JP4801738B2 - Work support program - Google Patents

Description

  The present invention relates to a work support program executed in a work support server for supporting an operator's work.

  Conventionally, as a work support program for supporting these workers, a visit schedule and re-work instruction information as work instructions are transmitted to the workers to support visit work of field operators who are workers, (For example, refer to Patent Document 1) In the work site, there is one in which an operator can acquire various data such as work process data from a server computer (for example, refer to Patent Document 2).

JP-A-2005-339303 (page 5, FIG. 1) JP 2002-287846 A (page 9, FIG. 5)

  In the work support program executed on the server computer to implement these work support, changes such as change or increase of workers, increase or decrease of work contents or items, increase or decrease of work base or monitoring items, etc. Compared to processing programs, there are many problems, and there is a problem that if the changes are not made quickly, there will be problems in actual work and work, and these changes need to be carried out easily and quickly. However, in these conventional work support programs, as shown in FIG. 17, the program is changed by changing the configuration of individual tables in the database, or accessing (retrieving, searching) the tables according to the configuration change of these tables. It is necessary not only to change the SQL statement for registering, changing, and deleting), but also for each processing program that uses these SQL statements. The ram also needs to be changed, and it is necessary to implement changes while individually verifying whether one change has an adverse effect on other changes or processing programs. There is a problem that labor and time are required, and the above-mentioned demand cannot be met.

  The present invention has been made paying attention to such problems, and an object thereof is to provide a work support program capable of reducing labor and time required for the change.

In order to solve the above problem, a work support program according to claim 1 of the present invention provides:
It is connected to a worker terminal (notebook personal computer 1) that can be operated and carried by a worker who goes to the work site so that data communication is possible, and various types of information relating to work performed at the work site are digitized. A work support program (book) that operates on a server computer (work support server 3, central monitoring server 4) that distributes the electronic document (work instruction mail, work instruction, manual, etc.) to the worker terminal and supports the work. Invention type program),
A data processing program (data processing program) for performing data processing related to the work support;
The structure in the column direction (four items in this embodiment) is fixed, and a generation key item (actual key) that stores a generation key for generating a virtual table (temporary table) used by the data processing program as the item of the column A database including at least one real table having at least a table name, a key, and an item number in the table, and the structure is unchanged even when the work support program is changed,
A program for accessing a real table in the database (program for accessing a real table);
Using the real table access program, a virtual table generation step for generating a plurality of virtual tables from the real table based on the generation key stored in the generation key item of the real table (from the real table) Retrieve all data with the same table name, group these data based on whether the key values are the same, and set the item values of multiple data grouped based on these key values to item numbers And the virtual table generated in the virtual table generation step is the above-mentioned data, and the item values arranged in the horizontal row are sequentially arranged in the downward direction every time the key value changes). Interface steps that allow a processing program to access as a normal real table (one real table The object and its methods that correspond to the temporary tables and one-to-one, and the interface program comprising a process) to be accessible as a plurality of temporary tables (data mapping API),
It is characterized by comprising.
According to this feature, even if the program needs to be changed, the interface program may be changed mainly so that the virtual table generated by the virtual table generation step becomes a virtual table corresponding to the change. Since there is almost no need to change the table configuration or the actual table access program, the labor and time required for the change can be reduced.

A work support system according to claim 2 of the present invention is the work support program according to claim 1,
In order to add / change / delete items of the virtual table (temporary table) according to the change, at least the interface program (data mapping API) based on predetermined data mapping data created by the change operator ) Is included. An automatic update program for automatically updating is included.
According to this feature, the interface program is not changed directly by the operator, but the interface program is changed using the predetermined data mapping data and the automatic update program, so the data is changed to the predetermined data mapping data. Since it is only necessary to input the contents, problems such as bugs caused by mistakes in the change work are less likely to occur than when the interface program is changed directly, and these changes can be carried out more easily and accurately. In addition, it is not necessary to specify an automatic update program corresponding to the change of the work support program, and the occurrence of inconvenience due to an error of the automatic update program can be reduced.

The work support system according to claim 3 of the present invention is the work support program according to claim 1 or 2,
The automatic update program is a real table update step for updating the real table based on the data mapping data (in the case of adding / changing / deleting items, for all data having the same table name, (Add, change, and delete items for each data grouped by key value).
According to this feature, the update of the real table such as additional registration of the generated key to the real table based on the change is also automatically performed by the automatic update program, so that the labor and time required for the change can be further reduced.

A work support system according to claim 4 of the present invention is the work support program according to any one of claims 1 to 3,
The data mapping data is included.
According to this feature, when the change is made, the data mapping data used for the previous change is easily included in the work support program to be changed, so that the data mapping data used for the previous change can be easily obtained. Since the data mapping data can be easily used even in a new change, the labor and time required for the change can be further reduced.

The work support system according to claim 5 of the present invention is the work support program according to any one of claims 1 to 4,
The server computer (work support server 3, central monitoring server 4) is connected to a supporter terminal (personal computer 2) that can be operated by a work supporter who supports the work performed by the worker so that data communication is possible. The worker terminal (notebook computer 1) includes an imaging means (worker terminal camera 101) for capturing an image at the work site,
The processing program (invention type program) includes, as the electronic document (work instruction mail, work instruction, manual, etc.), at least information regarding work contents to be worked by the worker (work instruction). Work instruction electronic document transmission processing step (work instruction mail transmission processing, work instruction transmission processing) for transmitting an electronic document (work instruction mail, work instruction) to the worker terminal of the worker, and a request for assistance from the worker A work supporter who supports the work using worker terminal video data (worker terminal camera video) of the video captured by the imaging means transmitted from the worker terminal in response to an operation (operation of a support request button). And a worker terminal video data transmission step for performing processing for transmitting to the supporter terminal of the specified work supporter and (relay / recording start processing). It is characterized in.
According to this feature, the work supporter can perform work support while confirming the worker terminal image on the worker terminal on the supporter terminal, and the worker can provide more accurate work support. Can be received from the person.

A work support system according to claim 6 of the present invention is the work support program according to any one of claims 1 to 5,
The server computer (work support server 3, central monitoring server 4) is connected to a monitoring camera (permanent monitoring cameras 5a, 5b, 5c,...) Permanently installed at the work site so as to be able to perform data communication. Monitoring camera identification information (permanent monitoring camera ID) that can identify each monitoring camera individually and site identification information (base number, work number, support number) that can identify the work site where the monitoring camera is permanently installed ), And the work instruction electronic document (work instruction mail, work instruction document) includes work site identification information (site number, work number) on which the worker should perform work,
The processing program is transmitted from the worker terminal (notebook computer 1) in response to the support request operation (operation of a support request button) in the worker terminal video data transmission step (relay / recording start processing). In response to receiving support request information including on-site identification information (operation number), the monitoring camera identification information stored in association with the on-site identification information included in the received support request information is specified, and the specified monitoring is performed. Monitoring video data (permanent monitoring camera video) captured by the monitoring camera identified from the camera identification information and work that is a video captured by the imaging means (worker terminal camera 101) of the worker terminal For transmitting the worker terminal video data (worker terminal camera image) to the supporter terminal (personal computer 2) of the identified work supporter (relay / recording start process) ) It is characterized by performing.
According to this feature, the monitoring video data of the surveillance camera permanently installed at the work site specified from the site specification information included in the support request information from the worker terminal, and the worker terminal video by the imaging means of the worker terminal Is transmitted to the support terminal of the identified work supporter, and the monitoring camera video based on the monitoring video data and the worker terminal video based on the worker terminal video data are displayed on the supporter terminal. As a result, the work supporter can easily obtain a monitoring camera image that is a wide range of on-site images, and can more accurately carry out judgments and instructions according to the on-site conditions.

