JP2023130180A - Information processing device, information sharing system, information sharing method and information sharing program - Google Patents

Abstract

To provide an information processing device, an information sharing system, an information sharing method and an information sharing program capable of improving the precision of information sharing.SOLUTION: An information processing device 1 is an information processing device which is connected to a plurality of portable terminals 2A to 2D via a communication network, and which includes: a storage unit 11 that stores display information which displays a measurement target object; a transmission and reception unit 12 that communicates with the plurality of portable terminals 2 to transmit and receive information; and a control unit 13 that controls the storage unit 11 and the transmission and reception unit 12. The transmission and reception unit 12 obtains, from each of the portable terminals 2A to 2D, measurement information that contains the measurement result of the measured part of the measurement target object, and the positional information on such a measured part in the display information. When the transmission and reception unit 12 obtains the measurement information from the one portable terminal 2A, the control unit 13 causes the storage unit 11 to store the measurement information, and causes the transmission and reception unit 12 to transmit the measurement information to the other portable terminals 2B to 2D.SELECTED DRAWING: Figure 4

Description

The present invention relates to an information processing device, an information sharing system, an information sharing method, and an information sharing program.

BACKGROUND ART Conventionally, a measurement system that includes a measurement device, a mobile information terminal, and a data server has been proposed as a measurement system used for maintenance work on power supply equipment, etc. (see, for example, Patent Document 1). The measurement system described in Patent Document 1 is used when there are a plurality of measurement targets, and identifies the measurement target whose measurement order is earliest among the measurement targets for which measurement values have not been completely acquired. This makes it easier to understand which measurement target should be measured.

JP2019-15641A

However, in cases where there are many objects to be measured or objects to be measured are placed far apart, multiple workers may perform measurements, and the measurement system described in Patent Document 1 It was difficult to respond to tasks involving workers. That is, it is difficult for each worker to confirm one by one which object measurements have been completed by other workers, and there is a possibility that work may be duplicated or omitted.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide an information processing device, an information sharing system, an information sharing method, and an information sharing program that can improve the accuracy of information sharing.

An information processing device according to a typical embodiment of the present invention is an information processing device that is connected to a plurality of mobile terminals via a communication network, and includes a storage unit that stores display information for displaying a measurement target object. , a transmitting/receiving unit that communicates with the plurality of mobile terminals to transmit and receive information, and a control unit that controls the storage unit and the transmitting/receiving unit, and the transmitting/receiving unit transmits information from the mobile terminal to the measurement target. acquiring measurement information including a measurement result of the target part and position information of the target part in the display information; The measurement information is stored in the storage unit, and the transmitting/receiving unit is configured to transmit the measurement information to the other mobile terminal.

According to the information processing device according to the present invention, it is possible to improve the accuracy of information sharing.

FIG. 1 is a block diagram showing the configuration of an information sharing system according to an embodiment. FIG. 2 is a plan view showing an example of a display on a mobile terminal of the information sharing system according to the embodiment. It is a table showing an example of measurement information transmitted and received in the information sharing system according to the embodiment. 2 is a flowchart illustrating an example of an information sharing process executed by an information processing apparatus in an information sharing system according to an embodiment. 2 is a flowchart illustrating an example of a transmission process executed by a mobile terminal in the information sharing system according to the embodiment. FIG. 7 is a plan view showing another example of the display on the mobile terminal of the information sharing system according to the embodiment.

1. Overview of Embodiments First, an overview of typical embodiments of the invention disclosed in this application will be described. In the following description, as an example, reference numerals on the drawings corresponding to constituent elements of the invention are written in parentheses.

[1] An information processing device (1) according to a typical embodiment of the present invention is an information processing device that is connected to a plurality of mobile terminals (2A) to (2D) via a communication network, and is a storage unit (11) that stores display information for displaying a target object; a transmitting/receiving unit (12) that communicates with the plurality of mobile terminals (2) to transmit and receive information; and the storage unit (11) and the transmitting/receiving unit. (12), the transmitting/receiving unit (12) transmits the measurement results of the target part of the measurement object from the mobile terminals (2A) to (2D) and the display. When the transmitting/receiving unit (12) acquires the measurement information from one of the mobile terminals (2A), the control unit (13) acquires the measurement information including the position information of the target part in the information, The measurement information is stored in the storage unit (11), and the transmission/reception unit (12) is configured to transmit the measurement information to the other mobile terminals (2B) to (2D).

