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Measurement Techniques

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05-12-2018 | GENERAL PROBLEMS OF METROLOGY AND MEASUREMENT TECHNIQUE

Level of Verification of Measuring Instruments and a Posteriori Reliability of Control

Author: S. F. Levin

Published in: Measurement Techniques | Issue 9/2018

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Abstract

Problems that arise in the application of international and national standards for estimation of the quality of check tests of measuring instruments are considered.

previous article State Primary Standard of the Unit of Surface Density and Unit of Mass Fraction of Elements in Coatings Get 168–2015

next article Analysis of the Parameters That Determine the Reliability of the Results of a Verification of Measuring Instruments

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In mathematical statistics, when the confidence probability P_C(θ) for an interval estimate of a parameter θ of a probability distribution depends on the value of an estimated parameter, the confidence interval characterizes the lower bound of the confidence probability inf P_C(θ) = P_C, which is called the confidence coefficient or confidence level.

The exception in [19] is that of “definitional uncertainty” from an international dictionary. There are no formulas for the definitional uncertainty, though there is the term, “degree of detail,” though it is not known what it refers to, possibly the standard deviation of the error of inadequacy?

Here and below the results of calculations are presented in protocol form.

MI 187–86, MU GSI. Measuring Instruments. Reliability Criterion and Parameters of Verification Technique.

MI 1317–2004, GSI. Results and Characteristics of Measurement Error. Forms of Representation. Methods of Application in Tests of Samples of Products and Control of Their Parameters.

MI 188–86, MU GSI. Measuring Instruments. Establishing the Values of the Parameters of Verification Techniques.

MI 2916–2005, GSI. Identification of Probability Distributions in the Solution of Measurement Problems.

ISO 10576-1:2003, Guide Lines for the Evalution of Conformity with Specified Requirements. Part 1: General Principles (GOST R ISO 10576-1–2006, Statistical Methods. Guide to the Estimation of Conformity to Established Requirements. Part 1. General Principles).

Guide to the Expression of Uncertainty in Measurement, ISO, Switzerland (1995); Guide to the Expression of Uncertainty in Measurement [Russian translation], VNIIM (1999).

ISO 3534.1–93, Statistical Methods. Probability and General Statistical Terms. Terms and Definitions (GOST R 50779.10–2000, Statistical Methods, Probability and the Foundations of Statistics. Terms and Definitions).

GOST R 50779.21–2004, Statistical Methods. Rules for Determination and Methods of Calculation of Statistical Characteristics from Sample Data. Part 1. Normal Distribution.

GOST R ISO 16269-6–2005, Statistical Methods. Statistical Representation of Data. Determination of Statistical Tolerance Intervals.

10.

GOST R 50779.11–2000 (ISO 3534.2–93), Statistical Methods. Statistical Quality Control. Terms and Definitions.

11.

ISO/IEC Guide 98-3:2008. Uncertainty of Measurement. Part 3: Guide to the Expression of Uncertainty in Measurement (GOST R 54500.3–2011/ISO/MEK 98-3:2008 Guide, Uncertainty in Measurement. Part 3. Guide to the Expression of Uncertainty in Measurement.)

12.

GOST R ISO 5725–2002, Accuracy (correctness and precision) of Methods and Results of Measurements.

13.

H. Sheffe, Dispersion Analysis [Russian translation], Nauka, Moscow (1980).

14.

S. F. Levin, “Uncertainty in the narrow and in the broad sense of results of verification of measuring instruments,” Izmer. Tekhn., No. 9, 15–19 (2007).

15.

S. F. Levin, “Problem of confidence probability,” Izmer. Tekhn., No. 9, 33–39 (2008).

16.

S. F. Levin, “Assurance of the uniformity of measurements in tests of measuring instruments,” Izmer. Tekhn., No. 10, 13–17 (2008).

17.

S. F. Levin, “Statistical methods and metrological certification of computer programs used in measurement systems,” Izmer. Tekhn., No. 11, 14–19 (2008).

18.

S. F. Levin, “What in fact can save leading specialists in the introduction of uncertainty in domestic measurements,” Izmer. Tekhn., No. 12, 61–64 (2008).

19.

RMG 29–2013, GSI. Metrology. Basic Terms and Definitions.

20.

JCGM 100:201X (CD), Evaluation of Measurement Data, Guide to the Expression of Uncertainty in Measurement.

21.

G. Korn and T. Korn, Handbook on Mathematics for Scientific Workers and Engineers [Russian translation], Nauka, Moscow (1980).

22.

P. V. Novitskii and I. A. Zograf, Estimation of the Errors of Measurement Results, Energoatomizdat, Leningrad (1965).

23.

R 50.1.037–2002, Applied Statistics. Rules for Validation of Compliance of a Trial Distribution with a Theoretical Distribution. Part II. Nonparametric Criteria.

24.

GOST 19919–74, Control of the Automatic Technical State of Articles in Aviation Engineering. Terms and Definitions.

25.

GOST R 8.731–2010, GSI. Systems of Permissible Control. Basic Assumptions.

26.

GOST 8.009–84, GSI. Normalized Metrological Characteristics of Measuring Instruments.

27.

R.50.2.004–2000, GSI. Determination of the Characteristics of Mathematical Models of Relationships Between Physical Quantities in the Solution of Measurement Problems. Basic Assumptions.

28.

A. N. Shiryaev, Statistical Sequential Analysis, Nauka, Moscow (1976), 2nd ed.

29.

F. Mosteller and J. Tukey, Analysis of Data and Regression [Russian translation], Finansy i Statistika, Moscow (1982).

Title: Level of Verification of Measuring Instruments and a Posteriori Reliability of Control
Author: S. F. Levin
Publication date: 05-12-2018
Publisher: Springer US
Published in: Measurement Techniques / Issue 9/2018
Print ISSN: 0543-1972
Electronic ISSN: 1573-8906
DOI: https://doi.org/10.1007/s11018-018-1516-0

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