It is a system diagram which shows the whole image of a work support system. It is a block diagram which shows the structure of a permanent surveillance camera. It is a figure which shows the permanent surveillance camera table which a work assistance server memorize | stores. It is a figure which shows the central monitoring server table which a work assistance server memorize | stores. (A) is a figure which shows the permanent monitoring camera recording information table which a work assistance server memorize | stores, (b) is a figure which shows the abnormality information table which a work assistance server memorize | stores. (A) is a figure which shows the work instruction document table which a work assistance server memorize | stores, (b) is a figure which shows the work state table which a work assistance server memorize | stores, (c) is the assistance which a work assistance server memorize | stores It is a figure which shows a request form table, (d) is a figure which shows the assistance state table which a work assistance server memorize | stores, (e) is a figure which shows the assistance person table which a work assistance server memorize | stores, (f) FIG. 4 is a diagram illustrating a worker table stored in a work support server. It is a figure which shows the assistance log | history information table which a work assistance server memorize | stores. It is a figure which shows the supporter screen displayed on the personal computer which is a supporter terminal. It is a figure which shows the flow of a process which displays simultaneously the image | video of a permanent surveillance camera and the image | video of a worker terminal camera on a personal computer. It is a figure which shows the flow of the process which displays a video at the time of abnormality on a personal computer. It is a figure which shows the flow of a process which displays the image | video of a worker terminal camera while the notebook personal computer which is a worker terminal was offline on the personal computer. It is a figure which shows the detailed flow of the process which a work assistance server and a worker terminal implement | achieve in the process which displays the image | video of a worker terminal camera while the notebook personal computer which is a worker terminal goes offline on a personal computer. It is a figure which shows the flow of the process which makes a personal computer add an annotation to the image | video of a worker terminal camera. It is a figure which shows the flow of a process which makes a personal computer add an annotation to the image | video of a permanent surveillance camera. It is a figure which shows the flow of the process which displays a support history on a personal computer. It is a figure which shows the detailed flow of the process which a work assistance server implements in the process which displays a support history on a personal computer. It is a figure which shows the flow of the procedure in the case of performing a function change, addition, and deletion to a work support system. (A) is a flowchart which shows the flow of the process before change of the screen generation process used as change object, (b) is a flowchart which shows the flow of the process after change. (A) is a figure which shows the structure after change of the permanent surveillance camera table used as change object, (b) is a figure which shows the model information table added. It is a figure which shows the structure after the change of the supporter screen used as change object. (A) is a figure which shows the structure before change of the real table used as change object, (b) is a figure which shows the structure before change of the data mapping data used as change object, (c) is a real table. It is a figure which shows the structure after change of (d), (d) is a figure which shows the structure after the change of the data for data mapping. (A) is a figure which shows the structure before a change in case the processing program used as change object is a conventional type, (b) is the structure before a change in case the process program used as change object is this invention type | mold. (C) is a figure which shows the structure after change of a conventional type program, (d) is a figure which shows the structure after change of this invention type | mold program. (A) is a figure which shows the structure after the change of the work instruction document camera table used as a change object in 2nd function addition, (b) is a figure which shows the supervisor table added. (A) is a figure which shows the structure before the change of the real table used as a change object in 2nd function addition, (b) is a figure which shows the structure before the change of the data mapping data used as a change object. (C) is a figure which shows the structure after the change of a real table, (d) is a figure which shows the structure after the change of the data for data mapping.

Explanation of symbols

1 Notebook PC (worker terminal)
2 PC (supporter terminal)
3 Work support server (server computer)
4 Central monitoring server (server computer)
5a, 5b, 5c ... Permanent monitoring camera 6 Internet network 7 Router 8 Mobile phone network 101 Worker terminal camera 102 Worker terminal display unit 103 Worker terminal microphone 104 Worker terminal speaker 201 Supporter terminal camera 202 Supporter terminal display unit 203 Supporter terminal microphone 204 Supporter terminal speaker 501 Control microcomputer 502 External I / O
503 Communication unit 504 CCD camera

  Examples of the present invention will be described below.

  An embodiment of the present invention will be described with reference to the drawings. First, FIG. 1 is a system diagram showing an overall image of a work support system in an embodiment of the present invention.

  As shown in FIG. 1, the work support system of the present embodiment includes a notebook personal computer 1 serving as a worker terminal of the present invention, a personal computer 2 serving as a supporter terminal of the present invention, and a work support serving as a server computer of the present invention. It is mainly composed of a server 3, a plurality of central monitoring servers 4 serving as server computers of the present invention, and permanent monitoring cameras 5a, 5b, 5c... Serving as monitoring cameras of the present invention. Connected to each other so that data communication is possible.

  Specifically, the notebook computer 1 is carried by a worker at a work execution place (hereinafter referred to as a base) to be supported in the work support system, and needs to be able to access the Internet network 7 at the base. . For this reason, the notebook personal computer 1 is equipped with a data communication card that allows wireless access to the mobile phone network 8 provided by the mobile phone company, and can be connected to the Internet network 6 via the mobile phone network 8 by this data communication card. It is like that. The personal computer 2, the work support server 3, and the central monitoring server 4 are installed in a provider that provides work support services using this work support system, and are connected to the Internet network 6 through the router 7. . Further, the permanent monitoring cameras 5a, 5b, 5c,... Are installed at the respective bases and directly connected to the Internet network 7.

  These devices only need to be connected to the Internet network 6 so that data communication is possible, and the communication means for these devices to perform data communication with the Internet network 6 may be appropriately selected.

  The notebook personal computer 1 of the present embodiment includes an operator terminal input unit such as a keyboard, an operator terminal display unit 102 configured by a liquid crystal display constituting the video / audio output device of the present invention, and the voice input means of the present invention. A worker terminal microphone 102, a worker terminal speaker 104 constituting the video / audio output device of the present invention, a worker terminal control unit including a CPU, a RAM, a ROM, and the like, and a data communication card and various devices. Therefore, it is an ordinary notebook personal computer composed of an operator terminal communication unit for the purpose and an operator terminal storage unit including a hard disk (HDD). Connected to the worker terminal communication unit of the notebook personal computer 1 are a data communication card capable of performing two-way wireless data communication with the mobile phone network 8 and a worker terminal camera 101 serving as an imaging means of the present invention. .

  Further, the personal computer 2 that can be operated by the supporter used in the present embodiment includes a supporter terminal input unit including a keyboard and a mouse, and a supporter terminal display unit 202 such as a liquid crystal display serving as a display device of the present invention. A supporter terminal microphone 202 serving as a voice imaging unit of the present invention, a worker terminal speaker 204 serving as a voice output device of the present invention, a supporter terminal control unit including a CPU, a RAM, a ROM, and the like, a data communication card, and various types It is a normal computer including a supporter terminal communication unit for connecting devices and a supporter terminal storage unit. Connected to the supporter terminal communication unit of the personal computer 2 are a data communication card and a supporter terminal camera 201 serving as voice imaging means of the present invention.

  The work support server 3 according to this embodiment stores a work support server control unit including a CPU, a RAM, a ROM, and the like, a work support server communication unit for data communication via the Internet network 7, and various types of information described below. The server is a normal server computer having a relatively high processing capability and a work support server storage unit.

  The central monitoring server 4 according to the present embodiment includes a central monitoring server control unit including a CPU, a RAM, a ROM, and the like, a central monitoring server communication unit for data communication via the Internet network 7, a central monitoring server storage unit, In this embodiment, a large number of permanent monitoring cameras 5a, 5b, 5c,..., And the permanent monitoring cameras 5a, A plurality of central monitoring servers 4 are used to manage images from 5b, 5c... And a central monitoring server ID is assigned to each central monitoring server 4. However, the present invention is not limited to this. Rather, the number of central monitoring servers 4 may be appropriately selected according to the number of bases, the number of permanent monitoring cameras, the processing capacity of the server computer to be used, and the like.

