KR100250986B1 - Measured data processing method - Google Patents

Abstract

PURPOSE: A method for processing measurement data without location information is provided to modify a propagation model according to a real situation on a basis of practically measured data in a CT-2(Cordless Telephone-second generation) system in order to establish an efficient network, by assigning the location information to the measurement data. CONSTITUTION: A mark is inserted into a measurement value record file(S1). The location of the mark, inserted into the record file, is inputted onto a map screen of the network design system(S2). The inclination of a line segment comprised of consecutive marks is calculated(S3). The line is divided equally by the number of measurement values, and thereby the location of each measurement value is determined(S4). The value of the resultant location is subjected to interpolation, and then the result of the interpolation is output as the measurement data which includes the location data(S5).

Description

How to handle measurement data without location information

The present invention relates to a method of processing measurement data without position information. The present invention is a technique of providing position information to measurement data through post processing so that measurement data without position information can be loaded into a wireless network design system.

Until now, wireless network design system for cordless telephone (hereinafter referred to as CT-2) has not been developed and commercialized, but cellular system or personal communication, which is a wireless network design system similar to CT-2 wireless network, has not been commercialized. In the case of a service (PCS) system, the measurement device receives a position measurement system (hereinafter referred to as GPS) signal and records in real time at which point the currently received radio signal is received. Can be entered into the network design system.

However, the current measurement device for CT-2 does not have a GPS receiver, so the data recording the measured radio signal does not contain the location information of the point where the signal was received.

There are two ways to load the measurement data without location information in the wireless network design tool for CT-2. First is to input the signal point by point on the graphic screen where the map is shown. Or position the measurement data.

However, the first method has a disadvantage in that a large amount of measurement data requires a considerable time for inputting position information into the design tool.

In the present invention, in consideration of the conventional requirements as described above, by providing the position information to the measurement data through post-processing so that the measurement data without position information can be loaded into the wireless network design system, In this case, the measurement data can be calibrated according to the actual situation, and through the model calibration, a more efficient network can be built.

1 is a flowchart showing a process of a method for providing location information according to the present invention.

2 is a view showing a position where a mark is displayed when performing a measurement along a measurement line on a road according to the present invention;

3 is a view showing a result of determining a position of a measurement value by interpolating a mark to a reference point;

In order to achieve the above object, the present invention includes a first step of inserting a mark in the measurement value recording file;

A second step of inputting the positions of the marks inserted in the first step on a map screen of the network design system;

A third step of calculating slopes and intercepts of line segments formed of consecutive marks input in the second step;

Dividing the line segment by the number N of measured values and determining the line segment as a position of each measured value;

By interpolating the position result value generated in the fourth process, and then outputting the result in a measurement data format having position information;

The position information is inserted into data having no position information.

The above objects, features, and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a technology belonging to a radio wave model correction module through measurement data of a wireless network design system for CT-2, and the radio wave model is a method for performing radio wave prediction that reflects the actual radio wave environment as much as possible. Will be adjusted according to the characteristics of each region.

The measurement data used at that time is a measurement value of radio signals in a target area using a special measuring device. By calibrating the parameters of the propagation model using the measured data, the propagation prediction closer to the real environment can be made.

The measurement data output from the measuring equipment may have unique output formats according to the type of equipment, so the interface with the wireless network design tool should be adjusted.

In the present invention, the location information is given to the data without the location information. When the location information is not included in the measurement data, there is no GPS receiver such as the CT-2 measurement equipment, or the GPS signal is received in the building or underground. This is the case if you cannot.

Here, GPS is a 'Global Positioning System', a system that receives signals from three or four satellites and finds its current position.

In order to insert the position information, the measurement data recording file must first be recorded in a format capable of post-processing, and the measurement instrument inserts a mark in the middle of the file that records a change in the measurement position while recording the measurement value.

Marks are inserted whenever the direction of movement changes, such as at the beginning and at the end of a measurement, and in an alley during a measurement.

Since the mark is inserted at the beginning and end of the measurement and whenever there is a change in the direction of movement, it can be assumed that the measurement was performed in a straight line between the mark and the mark. It is also assumed that the speed at which the measured value is recorded between the marks is also constant.

If the above assumption is made, it is possible to calculate the position of measurement data just by knowing the X and Y position information of the mark. Since the position of the two marks is known and the number of measured values recorded between the two marks is interpolated ( The interpolation method can be used to calculate the position of the measured value.

Referring to the drawings illustrating a process of actually inserting position information using the same principle as described above, FIG. 1 is a flowchart illustrating a process of the present invention, and the first step S1 is a process of inserting a mark in a measurement value recording file. Since the mark serves as a reference point for determining the position, the mark is inserted when the start and end points of the file and the moving direction of the measurer are changed.

Therefore, when the measurement on the road is inserted at the measurement start point, the corner corner, the measurement end point as shown in FIG.

The second step (S2) is a process of inputting the positions of the marks to be inserted as described above on the map screen of the network design system, and inputs the position of the measurement data mark using a mouse on the map screen of the wireless network design system.

The third step S3 is a process of calculating the slope and intercept of the line segments composed of the consecutive marks input in the step S2, and calculating the slope and intercept of the line segment composed of two marks which are continuous from the X and Y coordinates of the marks. do.

The fourth step (S4) is a process of dividing the line segment by N (number of measured values), and then determining it as the position of each measured value. In FIG. 2, the number N1 of measured values recorded between marks M1 and M2 is measured. Divide the line by.

The measured values are assigned to each point of the divided segment in order, and the assigned position is determined as the measured position.

3 shows the results of interpolating the measured values for the marks M1, M2, M3.

The fifth step (S5) is a process of outputting the interpolated result in a measurement data format with position information. Since the measurement data is input to the wireless network design system, the necessary work can be performed thereafter, but it is more generally implemented. In order to use the measurement data analysis function, it is recorded in the form of measurement value with location information.

As described in detail above, the present invention inserts position information into data without position information. Thus, in the case of the CT-2 system, the radio wave model can be corrected according to actual conditions through actual measurement data. Through the construction of a more efficient network, it has the advantage of saving the network construction cost, and can be applied to other wireless systems that can not receive the location information in the measurement data in addition to the CT-2 system.

In addition, a preferred embodiment of the present invention is disclosed for the purpose of illustration, those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and modifications belong to the following claims You will have to look.

Claims (3)

A first step of inserting a mark in the measured value recording file; A second step of inputting the positions of the marks inserted in the first step on a map screen of the network design system; A third step of calculating slopes and intercepts of line segments formed of consecutive marks input in the second step; Dividing the line segment by the number N of measured values and determining the line segment as a position of each measured value; By interpolating the position result value generated in the fourth process, and then outputting the result in a measurement data format having position information; A method of processing measurement data without position information, characterized by inserting position information into data without position information. The method of claim 1, In the first step, the mark is a reference point for determining a position, and the mark is inserted when the start point and the end point of the file and the moving direction of the measurer are changed. The method of claim 2, And measuring values are sequentially assigned to each point of the line segment divided in the fourth step, and the assigned position is determined as the position of the measured value.

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