JP2013038615A - Tablet portable terminal, program for tablet portable terminal, and recording medium of program for tablet portable terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tablet portable terminal that has a light-weight and is compact so as to be easy to carry, and that has little need to do preparatory work and is capable of easily performing remote operation to a measuring device, a program for the tablet portable terminal, and a recording medium of the program for the tablet portable terminal.SOLUTION: A tablet portable terminal 1 comprises a CPU 2, a memory 3, a communication control unit 4, an internal antenna 5, and a display unit 6. A command transmission unit 21 of the CPU 2 transmits an initialization command, a measurement start command, and a stop command to an OTDR (Optical Time Domain Reflectometer). A measurement condition transmission unit 22 transmits a measurement condition to the OTDR. Also, a measurement data request unit 23 requests waveform data D2, when the measurement work of the OTDR is completed. Then, a data calculation processing unit 24 converts all of the waveform data D2 into waveform data D3 and text data T and causes the display unit 6 to display the data.

Description

  The present invention relates to a tablet portable terminal capable of operating a measuring device from a remote place, a program for a tablet portable terminal, and a recording medium for a program for a tablet portable terminal.

Conventionally, remote control of a measurement device such as an OTDR (optical pulse tester) is generally performed through a modem or a public line network to exchange control signals and data between the OTDR and a central monitoring device.
However, since such remote operation technology is configured to communicate control signals and data by wire such as a public line network, the remote operation technology between the site where the OTDR is installed and the remote site where the central monitoring device is installed. There is a problem that it is necessary to arrange workers on both sides, which requires personnel and labor costs.

Therefore, a system for remotely operating the OTDR wirelessly has been devised (see, for example, Patent Document 1).
This system is a technique for remotely controlling the OTDR by sending control signals and data from a notebook personal computer to the OTDR via a modem or PHS (registered trademark).

JP 2000-193555 A

  In the above-described remote operation technology using radio, the notebook personal computer can be remotely controlled through a modem or PHS, so that the notebook personal computer can be carried anywhere. However, even a notebook computer weighs about 1 kg and is not easy to carry around. Further, it is necessary to connect a PHS or a modem to a notebook computer, and the notebook computer takes a long time to start. For this reason, the preparation work before starting remote control is troublesome and requires a long time. In addition, if another application freezes while the remote operation application and another application are activated simultaneously, the remote operation application cannot be used, which is inconvenient.

  The present invention has been made to solve the above-described problems, and is lightweight, compact and easy to carry, and requires little preparation work. Further, remote operation of the measuring apparatus can be easily performed. An object of the present invention is to provide a tablet portable terminal, a tablet portable terminal program, and a recording medium for the tablet portable terminal program.

In order to solve the above-mentioned problems, the invention of claim 1 is a tablet portable terminal that can be operated remotely and wirelessly with respect to a measuring apparatus capable of transmitting and receiving signals, and setting measurement conditions of the measuring apparatus. A measurement condition transmission unit that transmits to the measurement device, a command transmission unit that transmits a measurement start command to the measurement device, and a measurement data request unit that requests measurement data from the measurement device when it is determined that the measurement operation has been completed. And a data calculation processing unit that calculates the measurement data received from the measurement device, converts the measurement data into a diagram or text, and displays it.
With this configuration, when the measurement condition transmission unit transmits the measurement condition of the set measurement device to the measurement device, and the command transmission unit transmits a measurement start command to the measurement device, the measurement device transmits the measurement condition. Measurement is performed at. When the measurement data requesting unit determines that the measurement work in the measurement apparatus has been completed, the measurement data is requested from the measurement apparatus. Then, the measurement data is transmitted from the measurement device and received by the data calculation processing unit. In the data calculation processing unit, the measurement data received from the measurement device is calculated, and the measurement data is converted into a diagram or text and displayed.

