FOREIGN EXPERIENCE AND OPTIMAL METHODS IN CALIBRATION OF MEASURING INSTRUMENTS
Keywords:
Calibration of measuring instruments, automatic calibration systems, statistical analysisAbstract
The calibration of measuring instruments is a crucial process required to obtain accurate and reliable results in any scientific, industrial, and technical field. This article explores the optimal methods for calibrating measuring instruments. It examines the primary methods used in calibration, including direct and indirect calibration, automatic systems, and statistical analysis approaches. Furthermore, the article discusses the potential use of modern algorithms and control systems to optimize the calibration process. The paper highlights the role and significance of contemporary methods in improving the efficiency of the calibration of measuring instruments and reducing errors. As a result, innovative approaches are proposed to further optimize the calibration processes and enhance their effectiveness.
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References
1. ISO 17025:2017. General requirements for the competence of testing and calibration laboratories. International Organization for Standardization (ISO), 2017.
2. ISO 17025 standartiga muvofiq kalibrlash va sinov laboratoriyalarining talablariga oid asosiy me'yorlar.
3. Toirov, B. B. (2021). AXBOROT TEXNOLOGIYALARI MAHSULOT SIFATINI BOSHQARISH VOSITASI SIFATIDA. Science and Education, 2(2), 338-343.
4. Snyder, L. V., & Chen, J. (2009). Measurement and Control: Calibration Methods for Instrumentation. O'lchov vositalarini kalibrlash va nazorat qilish metodlari haqida ilmiy maqola. Instrumentation Science & Technology, 37(5), 39-56.
5. Guide to the Realization of National Measurement Standards. Milliy o'lchov standartlarini amalga oshirish bo'yicha qo'llanma, BIPM tomonidan nashr etilgan. Bureau International des Poids et Mesures, 2019.
6. Tairov, B. B. (2022). Standartlashtirishning tatbiq etilishi dolzarb muammo sifatida. Science and Education, 3(11), 422-428.
7. Calibration Methods and Procedures for Measurement Instruments. National Institute of Standards and Technology NIST tomonidan chiqarilgan o'lchov vositalarini kalibrlash usullari va tartib-taomillari haqidagi qo'llanma. (NIST), 2020.
8. Lange, J., & Mathiesen, M. (2018). Statistical Approaches to Calibration in Metrology. Metrologiyada kalibrlash uchun statistik yondashuvlar. Journal of Statistical Physics, 174(6), 1089-1102.
9. Stupakov, O. A., & Shalygin, S. M. (2017). Automated Calibration Systems and Their Role in Modern Measurement Technology. Avtomatlashtirilgan kalibrlash tizimlari va ularning zamonaviy o'lchov texnologiyalaridagi roli. Journal of Automation and Information Sciences, 49(3), 52-61.
10. Abdirahim o‘g‘li, Q. Z. (2024). O'LCHOV VOSITALARINI KALIBRLASH SERTIFIKATIGA QO’YILGAN TALABLAR VA METODLARI Xo ‘jjiyev Ma’murjon Yangiboyevich Buxoro muhandislik-texnologiya instituti “Metrologiya va standartlashtirish” kafedrasi (PhD) katta o ‘qituvchisi. Development of science, 367.
11. ISO 9001:2015. Quality Management Systems - Requirements. Sifat menejmenti tizimlari va ularning o'lchov vositalarini kalibrlashdagi ahamiyati. International Organization for Standardization (ISO), 2015.
12. Khojjiyev, M., & Karshiyev, Z. (2024). METHODOLOGY OF INSPECTION OF GAS METERS. Multidisciplinary Journal of Science and Technology, 4(11), 20-23.
13. Murray, T.A.(2005). Principles of Instrument Calibration. O'lchov vositalarini kalibrlash prinsiplarini o'rganish. Measurement Science Review, 5(2), 47-59.
14. P.J.Green, D.R.Fox, &A.J.C.Hodge (2012). Improving Calibration Techniques: A Review of Recent Developments. Kalibrlash texnikalarini yaxshilash bo'yicha so'nggi rivojlanishlar va metodlar. IEEE Transactions on Instrumentation and Measurement, 61(7), 1820-1827.