[2] In the information processing device (1) according to [1] above, the transmitter/receiver (12) includes identification information of the mobile terminals (2A) to (2D) and the mobile terminal ( Information including at least one of the identification information of the worker who operates 2A) to (2D) may be acquired.

[3] In the information processing device (1) according to [1] or [2] above, the transmitting/receiving unit (12) transmits communication information regarding the communication status with each of the mobile terminals (2A) to (2D). When the communication state of a predetermined mobile terminal among the other mobile terminals (2B) to (2D) is poor, when the communication information becomes good, the control unit (13) acquires the information. The transmitting/receiving section (12) may be caused to transmit the measurement information to the predetermined mobile terminal.

[4] In the information processing device (1) according to [1] or [2] above, the control unit (13) allows the transmitting/receiving unit (12) to communicate with the other mobile terminals (2B) to (2D). If the transmitter/receiver (12) does not receive response information regarding reception of the measurement information from the predetermined mobile terminal after transmitting the measurement information, the transmitter/receiver (12) The measurement information may be retransmitted to the mobile terminal.

[5] An information sharing system (100) according to a typical embodiment of the present invention includes the information processing device (1) according to any one of [1] to [4] above, and the plurality of mobile phones. It is characterized by comprising terminals (2A) to (2D).

[6] An information sharing method according to a typical embodiment of the present invention uses an information processing device (1) connected to a plurality of mobile terminals (2A) to (2D) via a communication network to An information sharing method for sharing information between a plurality of mobile terminals (2A) to (2D), the mobile terminals (2A) to (2D) transmitting measurement results of a target part of a measurement object and the an acquisition step of acquiring measurement information including position information of the target part in display information displaying the measurement target object; and a storage section (1) of the information processing device (1) to store the measurement information acquired in the acquisition step. 11); and a transmission step of transmitting the measurement information acquired in the acquisition step to the other mobile terminals (2B) to (2D).

[7] An information sharing program according to a typical embodiment of the present invention is characterized by causing a computer to execute each step in the information sharing method described in [6] above.

2. Specific Examples of Embodiments Hereinafter, specific examples of embodiments of the present invention will be described with reference to the drawings. In addition, in the following description, the same reference numerals are given to the same component in each embodiment, and repeated description is omitted.

FIG. 1 is a block diagram showing the configuration of an information sharing system 100 according to an embodiment.

The information sharing system 100 is used to share information among a plurality of workers when inspecting building equipment, for example, and includes a server 1 as an information processing device and a mobile terminal 2A owned by each worker. ~2D and. In the illustrated example, it is assumed that the information sharing system 100 has four mobile terminals 2A to 2D, but the information sharing system only needs to include a plurality of mobile terminals, and the number is not limited.

The information processing device 1 is a program processing device that transmits and receives data and performs data calculations. Examples of the information processing device 1 include a server, a PC (Personal Computer), and the like. Note that the information processing device 1 may be a device including a processor such as a CPU (Central Processing Unit) and an MCU (Micro Controller Unit) including a storage device. In the following description, the information processing apparatus 1 is assumed to be a server as an example, and the information processing apparatus 1 is also referred to as "server 1."

The server 1 is connected to a plurality of mobile terminals 2A to 2D via a communication network, and includes a storage section 11, a transmitting/receiving section 12, and a control section 13. The server 1 may have other configurations such as a display section and an input section.

The storage unit 11 is a nonvolatile storage device that stores various types of information that will be described later, and may be a magnetic storage device such as a hard disk drive, or an electrical storage device such as a solid state drive. It's okay.

The transmitting/receiving unit 12 is a wireless communication unit that wirelessly communicates with the mobile terminals 2A to 2D via a communication network such as the Internet, and includes, for example, an RF circuit and an antenna.

The control unit 13 controls each unit of the server 1 (especially the storage unit 11 and the transmitting/receiving unit 12), and includes a processor such as a CPU (Central Processing Unit), a RAM (Random Access Memory), and a ROM (Read Only Memory). ) and various peripheral circuits.

The server 1 as described above stores information acquired from the transmitting/receiving section 12 in the storage section 11 or processing it using the control section 13, and transmits the information stored in the storing section 11 to the outside using the transmitting/receiving section 12. It is something that can be done.