The invention of claim 2 is a program for a tablet portable terminal used for a tablet portable terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals, wherein the measurement conditions of the measurement apparatus are set. A measurement condition transmission step for transmitting to the measurement device, a command transmission step for transmitting a measurement start command to the measurement device, and a measurement data requesting step for requesting measurement data to the measurement device when it is determined that the measurement operation has been completed. And the measurement data received from the measuring device is calculated, and the data calculation processing step for converting the data into a diagram or text for display is executed by the CPU of the tablet portable terminal.
With this configuration, when the measurement condition transmission step is executed by the CPU of the tablet portable terminal, the measurement conditions of the measurement apparatus are set and transmitted to the measurement apparatus. When the command transmission step is executed, a measurement start command is transmitted to the measurement apparatus, and the measurement apparatus performs measurement under measurement conditions. Further, when the measurement data request step is executed, it is determined whether or not the measurement work in the measurement device is completed. When it is determined that the measurement operation is completed, the measurement data is requested from the measurement device, and the measurement data is transmitted to the measurement device. Sent from When the data calculation processing step is executed, the measurement data received from the measurement device is calculated, and the measurement data is converted into a diagram or text and displayed.

  The invention of claim 3 is a recording medium in which a program for a tablet portable terminal used for a tablet portable terminal for remotely operating wirelessly with respect to a measuring apparatus capable of transmitting and receiving signals is recorded. A measurement condition transmission step for setting a condition and transmitting the measurement device, a command transmission step for transmitting a measurement start command to the measurement device, and requesting measurement data to the measurement device when it is determined that the measurement operation is completed. A tablet portable terminal program for causing the CPU of the tablet portable terminal to execute a measurement data requesting step to perform and a data calculation processing step to calculate and display the measurement data received from the measuring device and convert it into a diagram or text The configuration is as follows.

The invention of claim 4 is a tablet portable terminal that can be remotely operated wirelessly with respect to a measuring apparatus capable of transmitting and receiving signals, and sets the measuring conditions of the measuring apparatus and transmits them to the measuring apparatus When the transmitter receives a response to the real-time measurement start command transmitted from the command transmitter from the measurement device, the measurement data is requested to the measurement device. The measurement data request unit, the data calculation processing unit that calculates the received measurement data, converts it into a diagram or text, and displays the operation of the measurement data request unit and the data calculation processing unit at regular time intervals. It was set as the structure which comprises the real-time control part to repeat.
With such a configuration, when the measurement condition transmission unit transmits the measurement condition of the set measurement device to the measurement device, and the command transmission unit transmits a real-time measurement start command to the measurement device, the measurement device The measurement under the measurement conditions is performed. When the measurement data request unit receives a response to the real-time measurement start command from the measurement device, the measurement data is requested from the measurement device. Then, the measurement data is transmitted from the measurement device and received by the data calculation processing unit. In the data calculation processing unit, the measurement data received from the measurement device is calculated, and the measurement data is converted into a diagram or text and displayed. In parallel with this, the operation of the measurement data requesting unit and the operation of the data calculation processing unit are controlled by the real-time control unit so as to be repeated at regular time intervals.

The invention of claim 5 is a tablet portable terminal program for use in a tablet portable terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals, and sets measurement conditions for the measurement apparatus. A measurement condition transmission step for transmitting to the measurement device, a command transmission step for transmitting a real-time measurement start command to the measurement device, and a response to the real-time measurement start command for the command transmission step from the measurement device. A measurement data request step required for the measuring device, a data calculation processing step for calculating the received measurement data, converting it to a diagram or text, and displaying it, and a measurement data request step and a data calculation processing step at regular time intervals. The CPU of the tablet mobile terminal executes the real-time control step repeated in It was formed.
With this configuration, when the measurement condition transmission step is executed by the CPU of the tablet portable terminal, the measurement conditions of the measurement apparatus are set and transmitted to the measurement apparatus. When the command transmission step is executed, a real-time measurement start command for the measurement device is transmitted to the measurement device, and the measurement device performs measurement under measurement conditions. Further, when the measurement data request step is executed, it is determined whether or not a response to the real-time measurement start command has been received from the measurement device. When it is determined that the data has been received, the measurement data is requested from the measurement device, and the measurement data is transmitted from the measurement device. When the data calculation processing step is executed, the measurement data received from the measurement device is calculated, and the measurement data is converted into a diagram or text and displayed. In parallel with this, a real-time control step is executed, and the measurement data requesting step and the data calculation processing step are controlled so as to be repeated at regular time intervals.

