KR100926341B1 - Device for comparing measured results through time synchronization between a distance base measuring system and a time base measuring system - Google Patents

Abstract

The present invention measures distance between two systems by measuring and sorting both data through synchronization in order to simultaneously compare the results of a system measured on a certain time basis with a system measured on a certain distance basis. An apparatus and a method for simultaneously analyzing measurement results through synchronization of a reference measurement system and a time reference measurement system.

Simultaneous analysis of the measurement result through synchronization of the distance reference measurement system and the time reference measurement system according to the present invention for realizing this includes a tachometer for generating a reference signal for measuring the moving distance of a moving object, a system synchronous signal generator, and a reference. Distance-based measurement sensor for measuring the change value of the analysis target at the distance, Distance reference for measuring the moving distance based on the distance measurement signal output from the tachometer and receiving and storing the measurement signal transmitted from the distance-based measurement sensor at the reference distance A distance reference measurement system including a data processor and a distance reference data output unit configured to output distance reference data processed by the distance reference data processor;

Internal clock generation unit for generating a reference signal for measuring the elapsed time of the moving object, time-based measurement sensor for measuring the change value for the analysis object every measurement reference time, measurement reference set in advance based on the reference signal of the clock generator Time-based measurement system including a time-based data processing unit for determining the time and receiving and storing the output value of the time-based measurement sensor for each measurement reference time, and a time-based data output unit for outputting the time-based data processed by the time-based data processing unit ;

And a synchronization signal output unit connected by a signal line between the time reference data processor of the time reference measurement system and the distance reference data processor of the distance reference measurement system to synchronize the operation of the distance reference measurement system and the time reference measurement system. It is done.

Distance-based measurement system, time-based measurement system, synchronization,

Description

DEVICE FOR COMPARING MEASURED RESULTS THROUGH TIME SYNCHRONIZATION BETWEEN A DISTANCE BASE MEASURING SYSTEM AND A TIME BASE MEASURING SYSTEM}

The present invention measures distance between two systems by measuring and sorting both data through synchronization in order to simultaneously compare the results of a system measured on a certain time basis with a system measured on a certain distance basis. An apparatus and a method for simultaneously analyzing measurement results through synchronization of a reference measurement system and a time reference measurement system.

In general, the measurement system of a railway vehicle is a system that is measured based on a certain time, such as acceleration, power analyzer, and a system that is measured based on a certain distance, such as the irregularity and wear of the rail.

However, since the two systems have different measurement criteria in time and distance, it is difficult to find the measurement results obtained at the same time or at the same location. Therefore, it is difficult to determine each location when examining and analyzing at the same time. Although one measurement signal may be input from another measurement equipment, interface tuning of two different systems and provision of separate input devices are required.

The present invention has been invented in view of the above circumstances, and the distance-based measurement system and the time-based measurement system are measured by synchronizing measurement start points of both systems to simultaneously compare the results of the two measurement systems, and the measured both sides An object of the present invention is to provide an apparatus and method for simultaneously analyzing measurement results by synchronizing a distance-based measurement system and a time-based measurement system to align data.

Simultaneous analysis of the measurement results through the synchronization of the distance-based measurement system and the time-based measurement system of the present invention for achieving the above object,

Tachometer for generating a reference signal for measuring the moving distance of the moving object, system synchronization signal generating unit, distance reference measuring sensor for measuring the change value for the analysis target at the reference distance, the moving distance based on the distance measuring signal output from the tachometer Distance reference measurement made by including a distance reference data processing unit for measuring and receiving the measurement signal transmitted from the distance reference measurement sensor at a reference distance, and outputs the distance reference data processed by the distance reference data processing unit system;
Internal clock generation unit for generating a reference signal for measuring the elapsed time of the moving object, time-based measurement sensor for measuring the change value for the analysis object every measurement reference time, measurement reference set in advance based on the reference signal of the clock generator Time-based measurement system including a time-based data processing unit for determining the time and receiving and storing the output value of the time-based measurement sensor for each measurement reference time, and a time-based data output unit for outputting the time-based data processed by the time-based data processing unit ;

And a synchronization signal output unit connected by a signal line between the time reference data processor of the time reference measurement system and the distance reference data processor of the distance reference measurement system to synchronize the operation of the distance reference measurement system and the time reference measurement system. It is done.

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The synchronization signal output unit is connected to a time reference data processing unit of the time reference measurement system, characterized in that it is made to synchronize the measurement start time of the distance reference measurement system under the control of the time reference measurement system.