The mobile terminals 2A to 2D are devices capable of wireless communication, such as smartphones and tablet terminals, and include a storage section 21, a transmitting/receiving section 22, a control section 23, a display section 24, and an input section 25. . Although the plurality of mobile terminals 2A to 2D have the above-mentioned configurations in common, the size and performance of each part may be different, and smartphones and tablet terminals may be mixed. .

The storage unit 21 is a nonvolatile storage device that stores various types of information that will be described later, and is exemplified by an electrical storage device such as a solid state drive.

The transmitting/receiving unit 22 is a wireless communication unit that wirelessly communicates with the server 1 via a communication network such as the Internet, and includes, for example, an RF circuit, an antenna, and the like. That is, the transmitting/receiving sections 22 of the mobile terminals 2A to 2D may be compatible with the transmitting/receiving section 12 of the server 1. Further, in the case where wired communication is performed with a measuring device 200 to be described later, the transmitting/receiving section 22 only needs to be provided with a terminal section capable of wired communication.

The control unit 23 controls each part of the mobile terminals 2A to 2D, and includes a processor such as a CPU (Central Processing Unit), a storage device such as a RAM (Random access memory) or a ROM (Read Only Memory), It is configured to include various peripheral circuits.

The display unit 24 is a display for displaying various information, and may be, for example, a liquid crystal display, an organic EL display, or the like.

The input unit 25 is used by the operator to input various information, and in the following description it is assumed that a touch panel is employed, but a keyboard or the like independent of the display may also be employed.

The mobile terminals 2A to 2D described above store information acquired from the transmitting/receiving section 22 or the input section 25 in the storage section 21 or process it using the control section 23, and transmit/receive the information stored in the storage section 21. The information stored in the storage section 21 can be displayed on the display section 24.

Here, as an example of equipment inspection, a method of using the information sharing system 100 (information sharing method) in inspection work of a power distribution board will be described. In this case, the switchboard is the object to be measured, each electric wire provided on the switchboard is the target part, the electrical resistance is measured, and the resistance value is the measurement result.

One worker uses one of the mobile terminals 2A to 2D. At this time, each of the mobile terminals 2A to 2D has a terminal ID as identification information. Furthermore, when each worker starts up the inspection application, he or she inputs his or her own worker ID as identification information for the worker operating each of the mobile terminals 2A to 2D.

When starting inspection work, the worker first launches an inspection application and takes a picture of the switchboard. At this time, a camera installed in the mobile terminals 2A to 2D may be used, or a camera that is a separate device from the mobile terminals 2A to 2D may be used to take a picture and the image data is sent to the mobile terminals 2A to 2D. It's okay. By photographing the switchboard in this way, the mobile terminals 2A to 2D obtain display information (image data) that displays the switchboard. In the following work, it is assumed that an inspection application is always running on the mobile terminals 2A to 2D, and this application is used for displaying on the display section 24 and inputting to the input section 25.

For example, when the mobile terminal 2A among the plurality of mobile terminals 2A to 2D acquires the display information, the control unit 23 of the mobile terminal 2A causes the storage unit 21 to store the display information, the transmitting/receiving unit 22, and the server 1. to send display information to. In the server 1, when the transmitting/receiving section 12 acquires the display information, the control section 13 causes the storage section 11 to store the display information, and causes the transmitting/receiving section 12 to transmit the display information to the other mobile terminals 2B to 2D. . In other mobile terminals 2B to 2D, when the transmitting/receiving section 22 acquires the display information, the control section 23 causes the storage section 21 to store the display information. In this way, all the mobile terminals 2A to 2D and the server 1 store display information.

When a plurality of switchboards exist in one building, the same work as above may be performed for each switchboard. Incidentally, if the target switchboard has been inspected in the past, past display information stored in the server 1 may be sent to the mobile terminals 2A to 2D. For example, if the shape of the object to be measured is clear, drawing data such as completed building drawing data may be used as the display information instead of the photographed image data, and in this case, it is stored in the server 1. The generated drawing data may be sent to the mobile terminals 2A to 2D.

Next, the workers cause the display unit 24 to display the display information of the switchboard that each worker is in charge of (see FIG. 2). That is, the measurement target T1, which is a part of the switchboard, has a plurality of target parts (wires) T11 to T16. Then, the operator measures the electrical resistance of each of the electric wires T11 to T16 and inputs the measurement results.