  The invention of claim 6 is a recording medium in which a program for a tablet portable terminal used for a tablet portable terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals is recorded. When a condition is set and a measurement condition transmission step for transmitting to the measurement device, a command transmission step for transmitting a real-time measurement start command to the measurement device, and a response to the real-time measurement start command for the command transmission step are received from the measurement device A measurement data request step for requesting measurement data to the measurement device, a data calculation processing step for calculating the received measurement data, converting it to a diagram or text, and displaying it, a measurement data request step and a data calculation processing step, And a real-time control step that repeats The program tablet mobile terminal to be executed by the PU, and recorded configuration.

  As described above in detail, according to the present invention, the measuring device can be remotely operated by a lightweight and compact tablet portable terminal. As a result, the measuring device can be easily carried anytime and anywhere and desired remote operation can be easily performed. There is an excellent effect of being able to. In addition, since the remote operation can be performed simply by directly operating the tablet portable terminal, there is no need for preparation work before entering the remote operation, and the remote operation can be entered in a short time. Furthermore, since only the measuring device can be arranged in a dangerous place and the tablet portable terminal can be operated in a remote place without danger, it is excellent in terms of work safety.

It is the schematic which shows the remote control system to which the tablet portable terminal concerning 1st Example of this invention was applied. It is a block diagram of a tablet portable terminal. It is an operation | movement flowchart figure of a tablet portable terminal. It is a screen display figure before the connection to OTDR. It is a screen display figure at the time of measurement condition setting. It is a screen display figure for demonstrating a measurement start command. It is a screen display figure which shows status information. It is a screen display figure which shows waveform data. It is a screen display figure which shows text data. It is a screen display figure which shows the designated event of text data with a waveform. It is a block diagram of the tablet portable terminal which concerns on 2nd Example of this invention. It is an operation | movement flowchart figure of a tablet portable terminal.

  The best mode of the present invention will be described below with reference to the drawings.

  FIG. 1 is a schematic diagram showing a remote operation system to which a tablet portable terminal according to a first embodiment of the present invention is applied, and FIG. 2 is a block diagram of the tablet portable terminal.

As shown in FIG. 1, the tablet portable terminal 1 of this embodiment is a portable device that can be operated by tapping an icon displayed on a wide liquid crystal screen with a finger or a pen, such as ipad (registered trademark). This is a tablet terminal of the type, and has a remote operation function that can be remotely operated wirelessly with respect to an OTDR (optical pulse tester) 100 as a measuring device.
The tablet portable terminal 1 and the OTDR 100 are connected by a wireless local area network (LAN) such as Wi-Fi (registered trademark of the Wi-Fi Alliance), and wireless signal transmission / reception is connected to the OTDR 100 by a LAN cable 110. This can be performed between the access point 120 and the tablet mobile terminal 1. Of course, the connection between the tablet portable terminal 1 and the OTDR 100 can be made not only by wireless LAN but also by Bluetooth, ZigBee, etc., or by Internet connection.

As shown in FIG. 2, the tablet portable terminal 1 includes a CPU (Central Processing Unit) 2, a memory 3, a communication control unit 4 such as an RF unit and a BB unit, a built-in antenna 5 such as a chip antenna, and a liquid crystal And a display unit 6 such as a display.
The CPU 2 uses the operation unit 20, the command transmission unit 21, the measurement condition transmission unit 22, the measurement data request unit 23, and the data calculation processing unit 24 as functional blocks.
Hereinafter, each functional block will be described in detail.

