JP7121098B2 - Measuring device, measuring system and control method for measuring device - Google Patents

Description

The present invention relates to a measuring device, a measuring system, and a control method for the measuring device.

As a conventional measuring device, for example, Patent Document 1 discloses that test signals output from a terminal under test are sequentially captured, the captured test signals are measured, the measured measurement results are sequentially stored in a storage unit, and the storage unit It has been proposed to display an image representing the measurement results stored in the display unit.

JP 2013-192208 A

However, the conventional measuring apparatus as described above stores the measurement results in the storage unit and then analyzes the measurement results stored in the storage unit. Sometimes you have to stop parsing the results. For this reason, the conventional measuring apparatus has a problem that the measurement time may become long by stopping the analysis of the measurement result.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a measuring device, a measuring system, and a method of controlling the measuring device that can shorten the measurement time.

The measuring apparatus of the present invention comprises a receiver (10) for receiving a signal under measurement transmitted from a mobile terminal (2), and a measurement data generator (10) for generating measurement data from the signal under measurement received by the receiver. 11), a first storage unit (12) in which the measurement data generated by the measurement data generation unit is stored, a data analysis unit (13) that analyzes the measurement data, and the data analysis unit that analyzes a second storage unit (14) for storing measured data; and a data transfer unit (15) for transferring the measured data stored in the first storage unit to the second storage unit, wherein the data analysis unit causes the data transfer unit to transfer an analyzable amount of measurement data for which analysis can be started before starting analysis of the measurement data stored in the second storage unit, and transfers to the second storage unit After the analysis of the stored measurement data is started, the measurement data in an amount larger than the analyzable amount is transferred to the data transfer unit.

With this configuration, the measuring device of the present invention causes the data transfer unit to transfer an analyzable amount of measurement data that can start analysis before starting analysis of the measurement data stored in the second storage unit. As a result, the time from the start of measurement to the start of analysis of the measurement data is shortened, so that the measurement time can be shortened.

In addition, in the measuring apparatus of the present invention, the analyzable amount may be the minimum amount of measurement data from which the data analysis unit can obtain one analysis result.

With this configuration, the measuring apparatus of the present invention can shorten the time from the start of measurement to the start of analysis of the measured data.

In the measuring apparatus of the present invention, the data analysis unit causes the data transfer unit to transfer the analyzable amount of measurement data, and a completion interrupt signal indicating completion of transfer of the analyzable amount of measurement data is generated. The analysis of the measurement data stored in the second storage unit may be started upon input from the data transfer unit.

With this configuration, the measurement apparatus of the present invention can start analyzing the measurement data stored in the second storage unit at the timing when the amount of measurement data stored in the second storage unit reaches an analyzable amount. .

The measurement system of the present invention comprises a measurement device (1) for measuring a signal under measurement transmitted from a mobile terminal (2), and a measurement control device (20) for controlling the measurement device, wherein the measurement device is a receiving section (10) for receiving a signal under measurement transmitted from the mobile terminal; a measurement data generating section (11) for generating measurement data from the signal under measurement received by the receiving section; a first storage unit (12) in which measurement data generated by a unit is stored; the measurement control device includes a data analysis unit (13) for analyzing the measurement data; and a second storage unit (14) for storing the measured data stored in the measurement device, and the measuring device includes a data transfer unit (14) for transferring the measured data stored in the first storage unit to the second storage unit ( 15), wherein, before starting analysis of the measurement data stored in the second storage unit, the data analysis unit transfers an analyzable amount of measurement data for which analysis can be started. After the measurement data is transferred to the second storage unit and the analysis of the measurement data stored in the second storage unit is started, an amount of measurement data larger than the analyzable amount is transferred to the data transfer unit. .

With this configuration, the measurement system of the present invention causes the data transfer section to transfer an analyzable amount of measurement data for which analysis can be started before starting analysis of the measurement data stored in the second storage section. As a result, the time from the start of measurement to the start of analysis of the measurement data is shortened, so that the measurement time can be shortened.

A control method for a measuring apparatus according to the present invention comprises a receiving section (10) for receiving a signal under measurement transmitted from a mobile terminal (2); a generating unit (11), a first storage unit storing measured data generated by the measured data generating unit, a data analyzing unit (13) for analyzing the measured data, and analyzed by the data analyzing unit A measuring device (1) comprising: a second storage section (14) for storing measurement data; and a data transfer section (15) for transferring the measurement data stored in the first storage section to the second storage section. ), wherein, before starting analysis of the measurement data stored in the second storage unit, an analyzable amount of measurement data for which analysis can be started is transferred to the data transfer unit. and a second step of causing the data transfer unit to transfer an amount of measurement data larger than the analyzable amount after starting analysis of the measurement data stored in the second storage unit. Let the data analysis part execute it.