FIG. 1 shows how the measuring device 200 and the mobile terminals 2A to 2D communicate and transmit resistance value information. The measuring device 200 and the mobile terminals 2A to 2D may be connected wirelessly or by wire, and the communication method and the like are not particularly limited. When the operator taps on the display unit 24 near the electric wires T11 to T16 to be measured (for example, the positions of displays D11 and D12 described later), the resistance value information to be measured (or measured) is displayed at the tapped position. will be displayed.

Note that when the mobile terminals 2A to 2D and the measuring device 200 cannot communicate, it may be possible to switch to the manual input mode. That is, the resistance value obtained from the measured value 200 may be manually input by the operator into the display section 24 of the mobile terminals 2A to 2D. Alternatively, the mobile terminals 2A to 2D and the measuring device 200 may not communicate with each other in the first place, and the resistance value may always be manually input.

For example, when a resistance value is input as described above in the mobile terminal 2A, the resistance value is displayed on the display section 24 near the electric wire as shown in FIG. That is, the resistance value of the electric wire T11 is displayed as a display D11 near the electric wire T11, and the resistance value of the electric wire T14 is displayed as a display D12 near the electric wire T14. The storage unit 21 of the mobile terminal 2A stores measurement information including the resistance value as the measurement result and the position information of the electric wire in the display information. This position information may be coordinate information (X, Y) in display information that is image data.

When the resistance value is input, the control unit 23 of the mobile terminal 2A controls the transmitting/receiving unit 22 to transmit measurement information to the server 1. When the transmitting/receiving section 12 acquires measurement information, the control section 13 of the server 1 causes the transmitting/receiving section 12 to store this measurement information in the storage section 11, and causes the transmitting/receiving section 12 to transmit this measurement information to the other mobile terminals 2B to 2D. let When the transmitting/receiving section 22 acquires measurement information, the other mobile terminals 2B to 2D store this measurement information in the storage section 21 and display not only the display information but also the measurement results on the display section 24. At this time, the display position of the measurement results is determined based on the position information included in the measurement information.

Similar processing is performed when one of the other mobile terminals 2B to 2D acquires and transmits measurement information. As a result, a plurality of pieces of measurement information are stored in the server 1 and the mobile terminals 2A to 2D.

FIG. 3 is a table showing an example of measurement information transmitted and received in the information sharing system according to the embodiment.

The measurement information is stored in the server 1 and the mobile terminals 2A to 2D, for example, as a table shown in FIG. That is, the measurement information includes, for example, information on the date and time of measurement, a worker ID, a terminal ID, and an image number for identifying which switchboard it is. , location information, measured values, and information as to whether there are any terminals that have not yet transmitted, as will be described later. Note that information about untransmitted terminals does not need to be stored in the mobile terminals 2A to 2D. As described above, measurement information is shared in real time among the plurality of mobile terminals 2A to 2D.

In the information sharing system 100 as described above, the information sharing process executed by the control unit 13 of the server 1 will be described with reference to the flowchart of FIG. 4.

The control unit 13 starts the information sharing process, for example, when acquiring information indicating that the above application has been started on the mobile terminals 2A to 2D. In the information sharing process, the control unit 13 first determines whether or not it is a re-measurement based on the information received from the mobile terminals 2A to 2D (step S1). If it is not a re-measurement (N in step S1), the control unit 13 repeatedly determines whether the transmitting/receiving unit 12 has acquired the display information (step S2). When the transmitter/receiver 12 acquires the display information (Y in step S2), the controller 13 causes the transmitter/receiver 12 to store the display information in the storage unit 11 (step S3), and causes the transmitter/receiver 12 to receive the display information from the mobile phone to which the display information has been transmitted. Display information is transmitted to a mobile terminal different from the terminal (step S4).

In the case of re-measurement (Y in step S1) or after step S4, the control unit 13 repeatedly determines whether the transmitting/receiving unit 12 has acquired measurement information (step S5). The process of acquiring measurement information before step S5 is an acquisition process. When the transmitting/receiving unit 12 acquires the measurement information (Y in step S5), the control unit 13 causes the storage unit 11 to store this measurement information (step S6, storage step). Next, the control unit 13 transmits the measurement information to a mobile terminal different from the mobile terminal to which the measurement information has been transmitted, based on the terminal ID included in the measurement information (step S7, transmission step). After step S7, the control unit 13 returns to step S4 again and repeats the above steps.