In addition, the simultaneous measurement method of the measurement results through the synchronization of the distance-based measurement system and the time-based measurement system according to the present invention,

In the distance reference measurement system, observing whether or not a synchronization signal is input from the time reference measurement system,

Setting a counting variable n when a synchronization signal indicating a measurement start is input, and storing the measurement start time in correspondence with the counting variable n;

After the start of the measurement, the self sync signal is counted for a sampling time corresponding to a predetermined reference distance, and when the sampling time has elapsed, the counting variable (n) is increased by 1, and the sampling time and counting variable are corresponded to the corresponding counting variable (n). multiplying by n and adding the measurement start time to store the current time and storing the detected data of the distance-based measuring sensor at the corresponding time in correspondence with the variable n;

In response to the counting variable n increasing as the sampling time elapses, repeating the change time of the counting variable n and the measurement data storage operation of the distance-based measurement sensor at the same time for the entire preset measurement distance. Made, including

The time reference measuring system outputs a synchronization signal to the distance reference measuring system and simultaneously stores the detection data of the time reference measuring sensor corresponding to each reference time at a predetermined predetermined reference time. .

In the above, the distance-based measurement system and the time-based measurement system is characterized in that by comparing the measurement data for each measurement time by outputting the sorted data.

In the above, the output of the measurement data is characterized in that for outputting the time-varying graph.

As described above, the present invention has an advantage that even if there is a system in which data is stored based on different criteria such as distance and time, data can be simultaneously compared and analyzed after detection.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 shows an example of the configuration of a synchronization device between a distance reference measurement system and a time reference measurement system according to an embodiment of the present invention.

As shown in the accompanying drawings, the distance reference measurement system 10 and the time reference measurement system 20 having different measurement criteria are connected to be synchronized. The synchronization signal according to the connection may use a TTL (Transistor-Transistor Logic) logic signal or an Ethernet signal that is a local area network having a bus structure.

In order to interwork two different systems 10, 20, they must be based on distance or time. In the embodiment of the present invention, a method of synchronizing time in a distance reference measurement system will be described as an example.

As shown in FIG. 2, the distance reference measurement system 10 measures a distance such as a tachometer 11 and inputs it to the distance reference data processor 12, and the distance reference data processor 12 reaches a predetermined reference distance. If it is determined that the distance-based measurement sensor 13 is controlled to receive and store the signal measured by the distance-based measurement sensor 13, and also through the distance reference data output unit 14 to measure the measurement data corresponding to the reference distance Will print.

In addition, the distance reference data processing unit 12 of the distance reference measurement system 10 has a system synchronous signal generation unit 15 for generating time for setting the control reference of the entire system.

The distance reference measuring sensor 13 may correspond to a sensor for measuring an irregularity and abrasion degree of a rail which may be measured based on a predetermined distance.

As shown in FIG. 3, the time reference measurement system 20 receives the time generated by the internal clock generator 22 in the time reference data processor 21 to determine the elapsed time, and is set in advance. When the reference time is reached, the time-based measurement sensor 23 is controlled to receive and store the signal measured by the time-based measurement sensor 23, and the measurement data corresponding to the reference time is received through the time-based data output unit 24. The output is sorted according to the reference time.

The time-based measurement sensor 23 may correspond to an acceleration sensor, a power analyzer, and the like, which may be measured on a time basis.

On the other hand, the time reference data processing unit 21 of the time reference measurement system 20, the synchronization signal for outputting a signal indicating the start of the synchronization signal to the time reference measurement system in order to synchronize the measurement time with the distance reference measurement system 10 The output 25 is connected.

Therefore, in the time reference measurement system 20, the time reference data processor 21 controls the synchronization signal output unit 25 to output the synchronization signal to the distance reference measurement system 10. In this case, the synchronization signal may be a TTL digital signal or an ethernet signal.

4 is a flowchart illustrating a synchronization method of a distance reference measurement system according to the present invention.

In the exemplary embodiment of the present invention, since the distance reference measurement system 10 receives the synchronization signal from the time reference measurement system 20, that is, the measurement start signal, both systems 10 and 20 operate in synchronization with the distance reference measurement system 10. ) Continuously monitors whether or not a synchronization signal is input from the time reference measurement system 20.

When it is determined that the synchronization signal is input, the distance reference data processor 12 counts the synchronization signal sync input from the system synchronization signal generator 15.

Here, if one variable that can be counted is designated and is n, n is incremented by one each time a sync signal having a sampling corresponding to the sync frequency is input.

The distance reference data processor 12 stores the counting variable n together with the distance data when the predetermined reference distance is set in advance. In addition, the distance reference data processing unit 12 receives and stores the measurement data A ₁ , A ₂ , A ₃ ... From the distance reference measuring sensor 13 whenever the predetermined reference distance is set in advance.

In this way, when the detection operation is finished for each predetermined reference distance for the entire distance, the data of the distance reference measurement system 10 is aligned as shown in FIG. 5.

In this case, if the data corresponding to the reference distance is Ai , the counting variable n is stored in each data, and the time can be obtained by adding the initial time t _i to the time multiplied by the sync sampling time and the counting variable n.