As described above, in the control method of the measuring apparatus of the present invention, before starting analysis of the measured data stored in the second storage unit, the data transfer unit transmits an analyzable amount of measured data for which analysis can be started. , the time from the start of measurement to the start of analysis of the measured data is shortened, so that the measurement time can be shortened.

INDUSTRIAL APPLICABILITY The present invention can provide a measurement device, a measurement system, and a control method of the measurement device that can shorten the measurement time.

FIG. 1 is a block diagram of a measuring device according to one embodiment of the present invention. FIG. 2 is a flow chart showing the analysis operation of the measuring device according to one embodiment of the present invention. FIG. 3 is a block diagram of a measurement system according to a modification of one embodiment of the invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the embodiment of the present invention, the measuring apparatus according to the present invention is applied to a measuring apparatus for measuring mobile terminals conforming to the standard specifications of 5G NR (New Radio), which is a 5th Generation (5G) wireless system. An example will be described.

As shown in FIG. 1, a measuring device 1 transmits and receives signals to and from a mobile terminal 2 by wire via a coaxial cable or the like. The measuring device 1 can also wirelessly transmit and receive signals to and from the mobile terminal 2 via an antenna.

In order to facilitate understanding of the present invention, a configuration for measuring a signal under measurement transmitted from mobile terminal 2 to measuring apparatus 1 will be described in this embodiment. 2 will be omitted.

The measuring apparatus 1 includes a receiving section 10 for receiving the signal under measurement transmitted from the mobile terminal 2, a measurement data generating section 11 for generating measurement data from the signal under measurement received by the receiving section 10, and a measurement data generating section. 11, a data analysis unit 13 for analyzing the measurement data, a second storage unit 14 for storing the measurement data analyzed by the data analysis unit 13, It includes a data transfer section 15 for transferring measurement data stored in the first storage section to the second storage section, a display section 16 and an operation section 17 .

The receiving unit 10 down-converts a high-frequency (Radio Frequency, for example, millimeter wave) signal transmitted as a signal under measurement from the mobile terminal 2 into a baseband signal, and AD-converts the down-converted baseband signal into a digital signal. .

The measurement data generation unit 11 is configured by an FPGA (Field Programmable Gate Array), generates measurement data from the signal under measurement converted into a digital signal by the reception unit 10 , and stores the generated measurement data in the first storage unit 12 . do. The first storage unit 12 is configured by a storage medium such as RAM (Random Access Memory).

The data analysis unit 13 is configured by a CPU (Central Processing Unit). For example, the measurement device 1 is provided with a non-volatile storage medium such as a ROM (Read Only Memory), flash memory, hard disk device, etc., and this storage medium contains a program for causing the CPU to function as the data analysis unit 13. stored. That is, the CPU functions as the data analysis unit 13 by executing the program stored in the storage medium.

The second storage unit 14 is configured by a storage medium such as RAM. The second storage unit 14 stores measurement data analyzed by the data analysis unit 13 . The measurement data stored in the second storage section 14 is transferred from the first storage section 12 by the data transfer section 15 .

The data transfer unit 15 is configured by a DMAC (Direct Memory Access Controller). The data transfer section 15 transfers the measurement data stored in the first storage section 12 to the second storage section 14 according to the instruction from the data analysis section 13 . When the transfer according to the instruction from the data analysis unit 13 is completed, the data transfer unit 15 outputs a completion interrupt signal indicating the completion of the transfer to the data analysis unit 13 .

The display unit 16 is configured by a liquid crystal display device that configures a touch panel. The data analysis unit 13 displays, for example, a measurement item selection screen, a measurement execution instruction screen, a measurement parameter setting screen, a result display screen showing measurement results, a display adjustment screen for the result display screen, and the like on the display unit 16. Let

The operation unit 17 includes a touch pad that constitutes a touch panel, a pointing device such as a mouse or a tracking ball, a keyboard device, and the like. The operation unit 17 accepts operations such as selection of a measurement item, instruction to execute measurement, setting of measurement parameters, and display adjustment of a result display screen.

Before starting analysis of the measurement data stored in the second storage unit 14 , the data analysis unit 13 causes the data transfer unit 15 to transfer an analyzable amount of measurement data for which analysis can be started. For example, the analyzable amount is the minimum amount of measurement data from which the data analysis unit 13 can obtain one analysis result. The analyzable amount may be an amount obtained by adding a predetermined amount of margin to the minimum amount of measurement data from which the data analysis unit 13 can obtain one analysis result.

In the present embodiment, the analyzable amount is defined according to the measurement item and the measurement parameter. For example, a table in which analyzable amounts are associated with measurement items and measurement parameters is stored in a non-volatile storage medium such as the above-described ROM, flash memory, or hard disk device, and the data analysis unit 13 Determine the analyzable quantity from this table.