  As shown in FIG. 2, the permanent monitoring cameras 5a, 5b, and 5c of the present embodiment include a control microcomputer 501 that includes a CPU, RAM, ROM, and the like, an external I / O 502 for connecting various devices, and an Internet network 7. A communication unit 503 for data communication via the camera and a CCD camera 504 for imaging the base. Various sensors for detecting an abnormality at the site are connected to the external I / O 502.

  Here, abnormality detection at the base will be described. As sensors connected to these permanent monitoring cameras 5a, 5b, 5c, ..., sensors capable of outputting a predetermined abnormal state by a signal can be used. Specifically, a door sensor for detecting an open state of a door, A temperature sensor that detects when the temperature is above a certain temperature, a switch that detects when each switch is off, a voltage sensor that detects when the voltage is below a certain voltage, and a human sensor that detects when a person is within a specified range It is possible to use an operation detection sensor or the like that detects that there has been a change in the area beyond the specified range in the video. The present invention is not limited to these sensors and switches, and may be a sensor that outputs an abnormality by monitoring the lighting state of the LED, etc. It may be selected appropriately according to the situation.

  3-8 is a figure which shows the various information for assisting the worker who goes to a base and performs work, and is memorize | stored in the work assistance server memory | storage part of the work assistance server 4 of a present Example.

  FIG. 3 is a diagram showing a permanent monitoring camera table stored in the work support server 3. In the permanent monitoring camera table, the permanent monitoring cameras 5a, 5b, 5c,... Are associated with the permanent monitoring camera ID, which is identification information that can be individually identified, and the base that is the identification information of the base where the permanent monitoring camera is installed. A number, a central monitoring server ID that is identification information of the central monitoring server 4 that manages the permanent monitoring camera, and a video description that is a description of the video captured by the permanent monitoring cameras 5a, 5b, 5c,. It is remembered.

  FIG. 4 is a diagram showing a central monitoring server table stored in the work support server 3. In the central monitoring server table, permanent monitoring camera IDs are stored in association with the central monitoring server ID and the base number.

  Each of the tables shown in FIGS. 3 and 4 can uniquely identify the base number and the central monitoring server ID based on the permanent monitoring camera ID. Further, based on the base number, the permanent monitoring camera ID (usually a plurality) installed at the base can be specified. Further, based on the central monitoring server ID, the permanent monitoring camera ID (usually a plurality) managed by the central monitoring server 4 can be specified.

  FIG. 5A is a diagram illustrating a permanent monitoring camera recording information table stored in the work support server 3. In the permanent monitoring camera recording information table, the start time when recording of the captured video is started in the permanent monitoring cameras 5a, 5b, 5c,... And the file storing the recorded video are accessed in association with the permanent monitoring camera ID. Recording data, which is pass data for this purpose, is stored. With this table, the recorded video can be specified based on the permanent monitoring camera ID and the start time.

  FIG. 5B is a diagram illustrating an abnormality information table stored in the work support server 3. In the abnormality information table, in association with the site number, the abnormality time that is the time at which the abnormality was detected at the site, and the signal input status from the sensor that is the basis for the abnormality detection to the permanent monitoring cameras 5a, 5b, 5c,. And are stored. With this table, it is possible to identify the abnormal time and the abnormal content (there may be a plurality of cases) based on the site number.

  FIG. 6A is a diagram illustrating a work instruction table stored in the work support server 3. In the work instruction table, the supporter ID that is the identification information of the supporter who is in charge of supporting the work is associated with the work number that is the identification information of the work performed by the worker at the base, and the work A worker ID that is identification information of the worker in charge, a base number of a base where the work is performed, and a work content that is an explanatory text of the content of the work are stored. With this table, the supporter ID, worker ID, and base number can be uniquely specified based on the work number.

  FIG. 6B is a diagram showing a work state table stored in the work support server 3. In association with the work number, the work state of the work and the update time of the work state are stored. The working state in the present embodiment is any one of not started, working, problem occurrence, and completion. With this table, the work state can be uniquely specified based on the work number.

  FIG. 6C shows a support request document table stored in the work support server 3. In the support request form table, the work number of the work to be supported is associated with the support number that is identification information of the support performed by the support person for the worker performing the work at the base. The contents of the support request, which is an explanation of the basis for requesting the support by the worker in charge of the work to be supported, are stored.

  FIG. 6D is a diagram showing a support state table stored in the work support server 3. The support state of the support and the update time of the support state are stored in association with the support number. The support status in this embodiment is any of support request issued, support in progress, problem occurrence, or completion. With this table, the support state can be uniquely specified based on the support number.

  FIG. 6E is a diagram showing a supporter table stored in the work support server 3. In the supporter table, a supporter terminal camera ID that is identification information of the supporter terminal camera 201 mounted (connected) in the personal computer 2 used for work support by the supporter in association with the supporter ID. Is remembered. Although not shown, the e-mail address of the supporter is also stored.

  FIG. 6F shows a worker table stored in the work support server 3. In the worker table, a worker terminal camera ID that is identification information of the worker terminal camera 101 mounted (connected) in the notebook computer 1 used by the worker in association with the worker ID. Is remembered. Although not shown, the e-mail address of the worker is also stored.

  FIG. 7 is a diagram illustrating a support history information table stored in the work support server 3. The support history information table stores a plurality of pieces of information related to work support performed so far. Specifically, for each work support, a base number, a central monitoring server ID, a permanent monitoring camera ID, a worker terminal camera ID, a supporter ID, a worker ID, a work number, a support number, a permanent monitoring camera 5a, 5b, 5c... Permanent monitoring camera video as path data for accessing a file storing captured video, and worker terminal camera as path data for accessing a file storing video captured by worker terminal camera 101 A video, a start time, and an end time are stored.

  Although not shown, a base table is also stored, and data relating to each base such as a base address and access information by transportation is stored in association with the base number.

  As described above, in this embodiment, the work number and the site number are uniquely associated with each other based on the work instruction table (FIG. 6A). In other words, the site number, which is the site identification information, is not only the site identification information that can identify the work site (site) in the present invention, but also the work number that can uniquely identify the site number and the support number are also site identification. Included in the information.

  Based on the above-described configuration, the flow in which the work support system according to the present embodiment performs the work support of the worker will be described in detail based on FIGS.

  FIG. 8 is a diagram illustrating a supporter terminal screen displayed on the personal computer 2 that is a supporter terminal. Site information / abnormal information area for displaying a map of Japan (upper left corner of the screen), work instruction area for displaying work instructions (lower left corner of the screen), and button area for displaying various buttons for support (upper right corner of the screen) ), A worker terminal camera area (right middle part of the screen) for displaying the captured video of the worker terminal camera 101, and a permanent monitoring camera area (lower right of the screen) for displaying the captured video of the permanent monitoring cameras 5a, 5b, 5c. ). The display time and display method will be described later along with the flow of processing.

  Note that the worker terminal screen displayed on the notebook personal computer 1 as the worker terminal is not particularly illustrated, but the supporter terminal camera of the supporter is similar to the supporter terminal screen of the personal computer 2 operated by the supporter. A supporter terminal camera area for displaying 201 shot video, a permanent monitor camera area for displaying the shot video of the permanent monitoring cameras 5a, 5b, 5c..., A worker terminal camera for displaying the shot video of the own worker terminal camera 101 In addition to having an area, a button area in which various buttons necessary for the progress of work and various buttons for requesting support are displayed, and a procedure display in which the work contents of each process according to the progress of the work are displayed. Has an area.

