20220704.13},
      abstract = {In the summer of 2001, a description of the international project COMET (EU) was presented, aimed at developing multimedia for teaching in the field of measurements and metrology. The introduction of multimedia for teaching in the field of metrology and measurements is relevant, as it allows for distance learning for students. Metrology and measurement has a key position in science, research, production, testing and certification. Information and communication technologies make it possible to effectively use both traditional and innovative means and forms of education. The use of information technology makes it possible to create distance learning for students. Modeling of measuring equipment and software development are introduced when creating computer laboratory work, which allows you to get a good result. The article deals with the issue of using computer training programs in the preparation of metrologists at the Department of Information and Measurement Technologies of the National Technical University of Ukraine "Kyiv Polytechnic Institute named after. I. Sikorsky", work started in the early 2000s. A simulation program for computerized laboratory work used in the course "Testing and conformity assessment" in the preparation of bachelors. When studying the discipline, there are difficulties associated with the need to acquire skills to work on real physical devices and layouts. Therefore, simulation models of measuring instruments are as close as possible to real instruments. When verifying multivalued resistance measures, DC bridges and resistance comparators complete with reference resistance measures; DC potentiometers combined with resistance measures. This work is devoted to the verification of a multi-valued resistance measure using a resistance comparator and a set of reference multi-valued resistance measures. The work includes: theoretical information, description of the simulation model, technical and metrological characteristics of measuring instruments used in the measurement; methods for determining the parameters of verification procedures; description of the procedure for conducting measurement experiments.},
     year = {2022}
    }
    

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    Y1  - 2022/08/31
    PY  - 2022
    N1  - https://doi.org/10.11648/j.mcs.20220704.13
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    AB  - In the summer of 2001, a description of the international project COMET (EU) was presented, aimed at developing multimedia for teaching in the field of measurements and metrology. The introduction of multimedia for teaching in the field of metrology and measurements is relevant, as it allows for distance learning for students. Metrology and measurement has a key position in science, research, production, testing and certification. Information and communication technologies make it possible to effectively use both traditional and innovative means and forms of education. The use of information technology makes it possible to create distance learning for students. Modeling of measuring equipment and software development are introduced when creating computer laboratory work, which allows you to get a good result. The article deals with the issue of using computer training programs in the preparation of metrologists at the Department of Information and Measurement Technologies of the National Technical University of Ukraine "Kyiv Polytechnic Institute named after. I. Sikorsky", work started in the early 2000s. A simulation program for computerized laboratory work used in the course "Testing and conformity assessment" in the preparation of bachelors. When studying the discipline, there are difficulties associated with the need to acquire skills to work on real physical devices and layouts. Therefore, simulation models of measuring instruments are as close as possible to real instruments. When verifying multivalued resistance measures, DC bridges and resistance comparators complete with reference resistance measures; DC potentiometers combined with resistance measures. This work is devoted to the verification of a multi-valued resistance measure using a resistance comparator and a set of reference multi-valued resistance measures. The work includes: theoretical information, description of the simulation model, technical and metrological characteristics of measuring instruments used in the measurement; methods for determining the parameters of verification procedures; description of the procedure for conducting measurement experiments.
    VL  - 7
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Author Information
  • Department of Information and Measurement Technologies, National Polytechnic Institute named after Igor Sikorsky, Kyiv, Ukraine

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