Note that the analyzable amount may be determined according to the bandwidth, modulation scheme, and sampling frequency of the signal under measurement received from the mobile terminal 2 . For example, the analyzable amount is associated with the bandwidth, modulation method, and sampling frequency of the signal under measurement received from the mobile terminal 2 in a non-volatile storage medium such as the above-described ROM, flash memory, or hard disk device. A table may be stored, and the data analysis unit 13 may determine the analyzable amount from this table.

After starting analysis of the measurement data stored in the second storage unit 14, the data analysis unit 13 causes the data transfer unit 15 to transfer an amount of measurement data larger than the analyzable amount. In the present embodiment, after the data analysis unit 13 starts analyzing the measurement data stored in the second storage unit 14, the remaining measurement data stored in the first storage unit 12 and the measurement data generation unit 11 instructs the data transfer unit 15 to transfer the measurement data to be stored in the first storage unit 12 and all of the measurement data.

After the data analysis unit 13 starts analyzing the measurement data stored in the second storage unit 14, the data transfer unit 15 may divide the measurement data and sequentially transfer the divided measurement data. In this case, the data analysis unit 13 causes the data transfer unit 15 to sequentially transfer the amount of measurement data corresponding to the analysis speed of the measurement data.

The data analysis unit 13 displays the analysis result of the measurement data on the result display screen of the display unit 16 . Here, the data analysis unit 13 may cause the display unit 16 to update the result display screen each time one analysis result is obtained. , the result display screen may be displayed. Further, the data analysis unit 13 may store the analysis result of the measurement data in a non-volatile storage medium such as a flash memory or a hard disk device provided in the measurement device 1 .

The analysis operation of the measuring device 1 according to the embodiment of the present invention configured as described above will be described with reference to FIG. The analysis operation described below is executed based on the start of measurement by a measurement execution instruction.

First, in step S1, the data analysis unit 13 instructs the data transfer unit 15 to transfer the analyzable amount of measurement data (first step). After completing the process of step S1, the data analysis unit 13 executes the process of step S2.

In step S<b>2 , the data analysis unit 13 determines whether or not the analyzable amount of measurement data has been transferred to the second storage unit 14 . Specifically, when a completion interrupt signal indicating that the transfer is completed is input from the data transfer unit 15, the data analysis unit 13 determines that the analyzable amount of measurement data has been transferred to the second storage unit 14. If the completion interrupt signal is not input, it is determined that the analyzable amount of measurement data has not been transferred to the second storage unit 14 .

If it is determined in step S2 that the analyzable amount of measurement data has been transferred to the second storage unit 14 (YES), the data analysis unit 13 executes the process of step S3. If it is determined in step S2 that the analyzable amount of measurement data has not been transferred to the second storage unit 14 (NO), the data analysis unit 13 executes the process of step S2 and waits for a completion interrupt signal. state.

In step S<b>3 , the data analysis section 13 starts analyzing the measurement data stored in the second storage section 14 . After completing the process of step S3, the data analysis unit 13 executes the process of step S4.

In step S4, the data analysis unit 13 transfers all of the remaining measurement data stored in the first storage unit 12 and the measurement data to be stored in the first storage unit 12 by the measurement data generation unit 11. The data transfer unit 15 is instructed to do so (second step). After completing the process of step S4, the data analysis unit 13 executes the process of step S5.

In step S5, the data analysis unit 13 determines whether analysis of all measurement data has been completed. Specifically, the data analysis unit 13 analyzes the measurement data stored in the second storage unit 14 after the completion interrupt signal is input from the data transfer unit 15 in response to the transfer instruction executed in step S4. When completed, it is determined that the analysis of all measurement data has been completed.

On the other hand, the data analysis unit 13 does not receive a completion interrupt signal from the data transfer unit 15 in response to the transfer instruction executed in step S4, or the measurement data stored in the second storage unit 14 is not analyzed. If not, it is determined that the analysis of all measurement data has not been completed.

If it is determined in step S5 that the analysis of all the measurement data has been completed (YES), the data analysis section 13 terminates the analysis operation. If it is determined in step S5 that the analysis of all the measurement data has not been completed (NO), the data analysis section 13 executes the processing of step S5 and waits for a completion interrupt signal.

The control method of the measuring device according to the embodiment of the present invention is realized by causing the data analysis section 13 to perform the analysis operation described with reference to FIG.

As described above, in the present embodiment, before starting analysis of the measurement data stored in the second storage unit 14, the data transfer unit transfers an analyzable amount of measurement data for which analysis can be started. 15, the time from the start of measurement to the start of analysis of the measurement data is shortened, so that the measurement time can be shortened.