  First, a flow in which an abnormality at each site where the permanent monitoring cameras 5a, 5b, 5c,... Are detected and an abnormal video is displayed on the personal computer 2 of the supporter will be described with reference to FIG.

  As described above, various sensors are connected to the permanent monitoring cameras 5a, 5b, 5c,..., Which are permanently installed at each site in the present embodiment, and the permanent monitoring cameras 5a, 5b, 5c,. Sensor information transmission processing is performed in which sensor information that can identify the output state of the camera is always transmitted to the central monitoring server 4 at predetermined time intervals together with the permanent monitoring camera ID and camera video data.

  The central monitoring server 4 that has received this sensor information performs an abnormality detection process for detecting whether there is an abnormality based on the sensor information. If no abnormality is detected in the abnormality detection process, the process ends and no process is performed. On the other hand, if an abnormality is detected in the abnormality detection process, the following process is performed.

  In this way, the central monitoring server 4 that has detected an abnormality, for example, a temperature abnormality, provides abnormality detection information including sensor information including the permanent monitoring camera IDs of the permanent monitoring cameras 5a, 5b, 5c,. Send to.

  The work support server 3 that has received the abnormality detection information associates the permanent monitoring camera ID included in the abnormality detection information with the base number stored in the permanent monitoring camera table (FIG. 3) and the e-mail address of the supporter. (Not shown) is specified, and an abnormality detection mail transmission process for transmitting an abnormality detection mail including a base number to a supporter who should correspond to the abnormality information is performed.

  In addition, all the supporters may be specified as supporters that should deal with the abnormality information, or a new base table in which a base number and a supporter ID are registered in association with each other is created. The corresponding supporter may be identified based on the base. Alternatively, a responsible abnormality table is newly created in which sensor information (or an error code indicating individual abnormality) and a supporter ID are registered in association with each other, and the corresponding supporter is identified according to the abnormality based on this table. May be.

  Furthermore, the work support server 3 newly registers the abnormality information in the abnormality information table (FIG. 5B). Specifically, the base number, abnormal time, and sensor information are registered. The abnormal time is the current time.

  On the other hand, after transmitting the abnormality detection information to the work support server 3, the central monitoring server 4 immediately transmits an abnormal mode video request to the permanent monitoring cameras 5a, 5b, 5c,. The video in the abnormal mode is a video whose video quality is higher than that of video data normally transmitted to the central monitoring server 4.

  The permanent monitoring cameras 5 a, 5 b, 5 c... That have received the abnormal mode video request transmit the abnormal monitoring mode video to the central monitoring server 4.

  The central monitoring server 4 that has received the abnormal monitoring mode permanent video image performs the abnormal time recording process and stores the abnormal mode permanent monitoring camera video image in the central monitoring server storage unit. Thereafter, the stored permanent monitoring camera video in the abnormal mode is transmitted to the work support server 3 together with the permanent monitoring camera ID.

  At this time, it is sufficient that the abnormal surveillance mode video to be transmitted can be determined so long as the cause of the abnormality can be determined, but it may be a predetermined time in consideration of the capacity, or may be all of the stored amount, or as appropriate. In this embodiment, these times differ depending on the monitoring targets of the respective permanent monitoring cameras 5a, 5b, 5c..., So that a setting screen (not shown) is set for each permanent monitoring camera 5a, 5b, 5c. Can be set in.

  In this way, the reason why the permanent monitoring camera video in the abnormal mode is not directly transmitted to the work support server 3 is that communication of the work support server 3 is performed by simultaneously transmitting high-quality video when abnormal detection occurs frequently. This is because the load on the line and processing is remarkably increased, and other work support is not hindered. Furthermore, a significant increase in the load also increases the possibility that the abnormal video will not be recorded accurately, so that the abnormal video is stored accurately.

  Then, the work support server 3 receiving the abnormal mode permanent monitoring camera video performs the abnormal time recording process and stores the abnormal mode permanent monitoring camera video in the work support server storage unit. Further, the work support server 3 newly registers the permanent monitoring camera ID, the start time, and the recording data in the permanent monitoring camera recording information table (FIG. 5A). The start time is the current time, and the recorded data is path data for accessing a file storing the permanent monitoring camera video in the abnormal mode.

  On the other hand, based on the reception of the abnormality detection mail transmitted from the work support server 3, the supporter operates the base information / abnormality information area from the supporter terminal screen (FIG. 8) displayed on the personal computer 2. Then, select the base and the abnormality at the base.

  The personal computer 2 that has received the supporter's base / abnormality selection operation transmits an abnormal video request including the base number of the selected base to the work support server 3.

  The work support server 3 that has received the abnormal video request identifies the abnormal time stored in the abnormality information table (FIG. 5B) in association with the base number, and further associates with the base number. A permanent monitoring camera ID specifying process for specifying the permanent monitoring camera ID stored in the permanent monitoring camera table (FIG. 3) is performed.

  Then, the recording data stored in the permanent monitoring camera recording information table (FIG. 5A) is specified in association with the specified permanent monitoring camera ID and the abnormal time. Note that the recording data whose start time is after the abnormal time and closest to the abnormal time is specified.

  After that, the work support server 3 identifies the permanent monitoring camera video in the abnormal mode based on the recorded data, and performs the permanent monitoring camera video transmission processing for transmitting to the personal computer 2 of the supporter.

  Through the processing as described above, the personal computer 2 serving as the supporter terminal receives the permanent monitoring camera video at the time of abnormality and performs video display processing. As a result, the monitoring camera video at the time of abnormality will be displayed on the supporter terminal screen, and the supporter can grasp the situation at the time of abnormality by video, and what kind of countermeasures should be taken It is possible to judge whether it is good.

  The supporter sometimes wants to check the past work history at the site where these abnormalities occurred and the past work content of the work for which instructions are to be performed. In such a case, support this information. The flow obtained by the person will be briefly described below.

  First, when the support person wants to display the support history information on the personal computer 2, a predetermined operation is performed to display a support history information search screen (not shown). The personal computer 2 that has received the search operation from the supporter on the search screen for the support history information transmits a search request including the content of the search operation and the supporter ID of the supporter to the work monitoring server 3. In the search screen, for example, in addition to the items other than the supporter ID in the support history information table (FIG. 7) such as the worker ID, date and time, and base number, keywords and the like can be appropriately input according to the design. . In this embodiment, it is assumed that at least one of a base number, a work number, and a support number is input as information that can specify a base.

  The work monitoring server 3 that has received this search request performs support history search processing, specifies support history information that satisfies the search request, and transmits it to the personal computer 2. At this time, the worker terminal camera video and the permanent monitoring camera video corresponding to the identified support history information are also transmitted.

  The personal computer 2 that has received the support history information performs video display processing to display the support history information, the worker terminal camera video, and the permanent monitoring camera video. Through the above processing, the supporter can check the support history information supported by himself / herself.

  FIG. 16 is a diagram showing a detailed flow of processing performed by the work support server 3 in processing for displaying support history information on the personal computer 2 of the supporter. Specifically, it is an explanation of the support history search process.

  In Sc1, the search request is received, the process proceeds to Sc2, the work instruction sheet stored in the work instruction sheet table (FIG. 6A) is specified in association with the supporter ID included in the search request, Proceed to Sc3.

  In Sc3, the support history information stored in the support history information table (FIG. 7) is specified in association with the work number included in the work instruction, and the process proceeds to Sc4, where it is included in the specified support history information. The permanent monitoring camera image and the worker terminal camera image are specified, and the process proceeds to Sc5, where the support history information including the image is transmitted to the personal computer 2.

  In this way, the supporter who has confirmed the video and support history at the time of abnormality operates the personal computer 2 and inputs / creates a work instruction regarding the work for dealing with the abnormality as shown in FIG. To do.