  The operation unit 20 is a part for giving a command to each functional block of the CPU 2. In this embodiment, by tapping an icon or the like displayed on the display unit 6, the operation unit 20 instructs the command transmission unit 21 and the measurement condition transmission unit 22, and the line from the data calculation processing unit 24. It has a function of displaying the waveform data D3 and text data T as shown in the figure on the display unit 6.

  The command transmission unit 21 has a function of transmitting an initialization command V0, a measurement start command V2 and a stop command V ′ to the OTDR 100 through the communication control unit 4 and the built-in antenna 5 according to a command from the operation unit 20. .

  The measurement condition transmission unit 22 has a function of setting the measurement condition of the OTDR 100 according to a command from the operation unit 20 and transmitting the set measurement condition V1 to the OTDR 100 through the communication control unit 4 and the built-in antenna 5. .

  The measurement data request unit 23 receives the state information D1 from the OTDR 100 through the built-in antenna 5 and the communication control unit 4, and determines whether or not the measurement operation of the OTDR 100 is completed based on the received state information D1. have. When the measurement data requesting unit 23 determines that the measurement work has been completed, the data request V3 requesting the OTDR 100 for the waveform data D2 that is the measurement data is sent to the OTDR 100 through the communication control unit 4 and the built-in antenna 5. Send.

  The data calculation processing unit 24 stores the waveform data D2 received from the OTDR 100 through the built-in antenna 5 and the communication control unit 4 in the memory 3. When all the waveform data D2 from the start point to the end point of the measurement range is stored, the waveform data D2 is read from the memory 3, calculated, and converted into waveform data D3 and text data T which are diagrams. Thus, it has a function of sending to the operation unit 20.

The operation unit 20 to the data arithmetic processing unit 24 function by executing the tablet portable terminal program P using the CPU 2, the memory 3, and the display unit 6 as hardware resources.
The tablet portable terminal program P is stored in the memory 3 and is read and executed by the CPU 2 as an application chip as needed. The storage in the memory 3 is possible by downloading through the Internet from a WEB server provided with a hard disk as a recording medium in which the tablet portable terminal program P is recorded. Further, the tablet portable terminal program P recorded on a recording medium such as a DVD or a CD-ROM can be stored in the memory 3 via a personal computer.

Next, the operation of the tablet portable terminal 1 of this embodiment will be described.
This operation also specifically executes each step of the tablet portable terminal program P of the present invention.
3 is an operation flowchart of the tablet portable terminal 1, FIG. 4 is a screen display diagram before connection to the OTDR 100, FIG. 5 is a screen display diagram when setting measurement conditions, and FIG. FIG. 7 is a screen display diagram for explaining a measurement start command, FIG. 7 is a screen display diagram showing state information D1, FIG. 8 is a screen display diagram showing waveform data D3, and FIG. 9 is text data. FIG. 10 is a screen display diagram showing a designated event of text data T as a waveform.

First, as shown in FIG. 4, when a user ID and a password are input on the display unit 6 of the tablet portable terminal 1, the tablet portable terminal 1 and the OTDR 100 are wirelessly based on the IP address of the OTDR 100 registered in advance. Connected.
Then, in response to a command from the operation unit 20 shown in FIG. 2, an initialization command V0 is sent from the command transmission unit 21 to the OTDR 100 through the communication control unit 4 and the built-in antenna 5 (step S1 in FIG. 3). This initialization command V0 is received by the access point 120 of the OTDR 100, and the OTDR 100 is initialized.

  Next, as shown in FIG. 5, when the measurement conditions such as the wavelength, distance range, pulse width, resolution, etc. of the optical pulse used in the OTDR 100 are set on the display unit 6, the operation unit 20 shown in FIG. The measurement condition V1 is transmitted from the measurement condition transmission unit 22 to the OTDR 100 through the communication control unit 4 and the built-in antenna 5 (measurement condition transmission step: steps S2 and S3 in FIG. 3).

