KR101284096B1 - Method for measuring radiation - Google Patents

Abstract

PURPOSE: A radiation measuring method is provided to suppress a measurement value change becoming irregular according to the passage of time and to remarkably improve a measurement error when measuring a dose rate or radiation in a low level radiation field. CONSTITUTION: A radiation measuring method is as follows. Radiation measurement values measured by a measuring device at each period are stored (S100). An average measurement rate of the measurement values is obtained (S200). A real average measurement rate is obtained by subtracting an offset measurement rate from the average measurement rate (S300). The real average measurement rate is converted into a dose rate or radiation (S400). If the measurement value is zero or a preset value and less at a predetermined period, the measurement value is replaced into one or a specific constant. [Reference numerals] (AA) Substitute with 1 or a specific constant; (BB) Zero or a preset value and less; (CC) Substitute with 1 or a specific constant; (S100) Record measurement values (X (i)) measured by a measuring device in a cycle and substitute the measurement value with one or a specific constant if the measurement value of a predetermined cycle is zero or a preset value and less.; (S200) Calculate an average measurement rate of the measurement values; (S300) Calculate a real average measurement rate by subtracting an offset measurement rate from the average measurement rate; (S400) Convert the real average measurement rate into a dose rate or radiation

Description

Radiation Measurement Method {METHOD FOR MEASURING RADIATION}

The present invention relates to a radiation measurement method, and more particularly, to a radiation measurement method for suppressing irregular measurement value fluctuations over time and improving measurement errors when measuring a dose rate or radiation in a low level radiation field.

In the case of conventional radiometers, especially when a small radiation detector is used, the detection sensitivity is low, and thus the dose rate of the natural background level or the radiation coefficient measured from the detector at the time of radiation measurement is small. And the dose rate or radiation of the instrument converted from the coefficient value also has a large deviation and error.

In addition, even when applying a filter such as a moving average to remove the irregularities of the measured values to determine the average trend change of the measured values, if the specific measured data is 0 or very small, the deviation of the average value of the data may be reduced. There is a disadvantage that this becomes large, which in turn lowers the reliability of the instrument measurements.

An object of the present invention devised to solve the above problems is to provide a radiation measuring method that suppresses irregular measurement value fluctuations over time and improves measurement errors when measuring a dose rate or radiation in a low level radiation field with a radiometer. To provide.

According to one aspect of the present invention, there is provided a radiation measuring method comprising: a first step of storing a radiation count value (X (i)) measured with a period (t) meter; A second step of obtaining an average coefficient RA of the coefficient value X (i); A third step of obtaining a true average coefficient (RR) by subtracting an offset coefficient (RO) from the average coefficient ratio (RA); And a fourth step of converting the true average coefficient (RR) into a dose rate or radiation (f (RR)).

In the radiation measuring method of the present invention, in the first step, if the count value X (i) is 0 or less than a set value in a period t, it is replaced by 1 or a specific constant.

In the radiation measuring method of the present invention, in the first step, when the count value X (i) is successively 0 or less than a set value over two or more periods t, only the value of one period or a specific period It is characterized by replacing by 1 or a specific constant.

In the radiation measuring method of the present invention, the average coefficient RA is obtained by dividing the total coefficient value SUM by the total measurement time T.

In the radiation measuring method of the present invention, the offset coefficient RO is obtained by subtracting the compensation average coefficient R2 from the measurement average coefficient R1.

In the radiation measuring method of the present invention, the measured average coefficient R1 is obtained by dividing the total coefficient value SUM by adding the radiation coefficient value X (i) measured during each period t by the total measurement time T. Value, and the compensation average coefficient ratio R2 is replaced by 1 or a specific constant when the coefficient value X (i) of a period t is 0 or less than a predetermined value, and the total coefficient value SUM is replaced with the total measurement time ( Characterized in that divided by T).

In the radiation measuring method of the present invention, the specific constant is a value determined by the designer that the measurement error can be reduced by replacing the count value of the period when the count value of one period (t) is less than or equal to the set value. It is characterized by large.

When using the radiation measuring method according to the invention, when measuring the dose rate or radiation in a low-level radiation field it can suppress the irregular measurement value fluctuations over time and significantly improve the measurement error.

1 is a block diagram of a radiometer according to the present invention.
2 is a flowchart of a data processing method for obtaining an offset counting rate according to the present invention.
3 is a flowchart of a method for processing true mean coefficient data for evaluating dose rate or radiation according to the present invention.
4 is a conceptual diagram of a method of replacing a coefficient value of a period according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a radiometer according to the present invention.

