用最小二乘法对测量结果进行平差

Measurements infrastructure Pub Date : 2021-05-20 DOI:10.33955/v1(2021)-001

O. Samoilenko, Y. Kuzmenko

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引用次数: 4

摘要

提出了处理国际计量委员会(CIPM)、区域计量组织(RMO)或补充比较从实验室间比较和校准的能力测试中获得的测量结果的方法。作者称之为最小二乘法平差(LSM)。每个特定实验室的每个测量标准的加法和乘法参数将是这次调整的结果。以及每个工件的参数。测量标准的参数是由比较得到的它们的加性和乘性等效度，以及由校准得到的系统误差(偏差)的估计。工件的参数是来自比较的关键比较参考值和来自校准的指定量值。调整被认为是解决在不同的比较水平(CIPM, RMO或补充)处理大量具有许多测量标准的同质测量的问题的一种方法，包括连接问题。考虑了四种不同的调整情况。第一个是自由调整的例子。之所以这样命名，是因为除了测量的不确定性外，所有参与者都没有任何优势。第二种是固定的调整情况。RMO和补充比较的测量结果与参与CIPM关键比较的特定实验室的测量标准的加法和乘法参数紧密相关。第三个例子是相关方程的平差。它不像固定情况那样，将新的比较结果与以前的或其他一些比较结果严格地联系起来。这意味着比较的新结果受到已知的加法和乘法参数的影响，反之亦然。第四个是带有附加总结方程的自由平差情况。在这种情况下，某些检验方程被添加到方程组中。因此，参与比较的特定实验室的所有测量标准的参数和乘以它们的权重应该等于零。

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The measurements results adjustment by the Least Square Method

The method for processing of the measurement results obtained from Comite International des Poids et Measures (CIPM) Key, Regional Metrology Organizations (RMO) or supplementary comparisons, from the proficiency testing by interlaboratory comparisons and the calibrations is proposed. It is named by authors as adjustment by least square method (LSM). Additive and multiplicative parameters for each measuring standard of every particular laboratory will be the results of this adjustment. As well as the parameters for each artifact. The parameters of the measurements standards are their additive and multiplicative degrees of equivalence from the comparison and the estimations of the systematic errors (biases) from calibrations. The parameters of the artifacts are the key comparisons reference value from the comparison and the assigned quantity values from the calibrations. The adjustment is considered as a way to solving a problem of processing the great amount of homogeneous measurements with many measuring standards at a different comparison levels (CIPM, RMO or supplementary), including connected problems. Four different cases of the adjustments are considered. The first one is a free case of adjustment. It was named so because of the fact that none of participants has any advantage except their uncertainties of measurements. The second one is a fixed case of adjustment. Measuring results of RMO and supplementary comparisons are rigidly linked to additive and multiplicative parameters of measuring standards of particular laboratories participated in CIPM key comparisons. The third one is a case of adjustment with dependent equations. This one is not so rigidly linked of the new comparisons results to previous or to some other comparisons as for fixed case. It means that the new results of comparisons are influenced by the known additive and multiplicative parameters and vice versa. The fourth one is a free case of adjustment with additional summary equations. In that case certain checking equations are added to the system of equations. So, the sum of parameters multiplied by their weights of all measurement standards for particular laboratories participated in comparisons should be equal to zero.

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Measurements infrastructure

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