  Information necessary for this work instruction sheet is a work number, a supporter ID, a worker ID, a base number, and work contents as shown in the work instruction sheet table (FIG. 6A). The work number is not entered because it is automatically assigned by the system. The supporter ID is automatically specified based on the input of the supporter so far (for example, the login ID input at the time of login). Therefore, the supporter inputs the worker ID, the base number, and the work content.

  The personal computer 2 that has received the input of the work instruction sheet transmits a work instruction sheet including the base number and the worker ID to the work support server 3.

  The work support server 3 that has received the work instruction generates a work number (for example, automatic generation of a serial number), and associates the generated work number with the work instruction table (FIG. 6A). Memorize the instructions. Thereafter, the e-mail address stored in the worker table (FIG. 6 (f)) is specified in association with the worker ID. Further, the address stored in the base table (not shown) is specified in association with the base number. Then, a work instruction mail transmission process is performed in which a work instruction mail including the address of the identified base and the work contents included in the work instruction sheet is transmitted to the e-mail address of the identified worker.

  Furthermore, the work support server 3 newly registers a work number in the work state table (FIG. 6B), sets the work state not yet started, and sets the update time as the current time.

  The worker who has received the work instruction mail in the notebook personal computer 1 as the worker terminal moves to the base and performs a login operation to the work support server 3. Based on the login operation, the notebook computer 1 transmits a login request including the worker ID and the work number included in the work instruction mail.

  The work support server 3 that has received the login request transmits the output information to the worker terminal screen to the notebook computer 1. Specifically, a work instruction form transmission process is performed in which work instructions stored in the work instruction table (FIG. 6A) are specified and transmitted in association with the work numbers included in the login request. . If an electronic manual including a procedure (process) corresponding to the work is stored, it is transmitted.

  Furthermore, the work support server 3 updates the update time to the current time while the corresponding work state in the work state table (FIG. 6B) is being worked on.

  The notebook computer 1 that has received the output information to the worker terminal screen including the work instruction sheet outputs the worker terminal screen. As described above, the worker terminal screen displays a work instruction, the contents of a procedure (process) corresponding to the work, a support request button operated when requesting support, and the like.

  Then, the operator inputs a “work start” button (not shown) provided on the operator terminal screen to start the work, so that the work content of the first process is displayed in the procedure display area. Each time the displayed process is completed, the operation content of the next process is displayed by inputting the “next process” button to display the work contents of each process according to the progress of the work. However, the operator's work is supported by the notebook personal computer 1 by being sequentially displayed.

  After this, if assistance is required, such as when the work content is unclear or the shape of the indicated part is different from the actual one, the worker must click the support request button. Manipulate.

  The notebook computer 1 that has received the operation of the support request button by the worker performs support request information transmission processing for transmitting support request information to the work support server 3. Information necessary for the support request includes a support number, a work number, and a support request content, as shown in the support request form table (FIG. 6C). The support number is not entered because it is automatically assigned by the system. The work number is automatically specified based on the received information so far (for example, the work number included in the work instruction received from the work support server 3). For this reason, the worker inputs support request details.

  The work support server 3 that has received the support request information generates a support number (for example, automatic generation of a serial number) and associates it with the generated support number and receives the support request form table (FIG. 6C). The work number included in the request information and the contents of the support request are stored. Thereafter, the supporter ID stored in the work instruction table (FIG. 6A) is identified in association with the work number, and the supporter table (FIG. 6E) is associated with the supporter ID. Identify the email address stored in. Then, a support request mail including the support number and support request contents included in the registered support instruction is transmitted to the e-mail address of the identified support person.

  Furthermore, the work support server 3 causes a problem in the corresponding work state in the work state table (FIG. 6B) and updates the update time to the current time. Further, a support number is newly registered in the support status table (FIG. 6D), the work status is issued as a support request, and the update time is the current time.

  The supporter who has received the support request mail in the personal computer 2 performs a login operation to the work support server 3. Based on the login operation, the personal computer 2 transmits a login request including the worker ID and the support number included in the support request mail. In this embodiment, these support requests are made by e-mail. However, the present invention is not limited to this, and a specific messenger utility program is resident in the personal computer 2 instead of these e-mails. In addition, the messenger utility program confirms whether or not there is a support request to the support person who operates the personal computer 2 from the work support server 3 every predetermined time, for example, every 10 seconds. If there is, the supporter may be able to recognize the request for assistance without delay by forcibly displaying a message indicating that the request for assistance has been received on the display screen.

  Upon receiving the login request, the work support server 3 transmits output information to the supporter terminal screen to the personal computer 2. Specifically, the work number stored in the support request table (FIG. 6C) is specified in association with the support number included in the login request, and the work instruction table ( The work instruction stored in FIG. 6A is specified and transmitted.

  Furthermore, the work support server 3 updates the update time to the current time while supporting the corresponding support state in the support state table (FIG. 6D). Also, support history information recording processing is performed, and new support history information is registered in the support history information table (FIG. 7). At this point, the base number, supporter ID, worker ID, work number, support number, and start time are registered.

  In addition, the work support server 3 specifies and specifies all the central monitoring server IDs and permanent monitoring camera IDs stored in the permanent camera table (FIG. 3) in association with the base numbers included in the specified work instructions. The permanent monitoring camera video transmission request including the identified permanent monitoring camera ID is transmitted to the central monitoring server 4.

  Furthermore, the work support server 3 performs support history information recording processing and updates the support history information table (FIG. 7). At this point, the central monitoring server ID and permanent monitoring camera ID are registered.

  The central monitoring server 4 that has received the permanent monitoring camera video transmission request sends the permanent monitoring camera video transmission request including the permanent monitoring camera ID to the permanent monitoring cameras 5a, 5b, 5c... Corresponding to the permanent monitoring camera ID included in the request. Send.

  The permanent monitoring cameras 5a, 5b, 5c,... That have received the permanent monitoring camera video transmission request transmit the permanent monitoring camera video, which is a captured video, to the work support server 3 together with the received permanent monitoring camera ID.

  The work support server 3 that has received the permanent monitoring camera video performs relay / recording start processing. That is, the work support server 3 stores the received permanent monitoring camera video in the work support server storage unit and transmits the permanent monitoring camera video to the personal computer 2 of the supporter.

  Note that which work support (support number) the received permanent monitoring camera video corresponds to support history information including the permanent monitoring camera ID included in the permanent monitoring camera video and the end time not registered, This can be confirmed by specifying in the support history information table (FIG. 7).

  Furthermore, the work support server 3 performs support history information recording processing and updates the support history information table (FIG. 7). At this point, the permanent surveillance camera video is registered. The permanent monitoring camera video is assumed to be path data for accessing a file storing the recorded video. In addition, recording information is newly registered in the permanent monitoring camera recording information table (FIG. 6A). At this time, the permanent monitoring camera ID, the start time, and the recording data are registered. The start time is the current time, and the recording data is path data for accessing a file storing the recorded video.

  Then, the work support server 3 transmits a support permission response indicating that the support request is permitted to the worker's notebook computer 1. The support permission response includes a support number.

  On the other hand, the work support server 3 performing the relay / recording start processing based on the log-in request of the supporter uses the worker ID included in the work instruction specified by the support number included in the log-in request as described above. In association therewith, the worker camera ID stored in the worker table (FIG. 6F) is further specified. Then, a worker terminal camera video transmission request including the worker camera ID is transmitted to the notebook computer 1.

  Furthermore, the work support server 3 performs support history information recording processing and updates the support history information table (FIG. 7). At this point, the operator terminal camera ID is registered.

  The notebook computer 1 that has received the worker terminal camera image transmission request transmits the worker terminal camera image, which is a captured image of the worker terminal camera 101, to the work support server 3 together with the received worker camera ID. Perform video transmission processing. The voice input from the worker terminal microphone 103 is also transmitted at the same time.