Referring to FIG. 1, the radiation meter of the present invention applies the bias high voltage 10 generated through the high voltage generation circuit to the radiation detector 20, and applies the analog value detected through the amplification circuit 30 to the A / D. It is used as a method of digitizing the converter 40 and applying it to the counter 50 to express the value.

In this case, the following method is proposed to suppress measurement fluctuations that may occur irregularly in the process of processing data transmitted to the counter 50 and to improve measurement errors.

2 is a flowchart of a data processing method for obtaining an offset counting rate according to the present invention.

Referring to FIG. 2, in obtaining an average coefficient of the radiation-related coefficient values (X (i)) data (X (1) to X (n)) measured for a predetermined time or period (t), first, constant The value obtained by dividing the total coefficient value (SUM), which is the sum of the data of the number, by the total measurement time (T) is called the measured average coefficient ratio (R1). Here, the total measurement time (T) is a value obtained by multiplying the total coefficient (N) by the period (t).

The radiation is measured again under the same conditions. This time, if the count value (X (i)) of any period (t) is 0 or less than the set value, it is replaced by 1 or a specific constant, and then the total count value (SUM) is replaced with the total measurement time. Divide by (T) and call this value R2.

Here, the specific constant is a value determined by the designer that the measurement error can be reduced by substituting the count value of the period when the count value of one period is less than or equal to the set value.

A value obtained by subtracting the measured average coefficient R1 from the compensation average coefficient R2 is called an offset coefficient RO, and the offset coefficient RO is applied whenever the radiation is measured by a radiometer.

3 is a flowchart of a method for processing true mean coefficient data for evaluating dose rate or radiation according to the present invention.

Referring to FIG. 3, first, the count value X (i) measured by the period t measuring instrument is stored, and if the count value X (i) of any period t is 0 or less than the set value, Replace with 1 or a specific constant (S100).

Next, the average coefficient ratio RA of the coefficient value X (i) measured at each period t is obtained (S200). In this case, the average coefficient RA is a value obtained by dividing the total coefficient value SUM by the total measurement time T.

Subsequently, the true average coefficient ratio RR obtained by subtracting the offset coefficient ratio RO from the average coefficient ratio RA is obtained (S300). Here, by applying the method of obtaining the true average coefficient (RR) to the moving average filter it is possible to easily apply to more accurately grasp the average trend change of the measured value by removing the irregular elements of the measured value.

Finally, the true average coefficient (RR) is converted into a dose rate or radiation (f (RR)) (S400).

4 is a conceptual diagram of a method of replacing a coefficient value of a period according to the present invention.

Referring to FIG. 4, if the count value of a period is 0 or less than a set value, the frequency of the count value of one period is 0 or less than a set value in a measurement environment in which the radioactivity level is very low is replaced by 1 or another method of replacing a specific constant. In the case where the radiation measuring method is high, it may be applied when there is a concern that the accuracy may be lowered.

In this case, if the coefficient value is continuously 0 or less than the set value over two or more periods in a manner that adjusts the fluctuation range and accuracy of the measured value, the fluctuation range is increased by replacing only the value of one period or a specific period with 1 or a specific constant. Can increase the effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims that follow.

Claims (7)

In the radiation measuring method,
A first step of storing a radiation count value X (i) measured with a period t measuring instrument;
A second step of obtaining an average coefficient RA of the coefficient value X (i);
A third step of obtaining a true average coefficient (RR) by subtracting an offset coefficient (RO) from the average coefficient ratio (RA); And
And a fourth step of converting the true average coefficient (RR) into a dose rate or radiation (f (RR)).
And in the first step, if the count value (X (i)) is zero or less than a set value in a period t, replace with one or a specific constant.
delete The method of claim 1,
In the first step, when the count value X (i) is successively 0 or less than a set value over two or more periods t, only one or a specific constant is replaced with 1 or a specific constant. Radiation measurement method.
The method of claim 1,
The average count ratio RA is calculated by dividing a total count value SUM by a total measurement time T.
The method of claim 1,
The offset coefficient (RO) is calculated by subtracting the compensation average coefficient (R2) from the measurement average coefficient (R1).
6. The method of claim 5,
The measured average coefficient R1 is a value obtained by dividing the total coefficient value SUM obtained by adding the radiation coefficient value X (i) measured during each period t by the total measurement time T,
The compensation average coefficient ratio R2 is replaced by 1 or a specific constant when the coefficient value X (i) of a period t is 0 or less than a predetermined value, and the total coefficient value SUM is converted into a total measurement time T. Radiation measuring method characterized in that the divided value.
The method according to any one of claims 1, 3, 6,
The specific constant is a value determined by the designer that the measurement error can be reduced by replacing the count value of the period when the count value of one period (t) is less than the set value, and larger than the set value.

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