Then, as shown in FIG. 6, when a button icon “NORMAL” 61 for starting normal measurement is tapped on the display unit 6, a measurement start command V <b> 2 is given by a command of the operation unit 20 shown in FIG. 2. The command is transmitted from the command transmission unit 21 to the OTDR 100 through the communication control unit 4 and the built-in antenna 5 (command transmission step: steps S4 and S5 in FIG. 3).
When the OTDR 100 receives the measurement start command V2, the OTDR 100 performs a predetermined measurement operation based on the measurement condition V1 that has already been received, and transmits state information D1 indicating the current state of the OTDR 100 to the tablet portable terminal 1. To do.
Then, in the tablet portable terminal 1, the state information D1 is received by the measurement data request unit 23 through the built-in antenna 5 and the communication control unit 4, and the state of the OTDR 100 is displayed on the display unit 6 as shown in FIG. Then, the measurement data request unit 23 shown in FIG. 2 determines whether or not the measurement work of the OTDR 100 is completed based on the state information D1 (step S6 in FIG. 3).

  If the measurement data requesting unit 23 determines that the measurement operation has been completed, a data request V3 requesting the waveform data D2 from the OTDR 100 is transmitted to the OTDR 100 through the communication control unit 4 and the built-in antenna 5 ( Measurement data request step: YES in step S6 of FIG. 3, S7).

Then, the waveform data D2 is transmitted from the OTDR 100 that has received the data request V3 to the tablet portable terminal 1, and the waveform data D2 is received by the data arithmetic processing unit 24 through the built-in antenna 5 and the communication control unit 4 (FIG. 3). Step S8).
The waveform data D2 is sequentially stored in the memory 3, and is read from the memory 3 to the data arithmetic processing unit 24 when all the waveform data D2 from the start point to the end point of the measurement range is stored in the memory 3. The waveform data D2 is calculated by the data calculation processing unit 24, converted into waveform data D3 and text data T, and sent to the operation unit 20.
Then, the waveform data D3 is displayed as a diagram on the display unit 6 as shown in FIG. 8 through the operation unit 20, and the text data T is displayed as an event list on the display unit 6 as shown in FIG. Displayed (data operation processing step: step S9 in FIG. 3).
That is, the waveform data D3 and the text data T of a diagram that displays everything from the start point to the end point of the measurement range appear on the display unit 6. In the diagram of the waveform data D3, for example, the horizontal axis indicates the distance from the start point of the optical fiber, and the vertical axis indicates the insertion loss at each distance. Thereby, the start point, the fault point, the connection point, and the end point of the optical fiber measured by the OTDR 100 can be visually grasped by the diagram indicated by the waveform data D3.
Then, in FIG. 9, when one number in the event list is tapped, as shown in FIG. 10, a location corresponding to the number is clearly indicated by the cursor C on the waveform data D3 diagram.

  As described above, according to the tablet portable terminal 1 of this embodiment, not only can the OTDR 100 be remotely operated wirelessly, but also it is light and compact, it can be easily carried anywhere at any time, and desired remote operation can be performed. There is an effect that it can be easily performed. In addition, since the tablet mobile terminal 1 can be started up and the application for tablet mobile terminal P, which is an application, can be performed easily and in a short time, preparatory work before remote operation is not required, and the remote control can be performed in a short time. There is also an effect that the operation can be started.

Next explained is the second embodiment of the invention.
FIG. 11 is a block diagram of a tablet portable terminal according to the second embodiment of the present invention.
This embodiment differs from the first embodiment in that waveform data can be displayed in real time.
As shown in FIG. 11, the tablet portable terminal of this embodiment also includes a CPU 2, a memory 3, a communication control unit 4, a built-in antenna 5, and a display unit 6 as hardware resources, but the functions of the CPU 2 are slightly different. .
Specifically, the CPU 2 uses a real-time control unit 25 as a functional block in addition to the command transmission unit 21, the measurement condition transmission unit 22, the measurement data request unit 23, and the data calculation processing unit 24.
The real-time control unit 25 has a function of repeating the operation of the measurement data request unit 23 and the operation of the data calculation processing unit 24 at regular time intervals.
The real-time control unit 25 operates the measurement data request unit 23 and the data calculation processing unit 24 when the command transmission unit 21 transmits the measurement start command V2. Specifically, after the measurement data request unit 23 transmits the data request V3 and the data calculation processing unit 24 receives the waveform data D2 corresponding to the current data request V3, the converted waveform data D3 and text data T are converted into the operation unit 20. The process until it is sent to is defined as one cycle. Then, this cycle is executed at intervals of about 2 seconds based on a timer or the like (not shown). The real-time control unit 25 stops when it receives a stop command V ′ from the command transmission unit 21.