  The work support server 3 that has received the worker terminal camera video stores the received worker terminal camera video in the work support server storage unit, and transmits the worker terminal camera video to the personal computer 2 of the supporter.

  It should be noted that which work support (support number) the received worker terminal camera image corresponds to includes a worker terminal camera ID included in the worker terminal camera image and has an unregistered support history. The information can be confirmed by specifying it in the support history information table (FIG. 7).

  Furthermore, the work support server 3 performs support history information recording processing and updates the support history information table (FIG. 7). At this point, the operator terminal camera video is registered. The worker terminal camera video is assumed to be path data for accessing a file storing the recorded video.

  Through the processing as described above, the personal monitor 2 serving as the supporter terminal receives the permanent monitoring camera video and the worker terminal camera video, and as a result, as shown in FIG. By displaying the camera video and the worker terminal camera video at the same time, the supporter can easily confirm the permanent monitoring camera video such as the worker's surrounding situation as well as the worker terminal camera video of the worker. Can be done.

  Thereafter, the personal computer 2 of the supporter has requested the support for the supporter terminal camera 201 and the supporter terminal camera image obtained by the supporter terminal microphone 202 mounted (connected) to the personal computer 2. The supporter terminal camera video transmission process to be transmitted to the notebook personal computer 1 is performed, and in this way, between the personal computer 2 of the supporter and the notebook personal computer 1 of the worker, a so-called television is transmitted. A conference is realized, and the supporter and the worker can obtain close communication with each other by video and audio.

  In this way, in the exchange of video and audio between the personal computer 2 and the notebook personal computer 1, the notebook personal computer 1 that is the worker terminal is brought into the base by the worker only during the work. In order to facilitate the movement of the mobile phone and to facilitate the work, a data communication card that performs two-way wireless data communication with the mobile phone network 8 by radio is used as in this embodiment. Therefore, data communication may be disrupted depending on the movement during these operations and the operating conditions of surrounding devices. If these data communications are disrupted, the data communication may be interrupted, that is, offline. In this embodiment, these off-line operations are performed because the supporter cannot grasp the work performed by the worker in the video and audio. The video during the period is automatically transmitted to the supporter, and the flow during which the video during the cut is automatically transmitted to the supporter is described below with reference to FIG. explain.

  First, as described above with reference to FIG. 9, it is assumed that the permanent monitoring camera video and the worker terminal camera video are simultaneously displayed on the supporter terminal screen. In this state, a process when communication between the notebook personal computer 1 and the work support server 3 is disconnected, that is, offline is described. For example, it is assumed that the wireless communication via the mobile phone network 8 is temporarily disabled due to a temporary failure.

  The notebook personal computer 1 that has detected that it is offline performs unsent data recording processing, and stores the captured video (worker terminal camera video) of the worker terminal camera 101 in the worker terminal storage unit. Thereafter, a video recording end process is performed by detecting the fact that it is online, and a video recording end process is performed to end the video recording and transmit the recorded offline worker terminal camera video to the work support server 3. carry out. Also, the worker terminal camera image currently being photographed is transmitted to the work support server 3.

  On the other hand, the work support server 3 that has detected that it has become offline performs relay / recording interruption processing and transmits the fact that it has become offline to the personal computer 2 of the supporter.

  Thereafter, the work support server 3 that has detected that it is online performs relay / recording recovery processing to receive the offline worker terminal camera video, the offline worker terminal camera video, and offline A time synchronization signal is generated so that the permanent monitoring camera video stored in the work support server storage unit is displayed on the supporter terminal screen at the same time. Is sent to the personal computer 2. The supporter can select the video playback stop and playback speed, and the current video can be viewed by appropriately terminating the playback.

  Through the processing described above, the video of the worker terminal camera 101 is received in the personal computer 2 serving as the supporter terminal while the notebook personal computer 1 serving as the worker terminal is offline. As a result, the permanent monitoring camera image being offline is displayed on the supporter terminal screen.

  FIG. 12 shows that the work support server 3 and the notebook personal computer 1 perform the process of displaying the video of the worker terminal camera 101 while the notebook personal computer 1 serving as the worker terminal is offline on the personal computer 2 of the support person. It is a figure which shows the detailed flow of a process.

  First, the processing of the notebook computer 1 will be described. The notebook personal computer 1 always performs the processing of Sb1 to Sb3 while transmitting the video of the worker terminal camera 101 during the work support.

  In Sb1, the cutting time counter is reset, the process proceeds to Sb2, and the current time is acquired. In Sb3, a confirmation signal is transmitted to the work support server 3, and a communication status detection process is performed to determine whether the line is disconnected based on whether a response from the work support server 3 is received. If not cut, the determination is YES and the process proceeds to Sb7. If it is disconnected, it is determined as NO, and the process proceeds to Sb4.

  In Sb4, a flag indicating that it is in an offline state is set, the process proceeds to Sb5, and 1 is added to the cutting time counter. And it progresses to Sb6, and after performing the unsent data recording process which memorize | stores the picked-up image of the worker terminal camera 101 in a worker terminal camera memory | storage part, it returns to Sb3.

  Thereafter, when the offline state continues, Sb4 to Sb6 are performed again, but Sb4 and Sb6 are already performed, so no new operation is involved. On the other hand, in the implementation of Sb5, the cutting time counter is incremented by one. Since the loop period is designed to be 1 second, the value of the disconnection time counter is the number of seconds that are in the offline state.

  In Sb7, it is determined whether or not a flag indicating that it is in an offline state is set. If it is set, that is, if the offline state is restored to the online state, YES is determined and the process proceeds to Sb8. . If it is not set, that is, if the online state continues, NO is determined and the process proceeds to Sb11.

  In Sb8, the recording stop process is performed, and the process proceeds to Sb9, and the recorded video transmission process for transmitting the recorded video of the worker terminal camera 101 corresponding to the disconnection time counter, that is, the number of continuous seconds in the offline state, to the work support server 3 is performed. carry out. And it progresses to Sb10, shifts to an online state by clearing the flag which shows that it is an offline state, and progresses to Sb11.

  In Sb11, the captured image of the current worker terminal camera 101 is transmitted to the work support server 3, and the process returns to Sb1.

  Next, processing of the work support server 3 will be described. The work support server 3 always performs processes Sa1 to Sa3 during work support.

  In Sa1, the cutting time counter is reset, the process proceeds to Sa2, and the current time is acquired. Then, the process proceeds to Sa3, where the permanent monitoring camera images are received from the permanent monitoring cameras 5a, 5b, 5c... And the process proceeds to Sa4.

  In Sa4, it is determined whether or not the line is disconnected based on whether or not the worker terminal camera video is received from the notebook computer 1. If not cut, the determination is YES and the process proceeds to Sa9. If it is disconnected, it is determined as NO and the process proceeds to Sa5.

  In Sa5, an offline signal indicating offline is transmitted to the supporter's personal computer 2, the process proceeds to Sb6, a flag indicating offline is set, the process proceeds to Sa7, and the disconnection time counter is incremented by one. . Then, the process proceeds to Sa8, and after performing processing for storing the captured images of the permanent monitoring cameras 5a, 5b, 5c... In the work support server storage unit, the process returns to Sa4.

  Thereafter, when the offline state continues, Sa5 to Sa8 are performed again. However, since Sa5, Sa6, and Sa8 are already performed, no new operation is involved. On the other hand, in the implementation of Sa7, the cutting time counter is incremented by one. Since the loop period is designed to be 1 second, the value of the disconnection time counter is the number of seconds that are in the offline state.