That is, the distance reference measurement system 10 generates a sync signal for synchronizing its own system by the system synchronization signal generation unit 15. Thus, the data detected by the distance reference measurement sensor 13 is counted by counting the sync signal. If you enter a counting number when saving, you can get the time corresponding to the counting number.

At the same time, the time reference data processing unit 21 of the time reference measurement system 20 performs the detection operation by controlling the time reference measurement sensor 23 at a predetermined reference time set in advance, and measures the measured data B ₁ , B ₂ , and the like. B ₃ …) is input and stored. As described above, the data measured and detected by the time reference measurement system 20 is obtained for each time as shown in FIG. 6.

Therefore, when the time of the distance reference data measured by the distance reference measurement system 10 is compared, the measurement results of the time reference measurement system 10 and the distance reference measurement system 20 can be compared and examined with respect to time.

In particular, the measurement data of the distance reference measurement system 10 and the time reference measurement system 20 is measured by the measurement time through the distance reference data output unit 14 and the time reference data output unit 24 to facilitate comparison and review. It is preferable to arrange and output the measurement data, and the output format of the measurement data may be output in a tabular form describing the measurement data for each time zone, or the change state of the measurement data for each time zone may be output in a graph for easy visual comparison. You can do that.

1 is a configuration example of a synchronization device of a distance reference measurement system and a time reference measurement system according to an embodiment of the present invention;

2 is a detailed configuration diagram of the distance reference measurement system of FIG. 1;

3 is a detailed configuration diagram of the time reference measurement system of FIG. 1;

4 is a flowchart illustrating a synchronization method of a distance reference measurement system according to the present invention;

5 is data of a distance reference measurement system according to the present invention;

6 is data of a time reference measurement system according to the present invention;

<Description of the symbols for the main parts of the drawings>

10-distance-based measurement system, 11-tachometer,

12-distance-based data processor, 13-distance-based measurement sensor,

14-distance reference data output, 15-system synchronous signal generator,

20-time-based measurement system, 21-time-based data processing,

22-internal clock generator, 23-time-based measuring sensor,

24-time based data output, 25-synchronization signal output.

Claims (5)

Tachometer for generating a reference signal for measuring the moving distance of the moving object, system synchronization signal generating unit, distance reference measuring sensor for measuring the change value for the analysis target at the reference distance, the moving distance based on the distance measuring signal output from the tachometer Distance reference measurement made by including a distance reference data processing unit for measuring and receiving the measurement signal transmitted from the distance reference measurement sensor at a reference distance, and outputs the distance reference data processed by the distance reference data processing unit system; Internal clock generation unit for generating a reference signal for measuring the elapsed time of the moving object, time-based measurement sensor for measuring the change value for the analysis object every measurement reference time, measurement reference set in advance based on the reference signal of the clock generator Time-based measurement system including a time-based data processing unit for determining the time and receiving and storing the output value of the time-based measurement sensor for each measurement reference time, and a time-based data output unit for outputting the time-based data processed by the time-based data processing unit ; Distance reference made by including a synchronization signal output unit connected by a signal line between the time reference data processing unit of the time reference measurement system and the distance reference data processing unit of the distance reference measurement system in order to synchronize the operation of the distance reference measurement system and the time reference measurement system. Simultaneous analysis of measurement results through synchronization of measurement system and time-based measurement system. The distance reference system of claim 1, wherein the synchronization signal output unit is connected to a time reference data processing unit of the time reference measurement system to synchronize the measurement start time of the distance reference measurement system under control of the time reference measurement system. Simultaneous analysis of measurement results through synchronization of measurement system and time-based measurement system. In the distance reference measurement system, observing whether or not a synchronization signal is input from the time reference measurement system, Setting a counting variable n when a synchronization signal indicating a measurement start is input, and storing the measurement start time in correspondence with the counting variable n; After the start of the measurement, the self sync signal is counted for a sampling time corresponding to a predetermined reference distance, and when the sampling time has elapsed, the counting variable (n) is increased by 1, and the sampling time and counting variable are corresponded to the corresponding counting variable (n). multiplying by n and adding the measurement start time to store the current time and storing the detected data of the distance-based measuring sensor at the corresponding time in correspondence with the variable n; And repeating the change time of the counting variable n and the detection data storage operation of the distance-based measurement sensor at the preset measurement distance in correspondence to the counting variable n that increases with the sampling time. Done by The time reference measurement system includes a step of outputting a synchronization signal to the distance reference measurement system and storing the detection data of the time reference measurement sensor corresponding to each reference time at a predetermined predetermined reference time. Simultaneous analysis of measurement results through synchronization of distance-based measurement system and time-based measurement system. [4] The distance reference measurement system and the time reference measurement system of claim 3, wherein the distance reference measurement system and the time reference measurement system arrange and output the measurement data according to the measurement time so as to compare and analyze the data on both sides. Simultaneous analysis of measurement results through synchronization. The method of claim 4, wherein the output of the measurement data is output as a time-varying graph. 5.

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