Next, the operation of the tablet portable terminal 1 of this embodiment will be described.
This operation also specifically executes each step of the tablet portable terminal program Q of the present invention.
FIG. 12 is an operation flowchart of the tablet portable terminal.
As shown in steps S1 to S5 in FIG. 12, this tablet mobile terminal program Q is also similar to the tablet mobile terminal program P applied to the first embodiment, in the measurement condition transmission step (step S2, FIG. 12). S3) and a command transmission step (steps S4 and S5 in FIG. 12).
However, when the tablet portable terminal program Q is executed, the waveform data D3 displayed on the display unit 6 is updated at intervals of about 2 seconds during the measurement.
That is, when the button icon “REAL TIME” 62 for starting real-time measurement shown in FIG. 6 is tapped, the command transmission unit 21 transmits the measurement start command V2, and the real-time control unit 25 operates.
The operation of the measurement data requesting unit 23 and the data calculation processing unit 24 is controlled by the operation of the real time control unit 25 (measurement data requesting step: step S6 in FIG. 12), and the waveform data D2 from the OTDR 100 is subjected to data calculation processing. The data is received by the unit 24 (step S7 in FIG. 12).
Unlike the first embodiment, the waveform data D2 is converted into waveform data D3 and text data T almost simultaneously with reception, sent to the operation unit 20, and displayed on the display unit 6 (data operation processing step). : Steps S7 and S8 in FIG. Then, the cycle of reception of waveform data D2, conversion to waveform data D3 and text data T, and display is performed at intervals of about 2 seconds, and the user can make an interval from the start point of the measurement range to the end point at intervals of 2 seconds. The updated waveform data D3 and text data T can be observed on the display unit 6 (real-time control step: steps S6 to S9 in FIG. 12).
When the button icon “STOP” 63 on the display unit 6 shown in FIG. 8 is tapped, a stop command V ′ from the command transmission unit 21 is transmitted to the real-time control unit 25, and the real-time control unit 25 stops its operation. (YES in step S9 in FIG. 12).
Since other configurations, operations, and effects are the same as those in the first embodiment, description thereof is omitted.

In addition, this invention is not limited to the said Example, A various deformation | transformation and change are possible within the range of the summary of invention.
For example, in the above embodiment, the OTDR 100 is applied as the measurement apparatus, but the present invention is not limited to this. Measurement devices such as a spectrum analyzer, a network analyzer, and an oscillator can also be remotely operated by the tablet portable terminal of the present invention.
In the above-described embodiment, the measurement condition of the OTDR 100 is configured to be manually performed from the display unit 6 to the measurement condition transmission unit 22, but may be configured to be automatically set.
Moreover, although the example which used the tablet portable terminal 1 in the portrait orientation was shown in the said Example, even if it is landscape orientation, it is needless to say that a screen also becomes landscape orientation and operation is possible.

  DESCRIPTION OF SYMBOLS 1 ... Tablet portable terminal, 2 ... CPU Example, 3 ... Memory, 4 ... Communication control part, 5 ... Built-in antenna, 6 ... Display part, 20 ... Operation part, 21 ... Command transmission part, 22 ... Measurement condition transmission part, 23 ... Measurement data request unit 24 ... Data calculation processing unit 25 ... Real time control unit 110 ... Cable 120 ... Access point D1 ... Status information D2 ... Waveform data D3 ... Waveform data ID ... User, LAN ... Wireless, P, Q: Program for tablet mobile terminal, V ′: Stop command, V0: Initialization command, V1: Measurement condition, V2: Measurement start command, V3: Data request.

