Applied metrology and technical expertise laboratory

The main activities of the laboratory

  • carrying out of research works on creation of procedures and software means of estimation of uncertainty of measurements during performance of tests, calibrations and technical examination;
  • conducting training seminars, refresher courses, etc. for employees of measuring, testing and calibration laboratories, metrological centers, research institutes, universities in the field of metrology, measuring equipment and technical expertise;
  • introduction of scientific developments in the field of estimating the uncertainty of measurements in the educational process;
  • preparation and publication of scientific articles, monographs, scientific manuals.

The Educational Process

The laboratory trains specialists in the first (bachelor’s), second (master’s), third (educational-scientific) and scientific levels in the specialty: 152 “Metrology and information-measuring technology”.

Bachelors are trained according to the educational program: “Quality of products, processes and software” (specialty 152 “Metrology and information and measurement technology”);

Training of masters is carried out according to the educational program: 聽“Standardization, certification, quality (specialty 152” Metrology and information and measurement technology “).

List of disciplines for which classes are held in the laboratory:

  • fundamentals of metrology and measuring technology;
  • theory of measurement uncertainty;
  • theory of assessing the quality of measurements;
  • metrology.

Major scientific achievements

C袨袨袦袝孝 issue 796UA19_2019 “Development of the Recommendation” Expression of expanded measurement uncertainty (method of kurtosis)”

Research work according to the agreement 鈩20-04 from 10.12.2020.

