SU1541561A1 - Method of estimating results of measuring - Google Patents

Abstract

The invention relates to a measurement technique and is intended to reduce the measurement error. The aim of the invention is to accelerate the process of obtaining a reliable estimate of the value of a parameter. The goal is achieved by conducting an initially double measurement of the value of a physical parameter and, in the presence of gross measurement errors, carrying out additional measurements to obtain pairs of results that do not contain gross measurement errors, which are used to estimate the value of the physical parameter. 1 hp f-ly, 1 ill.

Description

The invention relates to the field of measurement technology and is intended to increase the reliability of the pe-. measurements of slowly varying physical parameters by reducing the uncorrelated random component of the measurement error.

The purpose of the invention is to accelerate the process of obtaining a reliable estimate of the value of a parameter.

The goal is achieved by the fact that, according to the method of increasing the reliability of measurement results, two measurements were initially made, the presence of gross errors in the results was assessed by comparing the difference of results with a predetermined setpoint, and if there are outliers in the first pair of values, an additional measurement is performed, followed by an estimate of the presence of emissions in all newly formed pairs of measurement results (2-3 and 1-3 results), additional measurements with evaluation are repeated until a pair of results is obtained from measurements that do not contain emissions, and which determine the desired. estimate of the parameter value (for example, arithmetic averaging).

The maximum possible number of measurements is the number of layouts of the setpoint value in the interval of permissible values of the parameter plus one. With this number of measurements, the last result falls on a distance smaller than the value of the set point from one of the previous results and the measurement stops.

The number of measurements can be chosen smaller limit, but greater than two. Moreover, in the event that a pair of results that do not contain outliers are not found, the average value is produced by the two closest to each other.

The drawing shows the algorithm for implementing the method.

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In blocks 1 and 2, an initial double measurement is performed with a clip of the results in the first two elements of the measurement results array. In block 3, the initial measurement counter i is set up. In block 4, the initial values of the comparison counter of the counter, m, of non-emission values are set, as well as the sending of the last measurement result to the adder S.

In block 5, a comparison is made with the setpoint K of the difference of the measurement results with the indices i and j.

In block 6, the sum of the measurement results, which do not contain emissions among them, is accumulated, and the counter t is incremented.

In block 7, the counter j is incremented.

In block 8, a check is performed for the equality of the contents of the comparison counter j with the contents of the counter of the measurements taken 1.

In block 9, a check is made for the presence after viewing all the results of measuring at least a pair of values that do not contain emissions.

In block 10, a determination is made of the estimated value of the parameter being measured.

In block 11, the measured counter i is incremented. In block 12, additional measurements are carried out with a reference to the element with index i of the array of measurement results R.

The actions of blocks 1-5 are performed sequentially, to block 6, control is transferred only if there is no outlier in the pair of values under consideration, after (or instead of) this, the actions of blocks 7 and 8 are performed.

Upon completion of viewing all measurement results, control is transferred to block 9, otherwise viewing continues and control is transferred to block 5. If at least one pair of values was found without any outliers, control is transferred to block 10, where the algorithm ends with finding the desired estimate otherwise, the action of blocks 11 and 12 will be rectified and, for viewing all newly formed pairs of measurement results, control will be transferred to block 4.

The method allows you to get the maximum number of pairs that do not contain

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emissions, equal to two, and containing three different values, when the new measurement result lies on the real straight line between the two previous ones, being from each of them at a distance smaller than K.

The value of the setpoint K is chosen from the equality K 2 (5u2 | 2 (C, where b is the rms dispersion of the measurement results (is a characteristic of the instrument and the measuring line, can be determined both by calculation and experimentally); C is the critical value for the sample length 2 and the significance level oi of the statistic t - (Smirnov-Grubbs criterion; Хма1 (С is the maximum sampling value; Хс, is the average sampling value; for п 2, statistics

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becomes t, becoming due to a two-way module).

Claims (2)

1. A method of evaluating measurement results, consisting in multiple measurement of a physical parameter with the subsequent elimination of erroneous results and the acceptance of the true value of the parameter value of the statistical estimate of the average value of the remaining results, the difference between which is less than the specified setpoint, characterized in that in order to speed up the process of estimating the value of a parameter, two measurements were initially made, the difference between the results is compared. measurements with a given setpoint and establish the accuracy of the measurement results; if the result is erroneous, additional measurements are made to obtain accurate results; the average value is estimated from the results of measurements that do not contain errors. 2. The method according to claim 2, wherein the measurement process is limited to a number of measurements greater than two but not more than a number equal to the result of dividing the value of the interval of permissible values of the parameter by the value of the setpoint, and estimating the average value if there are errors in the measurements results of the two closest measurements.