Claims (6)

It is a tablet mobile terminal that can be operated wirelessly remotely from a measuring device that can send and receive signals,
A measurement condition transmitter for setting the measurement condition of the measurement device and transmitting the measurement condition to the measurement device;
A command transmission unit for transmitting a measurement start command to the measuring device;
When it is determined that the measurement work has been completed, a measurement data request unit that requests measurement data from the measurement device;
A tablet portable terminal comprising: a data calculation processing unit that calculates measurement data received from the measurement device, converts the measurement data into a diagram or text, and displays the converted data. It is a program for a tablet mobile terminal used for a tablet mobile terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals,
A measurement condition transmission step of setting the measurement conditions of the measurement apparatus and transmitting the measurement conditions to the measurement apparatus;
A command transmission step for transmitting a measurement start command to the measuring device;
A measurement data requesting step for requesting measurement data to the measurement device when it is determined that the measurement operation is completed;
Calculating the measurement data received from the measurement device, converting the data into a diagram or text, and displaying the data calculation processing step;
A program for tablet mobile terminals characterized by the above. A recording medium recording a program for a tablet mobile terminal used for a tablet mobile terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals,
When it is determined that the measurement conditions of the measurement device are set, the measurement condition transmission step of transmitting to the measurement device, the command transmission step of transmitting a measurement start command to the measurement device, and the measurement operation being completed. The CPU of the tablet portable terminal has a measurement data requesting step for requesting the measurement data to the measuring device, and a data calculation processing step for calculating the measurement data received from the measuring device and converting it to a diagram or text for display. Recorded the program for tablet mobile devices to be executed,
A recording medium for a program for a tablet mobile terminal. It is a tablet mobile terminal that can be operated wirelessly remotely from a measuring device that can send and receive signals,
A measurement condition transmitter for setting the measurement condition of the measurement device and transmitting the measurement condition to the measurement device;
A command transmitter for transmitting a command for starting real-time measurement to the measuring device;
When a response to the real-time measurement start command transmitted from the command transmission unit is received from the measurement device, a measurement data request unit that requests the measurement data from the measurement device;
A data calculation processing unit that calculates the received measurement data, converts it into a diagram or text, and displays it;
A tablet portable terminal comprising: a real-time control unit configured to repeat the operation of the measurement data request unit and the operation of the data calculation processing unit at regular time intervals. It is a program for a tablet mobile terminal used for a tablet mobile terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals,
A measurement condition transmission step of setting the measurement conditions of the measurement apparatus and transmitting the measurement conditions to the measurement apparatus;
A command transmission step for transmitting a command for starting real-time measurement to the measuring device;
A measurement data request step for requesting measurement data to the measurement device when a response to the real-time measurement start command of the command transmission step is received from the measurement device;
A data calculation processing step for calculating the received measurement data, converting it into a diagram or text, and displaying it;
Causing the CPU of the tablet mobile terminal to execute a real-time control step for repeating the measurement data requesting step and the data calculation processing step at regular time intervals,
A program for tablet mobile terminals characterized by the above. A recording medium recording a program for a tablet mobile terminal used for a tablet mobile terminal for remotely operating a measurement apparatus capable of transmitting and receiving signals,
A measurement condition transmission step for setting measurement conditions for the measurement device and transmitting the measurement device to the measurement device, a command transmission step for transmitting a real-time measurement start command to the measurement device, and a real-time measurement start command for the command transmission step A measurement data request step for requesting measurement data to the measurement device when a response is received from the measurement device, a data calculation processing step for calculating the received measurement data, converting it into a diagram or text, and displaying it; A tablet portable terminal program that causes the CPU of the tablet portable terminal to execute a real-time control step that repeats the measurement data request step and the data calculation processing step at a constant time interval is recorded.
A recording medium for a program for a tablet mobile terminal.

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