Scientific publications

  1. ,听 Increasing the Reliability of Evaluation of Expanded Uncertainty in Calibration of Measuring Instruments //Measurement Techniques,听2020 Volume: 63,听Issue: 6,听pp. 414-420. (Scopus, WOS). DOI.
  2. Zakharov I.P., Botsiura O.A., Patsenko M. Measurement uncertainty evaluation at mass calibration // Ukrainian Metrological Journal, 2020, No 3, 36-41 (WOS). DOI:10.24027/2306-7039.3.2020.216839.
  3. 袟邪褏邪褉芯胁 袉.袩., 效褍薪褨褏褨薪邪 孝.袙., 袩邪锌褔械薪泻芯 袙.挟., 袦邪褌胁褦褦胁邪 孝.袙. 袧械胁懈蟹薪邪褔械薪褨褋褌褜 胁懈屑褨褉褞胁邪薪褜 锌褉懈 胁懈泻芯薪邪薪薪褨 泻褨谢褜泻褨褋薪芯谐芯 褏褨屑褨褔薪芯谐芯 邪薪邪谢褨蟹褍 薪邪褋褨薪薪褟 褋芯薪褟褕薪懈泻邪 // 校泻褉邪褩薪褋褜泻懈泄 屑械褌褉芯谢芯谐褨褔薪懈泄 卸褍褉薪邪谢, 2020, 鈩3a, c. 182-185 (WOS). DOI:聽.
  4. Zakharov I.P., Botsiura O.A., Tsybina I.Yu., Zakharov 袨.袨. Measurement uncertainty evaluation at micrometer calibration // Ukrainian Metrological Journal, 2020, No 3a, 196-201 (WOS). DOI:聽.
  5. Zakharov I., Botsiura O., Semenikhin , Fomenko V. Considering of the input quantities distributions in the procedure for measurements uncertainty evaluating on the example of resistance box calibration // Ukrainian Metrological Journal, 2020, No 4, c. 3-8 (WOS). DOI: 10.24027/2306-7039.4.2020.224189.
  6. Rawashdeh L.A.M., Zakharov I.P., Zaporozhets O.V. Nonlinearity Correction in Dy-namic Measuring Devices Using Neural Network Models // Pomiary Automatyka Robotyka, 2020, 鈩4, pp. 57-60. DOI: 10.14313/PAR_238/57.
  7. Zakharov I., Neyezhmakov P., Botsiura O.聽Expanded Uncertainty Evaluation Taking into Account the Correlation Between Estimates of Input Quantities // Ukrainian Metrological Journal, 2021, No 1, 4-8. DOI: (WOS).
  8. Zakharov I., Botsyura O., Semenikhin V. Method of kurtosis in estimating the measurement uncertainty during calibration of the electrical resistance measures using a potentiometer // Ukrainian Metrological Journal, 2021, No 2, 30-34. DOI: https://doi.org/ 0.24027/2306-7039.2.2021.236078 (WOS).
  9. Zakharov I., Botsiura O.A., Semenikhin V.S. Instrumental uncertainties accounting in identification of nonpolynomial calibration dependence // 袧械芯锌褉械写械谢械薪薪芯褋褌褜 懈蟹屑械褉械薪懈泄: 薪邪褍褔薪褘械, 薪芯褉屑邪褌懈胁薪褘械, 锌褉懈泻谢邪写薪褘械 懈 屑械褌芯写懈褔械褋泻懈械 邪褋锌械泻褌褘. 孝械蟹懈褋褘 写芯泻谢邪写芯胁 XVII 袦械卸写褍薪邪褉芯写薪芯谐芯 薪邪褍褔薪芯-褌械褏薪懈褔械褋泻芯谐芯 褋械屑懈薪邪褉邪. 7 褋械薪褌褟斜褉褟 2020 谐., 小芯蟹芯锌芯谢褜, 袘芯谢谐邪褉懈褟, 褋. 3-4.
  10. Zakharov I.P., Botsiura O.A., Tsybina I.YU, Zakharov 袨.袨. Measurement uncertainty evaluation by kurtosis method at micrometer calibration // 袧械芯锌褉械写械谢械薪薪芯褋褌褜 懈蟹屑械褉械薪懈泄: 薪邪褍褔薪褘械, 薪芯褉屑邪褌懈胁薪褘械, 锌褉懈泻谢邪写薪褘械 懈 屑械褌芯写懈褔械褋泻懈械 邪褋锌械泻褌褘. 孝械蟹懈褋褘 写芯泻谢邪写芯胁 XVII 袦械卸写褍薪邪褉芯写薪芯谐芯 薪邪褍褔薪芯-褌械褏薪懈褔械褋泻芯谐芯 褋械屑懈薪邪褉邪. 7 褋械薪褌褟斜褉褟 2020 谐., 小芯蟹芯锌芯谢褜, 袘芯谢谐邪褉懈褟, 褋. 19-20.
  11. 袟邪褏邪褉芯胁 袉.袩., 袘芯褑褞褉邪 袨.袗., 袩邪褑械薪泻芯 袨.袦. 袨褑褨薪褞胁邪薪薪褟 薪械胁懈蟹薪邪褔械薪芯褋褌褨 胁懈屑褨褉褞胁邪薪褜 锌褨写 褔邪褋 泻邪谢褨斜褉褍胁邪薪薪褟 谐懈褉 // 袧械芯锌褉械写械谢械薪薪芯褋褌褜 懈蟹屑械褉械薪懈泄: 薪邪褍褔薪褘械, 薪芯褉屑邪褌懈胁薪褘械, 锌褉懈泻谢邪写薪褘械 懈 屑械褌芯写懈褔械褋泻懈械 邪褋锌械泻褌褘. 孝械蟹懈褋褘 写芯泻谢邪写芯胁 XVII 袦械卸写褍薪邪褉芯写薪芯谐芯 薪邪褍褔薪芯-褌械褏薪懈褔械褋泻芯谐芯 褋械屑懈薪邪褉邪. 7 褋械薪褌褟斜褉褟 2020 谐., 小芯蟹芯锌芯谢褜, 袘芯谢谐邪褉懈褟, 褋. 20.
  12. 袟邪褏邪褉芯胁 袉.袩., 效褍薪褨褏褨薪邪 孝.袙., 袩邪锌褔械薪泻芯 袙.挟., 袦邪褌胁褦褦胁邪 孝.袙. 袧械胁懈蟹薪邪褔械薪褨褋褌褜 胁懈屑褨褉褞胁邪薪褜 锌褉懈 胁懈泻芯薪邪薪薪褨 泻褨谢褜泻褨褋薪芯谐芯 褏褨屑褨褔薪芯谐芯 邪薪邪谢褨蟹褍 薪邪褋褨薪薪褟 褋芯薪褟褕薪懈泻邪 // 袧械芯锌褉械写械谢械薪薪芯褋褌褜 懈蟹屑械褉械薪懈泄: 薪邪褍褔薪褘械, 薪芯褉屑邪褌懈胁薪褘械, 锌褉懈泻谢邪写薪褘械 懈 屑械褌芯写懈褔械褋泻懈械 邪褋锌械泻褌褘. 孝械蟹懈褋褘 写芯泻谢邪写芯胁 XVII 袦械卸写褍薪邪褉芯写薪芯谐芯 薪邪褍褔薪芯-褌械褏薪懈褔械褋泻芯谐芯 褋械屑懈薪邪褉邪. 7 褋械薪褌褟斜褉褟 2020 谐., 小芯蟹芯锌芯谢褜, 袘芯谢谐邪褉懈褟, 褋. 20-21.
  13. Zakharov I., Botsiura O. Error vs Uncertainty: mathematical, terminological and conceptual aspects of evaluating the characteristics of measurement accuracy //Metrology and Metrology Assurance (MMA-2020): Proceedings of 2020 XXX International Scientific Symposium, Sozopol, Bulgaria, 7-11 Sept. 2020, pp. 1-5 (Scopus). DOI:10.1109/MMA49863.2020.9254248.
  14. Zakharov I., Serhiienko M., Chunikhina T. Measurement uncertainty evaluation by kurtosis method at calibration of a household water meter // Metrology and Metrology Assurance (MMA-2020): Proceedings of 2020 XXX International Scientific Symposium, Sozopol, Bulgaria, 7-11 Sept. 2020, pp. 83-86. DOI: 10.1109/MMA49863.2020.9254260 (Scopus).
  15. Zakharov I., Neyezhmakov P. The analysis and correction of transfer function of film measuring transducers of the microwave power // Sensor and Measurement Science International (SMSI 2021): Proceedings of 2021 Digital Conference, 3-6 May 2021, pp. 258-259. DOI:5162/SMSI2021/D3.4.
  16. Zakharov I, Neyezhmakov P, Semenikhin V. Identification of Non-Polynomial Calibration Dependence Accounting for Instrumental Uncertainties of Measuring Instruments // Measurement 2021: Proceedings of the 13th International Online Conference on Measurement, May 17-19, 2021, Smolenice Castle, Slovakia, pp. 159-162.

Scientific seminars

  • International scientific and technical conference “Metrology, information and measurement technologies and systems”
Igor Zakharov

Supervisor

Igor Zakharov

Head of Information and Measurement Technology Department, 褔谢械薪 袙褔械薪芯褩 褉邪写懈, Doctor of Technical Sciences, Professor

Contacts

Building “Z”,

3rd floor,

room 19

igor.zakharov@nure.ua

Employees

Employees