Informational uncertainty of measuring instruments

IF 0.1 Q4 INSTRUMENTS & INSTRUMENTATION

Ukrainian Metrological Journal Pub Date : 2021-12-30 DOI:10.24027/2306-7039.4.2021.250399

Gennadii Manko, Elena Titova

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Abstract

Recently, there has been a revival of interest in the use of the information approach in the theory of measurements. Unlike the traditional approach, information theory does not evaluate error or uncertainty, but entropy and the amount of information. This article analyzes a number of recent publications that develop ideas for the information approach. The limitations and disadvantages of both the entropy approach and the concept of uncertainty are indicated. As a compromise solution, it is proposed to use a criterion based on the Bongard’s uncertainty and useful information. The concept of information uncertainty is proposed, which is estimated by the amount of negative useful information, that is, misinformation introduced by the measuring instrument. Some methods for calculating information uncertainty are described. The problems of using the uncertainty approach are noted. This approach does not imply the use of such a generalized characteristic of measuring instruments as an accuracy class. The article proposes an analogue of the accuracy class in the form of relative informational uncertainty, expressed as a percentage. This will make it possible to evaluate the quality of the measuring instrument by a single parameter, the calculation of which requires a minimum of computational operations.

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测量仪器的信息不确定度

最近，人们对在测量理论中使用信息方法重新产生了兴趣。与传统方法不同，信息论不评估误差或不确定性，而是熵和信息量。本文分析了一些最近的出版物，这些出版物提出了信息方法的思想。指出了熵法和不确定性概念的局限性和缺点。作为一种折衷的解决方案，提出了一种基于邦加德不确定性和有用信息的准则。提出了信息不确定度的概念，通过测量仪器引入的负有用信息即错误信息的数量来估计信息不确定度。介绍了计算信息不确定性的几种方法。指出了使用不确定度方法的问题。这种方法并不意味着使用测量仪器的这种广义特性作为精度等级。本文以相对信息不确定性的形式提出了准确度类的类比，以百分比表示。这将使通过单个参数评估测量仪器的质量成为可能，其计算需要最少的计算操作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ukrainian Metrological Journal INSTRUMENTS & INSTRUMENTATION-

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