  In Sa7, it is determined whether or not a flag indicating that it is in the offline state is set. If it is set, that is, if the offline state is restored to the online state, YES is determined and the process proceeds to Sa10. . If it is not set, that is, if the online state continues, NO is determined and the process proceeds to Sa14.

  In Sa10, an offline worker terminal camera image is received from the operator's notebook computer 1, and the process proceeds to Sa11, where the offline worker terminal camera image and the work support server storage unit are stored. Synchronize with the video of the permanent surveillance camera in the offline state, proceed to Sa12, and transmit to the personal computer 2. Then, the process proceeds to Sa13, the flag indicating the offline state is cleared, the online state is shifted to, and the process proceeds to Sa14.

  In Sa14, the current captured video of the worker terminal camera 101 is received, and the process proceeds to Sa15. In synchronization with the current permanent monitoring camera video, the process proceeds to Sa16 and is transmitted to the personal computer 2. And it returns to Sa1.

  By doing as described above, it is detected whether or not the notebook computer 1 is offline, and when the offline state occurs, the offline worker terminal camera video is temporarily stored and the offline state is resolved. In other words, when there is an offline worker terminal camera video when it is online, the offline worker terminal camera video is transmitted so that the offline worker terminal camera video is It can be displayed on the personal computer 2.

  FIG. 13 is a diagram illustrating a flow of processing for causing the supporter's personal computer 2 to add an annotation to the video of the worker terminal camera 101.

  First, as described above with reference to FIG. 9, it is assumed that the permanent monitoring camera video and the worker terminal camera video are displayed simultaneously on the supporter terminal screen (FIG. 8). In this state, the process when the supporter selects (focuses) the worker terminal camera video area and operates the annotation button will be described.

  The personal computer 2 that has received the operation of the annotation button transmits a still image transmission instruction to the worker's notebook personal computer 1 via the work support server 3.

  The notebook computer 1 that has received the still image transmission instruction transmits the captured video (still image) of the worker terminal camera 101 at this time to the work support server 3.

  The work support server 3 that has received the worker terminal camera video (still image) transmits the worker terminal camera video (still image) to the personal computer 2.

  The personal computer 2 that has received the worker terminal camera video (still image) performs a process of displaying the still image in a multilayer (layer) format, and generates a layer of the annotation image above the still image.

  The drawing operation for the annotation layer is accepted from the supporter. For example, as shown in the upper right part of FIG. 8, the annotation data is drawn based on an operation on a drawing menu including a circle, rectangle, free curve graphic selection button, line thickness selection button, color selection button, and the like. Accept.

  The annotation data (drawing content on the annotation layer) received from the personal computer 2 of the supporter is transmitted to the work support server 3 by the annotation data transmission process. Further, the work support server 3 performs the annotation data relay process, and transmits it to the operator's notebook computer 2.

  As shown in the upper right part of FIG. 8, the drawing menu is provided with a save button, and the personal computer 2 that has accepted the operation of the save button transmits annotation data to the work support server 3.

  The work support server 3 that has received the annotation data stores the annotation data in the work support server storage unit as part of the support history information.

  Through the above processing, the supporter can send a visual instruction to the worker about the situation at the site (recorded video of the worker terminal camera 101), for example, an instruction such as turning this to the right.

  Note that an annotation button may be provided on the operator terminal screen, and these processes may be started according to the operator's request.

  An annotation menu is provided on the operator terminal screen so that the operator can input the annotation data so that the annotation data is transmitted from the notebook computer 1 of the operator to the work support server 3. Also good. The work support server 3 performs the annotation data relay process and transmits it to the supporter's notebook computer 2.

  FIG. 14 is a diagram showing a flow of processing for causing the personal computer 2 of the supporter to add an annotation to the recorded video of the permanent monitoring camera.

  First, as described above with reference to FIG. 9, it is assumed that the permanent monitoring camera video and the worker terminal camera video are displayed simultaneously on the supporter terminal screen (FIG. 8). In this state, the process when the supporter selects (focuses) the permanent monitoring camera video area and operates the annotation button will be described.

  The personal computer 2 that has accepted the operation of the annotation button transmits a video request to the work support server 3. For example, as described above with reference to FIG. 10, an abnormal video request is transmitted.

  The work support server 3 that has received the abnormal video request identifies the permanent monitoring camera video in the abnormal mode and transmits it to the personal computer 2 of the supporter as described above with reference to FIG.

  The personal computer 2 that has received the permanent monitoring camera video is displayed on the supporter terminal screen.

  In this state, when the operation of the still image button from the supporter is accepted, the personal computer 2 transmits the permanent monitoring camera video (still image) displayed on the supporter terminal screen at that time to the work support server 3.

  The personal computer 2 that has selected the permanent monitoring camera video (still image) performs processing for displaying the still image in a multilayer (layer) format, and generates a layer of the annotation image on the upper layer of the still image.

  The drawing operation for the annotation layer is accepted from the supporter. For example, as shown in the upper right part of FIG. 8, the annotation data is drawn based on an operation on a drawing menu including a circle, rectangle, free curve graphic selection button, line thickness selection button, color selection button, and the like. Accept.

  The annotation data (drawing contents on the annotation layer) received from the supporter is transmitted to the operator's notebook computer 1 via the work support server 3.

  As shown in the upper right part of FIG. 8, the drawing menu is provided with a save button, and the personal computer 2 that has accepted the operation of the save button transmits annotation data to the work support server 3.

  The work support server 3 that has received the annotation data stores the annotation data in the work support server storage unit as part of the support history information.

  Through the above processing, the support person sends a visual instruction to the worker about the surrounding situation (recorded images of the permanent monitoring cameras 5a, 5b, 5c,...), For example, an instruction that there is an abnormality. it can.

  Note that an annotation button may be provided on the operator terminal screen, and these processes may be started according to the operator's request.

  Further, the still image is selected from the recorded video of the permanent monitoring cameras 5a, 5b, 5c... And annotated. However, the currently displayed video may be selected as the still image and annotated.

  In addition, although it is instructed from the abnormal image that there is an abnormality, it may be instructed from the normal image that this is the normal state. In such a case, a recorded video list menu in the work monitoring server 3 may be output so that a supporter can select a recorded video from which a still image is to be extracted from these lists.

  In the present embodiment, the description is focused on video, but the worker's notebook computer 1 is the worker terminal microphone 103, the worker terminal speaker 104, and the supporter's personal computer 2 is the supporter terminal microphone 203, Each of the support terminal speakers 204 is provided, and in the present embodiment, in the case of simply a video, video data including audio, so-called moving image data is shown.

  Next, the flow of processing when a function is changed, added, or deleted from the work support system according to the present embodiment will be described with reference to FIGS.

  FIG. 17 is a diagram illustrating a procedure flow when a function is changed, added, or deleted from the work support system. Differences between the conventional program and the present invention program are clarified.

  First, assuming that the work support system is composed of a conventional program, the flow of procedures when changing, adding, or deleting functions will be described.

  The conventional program is mainly composed of three types of elements as shown in FIG. Specifically, a database in which a plurality of real tables (1), (2)... Are stored, and each real table (1), (2). A plurality of access programs for (search, registration, change, deletion), that is, an access program for the real table (1), an access program for the real table (2), etc., and using these real tables and access programs , And a plurality of data processing programs for performing various processes for work support described above.

  In the present invention, the actual table is a command for creating a table in a relational database, specifically a table generated by a CREATE TABLE command.

  On the other hand, the present invention type program is mainly composed of four types of elements as shown in FIG. Specifically, a database in which one real table is stored and one access program for individually accessing (searching, registering, changing, deleting) the real table stored in the database, that is, one real table To make one real table look like a plurality of virtual real tables, that is, temporary tables (1), (2)... API (Application Programming Interface) for data mapping which is an interface program.