Note that the control unit 13 may end the information sharing process, for example, when receiving a termination command from the mobile terminals 2A to 2D or when all preset measurements are completed. Further, in step S4 described above, it is assumed that measurement information is acquired for an unmeasured target part, but measurement information may be acquired again for a target part for which measurement information has already been acquired. When acquiring measurement information again in this way, the already stored measurement information may be updated in step S5 above. At this time, a confirmation message or the like may be displayed on the display unit 24 to confirm whether or not to update the measurement information, and the operator may be able to select whether or not to update (overwrite) the measurement information. Moreover, instead of simply overwriting the measurement information, new measurement information may be stored while storing past measurement information. When storing both past measurement information and new measurement information, both pieces of information may be displayed, or the display of past measurement information and new measurement information may be switched by an operator's operation. .

In the above description, it is assumed that the communication status between the server 1 and the mobile terminals 2A to 2D is always good, but the communication status may deteriorate temporarily. How to deal with such a case will be explained below.

First, the case where information is transmitted from the mobile terminals 2A to 2D to the server 1 will be explained. The mobile terminals 2A to 2D can determine whether their communication status is good or bad based on the status of the transmitting/receiving unit 22. The transmission process executed by the control units 23 of the mobile terminals 2A to 2D in order to cope with deterioration of the communication state will be described with reference to the flowchart of FIG. 5.

The control unit 23 starts the transmission process when the above application is started. In the transmission process, the control unit 23 first repeatedly determines whether the measurement result and position information have been input (step S11). When the measurement results and position information are input (Y in step S11), the control unit 23 acquires communication status information from the transmitting/receiving unit 22 (step S12), and determines whether the communication status is good or not. (Step S13). If the communication state is not good (poor) (N in step S13), the control unit 23 causes the storage unit 21 to store the latest measurement information as unsent measurement information (step S14), and returns to step S11.

If the communication state is good (Y in step S13), the control unit 23 causes the transmitter/receiver 12 to transmit the latest measurement information (step S15), and causes the transmitter/receiver 12 to transmit untransmitted measurement information (step S16). ). Further, the control unit 23 causes the storage unit 21 to store the information transmitted in steps S15 and 16 as already transmitted information (step S17), and returns to step S11 again. Note that the control unit 23 may end the transmission process, for example, when the application is stopped. Although it is assumed that the measurement information is automatically transmitted in step S15 above, the measurement information may be transmitted only when the operator issues a transmission command.

In the above, the communication status of the mobile terminals 2A to 2D was determined, but even if the communication status of the mobile terminals 2A to 2D themselves is good, communication may not be possible due to trouble on the server 1 side. Therefore, in the above transmission process, a step of determining the presence or absence of response information may be adopted. Response information is information that a device (server or mobile terminal) that has acquired measurement information transmits to a device that has transmitted the measurement information to notify that it has received the measurement information.

That is, following the step of transmitting measurement information as in step S15, the control section 23 executes a step of determining whether the transmitting/receiving section 22 has received the response information from the server 1, and the transmitting/receiving section 22 receives the response information. When the information is not received, the control unit 23 may cause the storage unit 21 to store the measurement information at this time as unsent measurement information. By adopting such a process, it is possible to deal with any problem occurring in either the mobile terminals 2A to 2D or the server 1.

Furthermore, similar processing may be performed when transmitting information from the server 1 to the mobile terminals 2A to 2D. That is, the control unit 13 of the server 1 determines that after the transmitting/receiving unit 12 has transmitted measurement information to the mobile terminals 2A to 2D, the transmitting/receiving unit 12 has not received response information regarding reception of measurement information from a predetermined mobile terminal. In this case, the transmitting/receiving section 12 may be made to retransmit the measurement information to this predetermined mobile terminal.

In this case, after step S6 of transmitting the measurement information in the information sharing process described above, the control unit 13 executes a step of determining whether the transmitting/receiving unit 12 has received the response information from the mobile terminals 2A to 2D. , when the transmitting/receiving unit 12 does not receive response information from a predetermined mobile terminal among the mobile terminals 2A to 2D, the control unit 13 stores the measurement information at this time in the storage unit 11 as untransmitted measurement information. Bye. Thereafter, the control unit 13 may cause retransmission based on a predetermined condition, such as when a predetermined time has elapsed or when response information is received after the next measurement information is transmitted.

For example, suppose that when the server 1 acquires measurement information from the mobile terminal 2A and transmits the measurement information to the other mobile terminals 2B to 2D, no response information can be received from the mobile terminal 2B. At this time, the control unit 13 of the server 1 remembers that the measurement information could not be transmitted to the mobile terminal 2B, and instructs the transmitter/receiver unit 12 to transmit the measurement information to the mobile terminal 2B based on the predetermined conditions as described above. Have the information retransmitted.