In the present embodiment, the analyzable amount is the minimum amount of measurement data that allows the data analysis unit 13 to obtain one analysis result. can shorten the time to

In the present embodiment, the data analysis unit 13 causes the data transfer unit 15 to transfer the analyzable amount of measurement data, and the completion interrupt signal indicating completion of the transfer of the analyzable amount of measurement data is sent to the data transfer unit. 15, the analysis of the measured data stored in the second storage unit 14 is started. Analysis of the measurement data stored in the second storage unit 14 can be started.

Note that the measurement apparatus 1 according to the present embodiment may be configured to be connectable to a general-purpose computer device including a CPU, RAM, ROM, flash memory, hard disk device, and communication module.

In this case, as shown in FIG. 3, the measurement control device 20 including the data analysis unit 13, the second storage unit 14, the display unit 16, and the operation unit 17 is configured by a general-purpose computer device. A measurement system may be configured by the measurement device 1 and the measurement control device 20 excluding the storage unit 14 , the display unit 16 and the operation unit 17 .

Further, the measurement control device 20 including the data analysis unit 13, the second storage unit 14, the data transfer unit 15, the display unit 16 and the operation unit 17 is configured by a general-purpose computer device, and the data analysis unit 13 and the second storage unit 14 , the data transfer section 15, the display section 16 and the operation section 17 are excluded, and the measurement system may be configured by the measurement device 1 and the measurement control device 20. FIG.

Reference Signs List 1 measuring device 2 mobile terminal 10 receiving unit 11 measurement data generating unit 12 first storage unit 13 data analysis unit 14 second storage unit 15 data transfer unit 20 measurement control device

Claims (5)

a receiver (10) for receiving a signal under measurement transmitted from a mobile terminal (2);
a measurement data generator (11) for generating measurement data from the signal under measurement received by the receiver;
a first storage unit (12) for storing the measurement data generated by the measurement data generation unit;
a data analysis unit (13) for analyzing the measurement data;
a second storage unit (14) for storing measurement data analyzed by the data analysis unit;
a data transfer unit (15) for transferring the measurement data stored in the first storage unit to the second storage unit;
The data analysis unit
causing the data transfer unit to transfer an analyzable amount of measurement data for which analysis can be started before starting analysis of the measurement data stored in the second storage unit;
A measuring device that transfers an amount of measurement data larger than the analyzable amount to the data transfer section after starting analysis of the measurement data stored in the second storage section. 2. The measuring apparatus according to claim 1, wherein the analyzable amount is the minimum amount of measurement data from which the data analysis unit can obtain one analysis result. The data analysis unit causes the data transfer unit to transfer the analyzable amount of measurement data, and a completion interrupt signal indicating completion of transfer of the analyzable amount of measurement data is input from the data transfer unit. 3. The measurement apparatus according to claim 1, wherein analysis of the measurement data stored in the second storage unit is started, triggered by . a measuring device (1) for measuring a signal under measurement transmitted from a mobile terminal (2);
a measurement control device (20) that controls the measurement device;
The measuring device is
a receiver (10) for receiving a signal under measurement transmitted from the mobile terminal;
a measurement data generator (11) for generating measurement data from the signal under measurement received by the receiver;
a first storage unit (12) in which the measurement data generated by the measurement data generation unit is stored;
The measurement control device
a data analysis unit (13) for analyzing the measurement data;
a second storage unit (14) in which measurement data analyzed by the data analysis unit is stored;
The measuring device is
further comprising a data transfer unit (15) for transferring the measurement data stored in the first storage unit to the second storage unit;
The data analysis unit
causing the data transfer unit to transfer an analyzable amount of measurement data for which analysis can be started before starting analysis of the measurement data stored in the second storage unit;
A measuring system that transfers an amount of measured data larger than the analyzable amount to the data transfer section after starting analysis of the measured data stored in the second storage section. a receiver (10) for receiving a signal under measurement transmitted from a mobile terminal (2);
a measurement data generator (11) for generating measurement data from the signal under measurement received by the receiver;
a first storage unit that stores the measurement data generated by the measurement data generation unit;
a data analysis unit (13) for analyzing the measurement data;
a second storage unit (14) for storing measurement data analyzed by the data analysis unit;
A control method for a measuring device (1) comprising a data transfer section (15) for transferring measurement data stored in the first storage section to the second storage section,
a first step of transferring an analyzable amount of measurement data for which analysis can be started to the data transfer unit before starting analysis of the measurement data stored in the second storage unit;
a second step of transferring an amount of measurement data larger than the analyzable amount to the data transfer unit after starting analysis of the measurement data stored in the second storage unit; A control method for the measuring device to be executed.

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