Further, in the server 1 as well, a step of determining the communication state of the server 1 may be adopted instead of a step of determining the presence or absence of response information. That is, the transmitting/receiving unit 12 of the server 1 acquires communication information regarding the communication status with each of the mobile terminals 2A to 2B, and the control unit 13 determines the communication status of a predetermined mobile terminal among the other mobile terminals 2A to 2D. If it is defective, the transmitting/receiving section 12 may be made to transmit measurement information to this predetermined mobile terminal when this communication information becomes good.

In this case, before step S6 of transmitting measurement information in the information sharing process described above, the control unit 13 executes a step of determining the communication state between the server 1 and each of the mobile terminals 2A to 2D, and If the communication status with a predetermined mobile terminal among the 2Ds is poor, the measurement information at this time is stored in the storage unit 11 as unsent measurement information, and when the communication status is restored, this measurement information is stored in the storage unit 11. All you have to do is send it to your mobile device.

For example, assume that the server 1 acquires measurement information from the mobile terminal 2A and that the communication state with the mobile terminal 2B is poor. At this time, the control unit 13 of the server 1 causes the storage unit 11 to store that measurement information cannot be transmitted to the mobile terminal 2B, and when the communication condition becomes good, the control unit 13 of the server 1 causes the transmitting and receiving unit 12 to send the measurement information to the mobile terminal 2B. Cause measurement information to be retransmitted.

In addition, when retransmitting measurement information from the server 1 or mobile terminals 2A to 2D, it may be transmitted after determining that the communication condition has become good as described above, or it may be transmitted automatically at a predetermined time interval. You may resend it.

According to this embodiment, the measurement information includes measurement results and position information, and when the server 1 acquires measurement information from one mobile terminal 2A, it transmits this measurement information to the other mobile terminals 2B to 2D. By transmitting the information, each worker can understand which wiring (target part) in which switchboard (object to be measured) has been completely measured by checking the displayed information. Thereby, the accuracy of information sharing can be improved.

By improving the accuracy of information sharing as described above, duplication of work and omission of work can be suppressed. Furthermore, by sharing and accumulating information, there is no need to integrate the work results of each worker after all work is completed, making it easier to create a work report.

In addition, by including the terminal ID and worker ID in the measurement information, it is possible to confirm that the work was performed by an authorized worker using an authorized terminal, thereby ensuring the reliability of the measurement results. can.

In addition, by checking the communication status and acquiring response information, the server 1 and mobile terminals 2A to 2D can determine whether or not to send the measurement information, and by retransmitting it, it is possible to avoid omissions in transmission. This can further improve the accuracy of information sharing.

≪Expansion of the embodiment≫
Above, the invention made by the inventor of the present application has been specifically explained based on the embodiments, but it goes without saying that the present invention is not limited thereto and can be modified in various ways without departing from the gist thereof. .

For example, in the embodiment described above, the electrical resistance is measured using a switchboard as the object to be measured and its electric wires as the object, but the object to be measured, the object, and the characteristics to be measured are not limited thereto. For example, as shown in FIG. 6, a power distribution board having a plurality of breakers may be used as the object to be measured, and the voltage value applied to the breaker as the object part may be measured. In the example shown in FIG. 6, the object to be measured (switchboard) T2 has a plurality of target parts (breakers) T21 to T27, the voltage applied to the breaker T26 is displayed as a display D21 near the breaker T26, and the voltage applied to the breaker T26 is displayed as a display D21, and the voltage applied to the breaker T26 is displayed as a display D21. The applied voltage is shown near breaker T28 as display D22.

Alternatively, the illuminance at a predetermined position may be measured using illumination installed in a building as the object to be measured. At this time, the measurement position becomes the target part. In addition, the characteristics to be measured are not limited to the wire resistance, voltage, and illuminance as described above, but also include various physical quantities such as insulation resistance, grounding resistance, current, power, temperature, humidity, volume, and brightness. It's okay.

Further, in the above embodiment, the control unit 13 causes the measurement information to be transmitted in step S6 of the information sharing process, but before this step, it is determined whether there is a request command from the mobile terminals 2A to 2D. , measurement information may be transmitted when there is a request command. That is, instead of automatically transmitting the measurement information from the server 1, the measurement information may be transmitted based on a command from the mobile terminals 2A to 2D. At this time, the mobile terminals 2A to 2D may transmit request command signals to the server 1 at predetermined time intervals.

Further, in the above embodiment, the measurement information includes the terminal ID and the worker ID, but the measurement information may include only one of these. For example, if the measurement information includes only the worker ID, reliability can be ensured based on the worker ID even if each worker freely chooses which mobile terminal 2A to 2D to use. be able to. Further, the measurement information may not include either the terminal ID or the worker ID. In this case, reliability may be ensured by other methods, such as locking the mobile terminal itself or the startup of the application so that only authorized workers can operate it.

Further, in the above embodiment, an example of how to use the information sharing system 100 has been described, but the method is not limited to this method. For example, when repeatedly measuring the same target, the following method is also possible. be. First, at the time of the first measurement, display information is generated and measurement information is stored in the same manner as described above. Among the display information generated at this time and the measurement information obtained, for example, information No. 1 as described above. , Image No. and the position information, a template is generated and stored in the server 1. In the second and subsequent measurements, this template is first sent from the server 1 to the mobile terminals 2A to 2D.

As a result, the display section 24 of the mobile terminals 2A to 2D is in a state where a field for inputting a measured value is displayed (arranged on the image) before the second and subsequent measurements. Further, only such an input field may be displayed, or past (especially previous) measurement values may be displayed together with this input field. By displaying past measured values, you can compare them with the latest measured values and improve quality.

In addition, even if it is the first measurement, if the part to be measured can be known in advance, a template similar to the above can be created based on a drawing, etc., and this template can be used for the first (or second and subsequent measurements). ) may be measured.

The above-mentioned flowchart shows an example for explaining the operation, and is not limited thereto. That is, the steps shown in each figure of the flowchart are specific examples, and the flowchart is not limited to this flow. For example, the order of some processes may be changed, other processes may be inserted between each process, or some processes may be performed in parallel.

DESCRIPTION OF SYMBOLS 1... Server (information processing device), 11... Storage unit, 12... Transmission/reception unit, 13... Control unit, 2A to 2D... Mobile terminal, 100... Information sharing system

Claims (7)

An information processing device connected to multiple mobile terminals via a communication network,
a storage unit that stores display information for displaying the measurement target;
a transmitting/receiving unit that communicates with the plurality of mobile terminals to transmit and receive information;
a control unit that controls the storage unit and the transmission/reception unit,
The transmitting/receiving unit acquires measurement information including a measurement result of a target part of the measurement object and position information of the target part in the display information from the mobile terminal,
When the transmitting and receiving unit acquires the measurement information from one of the mobile terminals, the control unit causes the storage unit to store the measurement information, and causes the transmitting and receiving unit to transmit the measurement information to the other mobile terminal. An information processing device configured to transmit. 2. The transmitting/receiving unit acquires, as the measurement information, information including at least one of identification information of the mobile terminal and identification information of a worker operating the mobile terminal. The information processing device described. The transmitting/receiving unit acquires communication information regarding the communication status with each of the mobile terminals,
If the communication status of a predetermined mobile terminal among the other mobile terminals is poor, the control unit may cause the transmitting and receiving unit to transmit information to the predetermined mobile terminal when the communication information becomes good. The information processing device according to claim 1 or 2, wherein the information processing device transmits the measurement information. The control unit is configured to control the transmission and reception unit when, after the transmission and reception unit transmits the measurement information to the other mobile terminal, the transmission and reception unit does not receive response information regarding reception of the measurement information from the predetermined mobile terminal. 3. The information processing apparatus according to claim 1, wherein the transmitting/receiving unit retransmits the measurement information to the predetermined mobile terminal. An information sharing system comprising: the information processing device according to claim 1; and the plurality of mobile terminals. An information sharing method that uses an information processing device connected to a plurality of mobile terminals via a communication network to share information between the plurality of mobile terminals, the method comprising:
an acquisition step of acquiring measurement information including a measurement result of a target part of the measurement target and position information of the target part in display information displaying the measurement target from the mobile terminal;
a storage step of storing the measurement information acquired in the acquisition step in a storage section of the information processing device;
An information sharing method comprising: a transmitting step of transmitting the measurement information acquired in the acquiring step to another of the mobile terminals. An information sharing program that causes a computer to execute each step in the information sharing method according to claim 6.

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