  At this time, functions to be described in detail below are added.

  As a premise, a large number of permanent monitoring cameras 5a, 5b, 5c,... Installed at each site receive predetermined command data predetermined for each model, thereby moving the imaging direction up and down, left and right, and panning. And tilt and zoom. At this time, the work support server 3 stores the models of the permanent monitoring cameras 5a, 5b, 5c,... In a identifiable manner, and further registers predetermined command data for each model. When the operation is accepted, the models of the permanent monitoring cameras 5a, 5b, 5c... Are specified, and the predetermined command data corresponding to the accepted operation in the specified model is specified to identify the permanent monitoring cameras 5a, 5b, 5c. .., And a function for causing the permanent monitoring cameras 5a, 5b, 5c,... To move the imaging direction in the vertical and horizontal directions and to perform panning, tilting, and zooming is added.

  Specifically, in the work support server 3, the permanent monitoring cameras 5 a, 5 b, 5 c. In addition to a process of adding and outputting an operation unit for accepting an operation of a supporter indicating that the camera is to be tilted and zoomed, command data corresponding to the operation of the supporter received through the operation unit is received by the permanent monitoring camera 5a, A process of transmitting to 5b, 5c... Is added.

  The process of generating a supporter screen to be transmitted to the personal computer 2 serving as the supporter terminal corresponds to the screen generation process shown in FIG. FIG. 18A is a flowchart showing a process flow before the change of the screen generation process, and FIG. 18B is a flowchart showing a process flow after the change.

  The process flow before the change will be described with reference to FIG. 18A. First, the work support server 3 displays a support request form stored in association with the support number included in the login request received from the personal computer 2. The work instruction sheet stored in association with the work number stored in the support request form is specified. Then, the permanent monitoring camera stored in association with the base number stored in the work instruction sheet is specified. Finally, the work support server 3 generates a supporter screen composed of the specified various data and a video acquired from the permanent monitoring camera.

  The process flow after the change will be described with reference to FIG. 18B. First, the work support server 3 displays a support request form stored in association with the support number included in the login request received from the personal computer 2. The work instruction sheet stored in association with the work number stored in the support request form is specified. Then, the permanent monitoring camera stored in association with the base number stored in the work instruction sheet is specified. Further, the models of the permanent monitoring cameras are specified, and the receivable operations (any one or all of panning, tilting and zooming, moving up and down, left and right in the imaging direction) determined for each model are specified. Finally, the work support server 3 generates the supporter screen shown in FIG. 20 including the operation unit for receiving the various types of identified data, the video acquired from the permanent monitoring camera, and the operation of the permanent monitoring camera from the supporter. . As shown in FIG. 20, the operation unit is displayed on the upper part of the captured image of each permanent monitoring camera. The operation unit is a black triangle for moving the imaging direction up and down, left and right, and “for panning and tilting”. It consists of “+” and “−”.

  In order to perform such a process after the change, it is necessary to change and add a table as shown in FIG. FIG. 19A is a diagram showing a configuration after the change of the permanent monitoring camera table to be changed, and FIG. 19B is a diagram showing a model information table to be added.

  As shown in FIG. 19A, a model ID that can identify the model of the permanent monitoring camera is added to the permanent monitoring camera table.

  In the model information table, as shown in FIG. 19B, the type of operation that can be accepted by this model in association with the model ID (moving up / down / left / right in the imaging direction, panning, tilting, zooming) ) And command data for causing the permanent monitoring camera to perform control corresponding to the operation.

  The permanent monitoring camera table and the model information table correspond to actual tables in the conventional program and correspond to temporary tables in the present invention type program.

  Note that the various tables described so far also correspond to actual tables in the conventional program, and also correspond to temporary tables in the present invention type program. In other words, all data stored in various tables, which are temporary tables in the present invention type program, are stored in actual tables in the present invention type program.

  Here, the real table in the present invention type program will be described.

  FIG. 21A is a diagram showing a configuration before changing the real table, FIG. 21B is a diagram showing a configuration before changing the data mapping data, and FIG. 21C is a diagram after changing the real table. (D) is a figure which shows the structure after the data mapping data are changed.

  As shown in FIGS. 21A and 21C, the real table of the present invention includes a table name that is the name of the temporary table to which the data belongs, and a key that is data for specifying the data in the temporary table. And an item number for specifying the item of the data and an item value which is the value of the item of the data.

  This real table is configured as a plurality of temporary tables based on the data mapping data shown in FIGS. A method for constructing a temporary table from a real table will be described.

  Data for mapping includes the table name that is the name of the temporary table, the item number of the item belonging to the temporary table, the item name that is the name of the item, the item type that is the data type of the item, and the supplementary information of the item As an option.

  Options include specific information in the temporary table, a key indicating whether it is a so-called primary key, and the name and item name of the linked temporary table if the item is linked to another temporary table. Is memorized. The item value of the item keyed by this option is stored as the item value of the key of the real table.

  For example, as shown in FIG. 21B, in the data mapping data, four permanent monitoring camera items that are temporary tables are stored, and each item is an integer type and a permanent monitoring camera ID that is a key. , An integer type base number, an integer type central monitoring server ID, and a text type video description.

  Based on the data mapping data, a permanent monitoring camera, which is a temporary table, can be configured from the real table shown in FIG.

  Specifically, first, all data whose table name is the permanent monitoring camera is extracted from the actual table. All the data belonging to these permanent surveillance cameras are grouped based on whether the key values are the same. Each group should be composed of four data, and each item number is 1 to 4. One group (= 4 data) represents one permanent surveillance camera. That is, the item values of the four data grouped based on these key values are arranged in one horizontal row in the order of the item number, and the four item values arranged in the horizontal one row are changed every time the key value changes. By arranging them sequentially in the downward direction, the permanent monitoring camera table shown in FIG. 3 can be configured.

  In the same procedure, all data belonging to all other temporary tables, for example, all data belonging to the central monitoring server table (FIG. 4) and the like can be stored in the same actual table. Also, by creating data mapping data appropriately for each temporary table, a plurality of temporary tables can be configured from one real table.

  As described above, the inventive program extracts all data having the same table name from the actual table. These data are grouped based on whether the key values are the same. The item values of multiple data grouped based on these key values are arranged in a horizontal row in the order of the item number, and the item values arranged in the horizontal row are sequentially arranged downward each time the key value changes. This process is called a virtual table generation step.

  Here, the change of the real table in the conventional program shown in FIGS. 19A and 19B, that is, the change of the temporary table in the present invention type program is referred to as the real table in the present invention type program (FIG. 21A). How the data mapping data (FIG. 21B) is reflected will be described.

  First, in the data mapping data, as shown in FIG. 21 (d), the table name is the permanent monitoring camera, the item number is 5, the item name is the model ID, the item type is an integer, and the option is the model ID of the model information table. Add the following data. This option indicates that the model ID of the permanent monitoring camera is linked with the model ID of the model information table.

  Although not particularly shown, data whose model name is model information is added in accordance with FIG. 19B. That is, data mapping data for constructing a temporary table called model information is added from the actual table.

  Next, in the real table, as shown in FIG. 21 (c), the item number is 5 for every data grouped by the key value with respect to all the data whose table name is the permanent monitoring camera. , Data in which the item value is a model ID corresponding to the model of the permanent monitoring camera is added.

  Further, although not shown in the figure, data whose model name is model information is added to the actual table in accordance with FIG.

  By doing so, the permanent monitoring camera table shown in FIG. 19A is configured as a temporary table from the real table shown in FIG. 21C based on the data mapping data shown in FIG. be able to.

  The process of configuring the temporary table from the real table based on the data mapping data is a mechanical procedure as described above, and a program for performing these procedures is automatically generated based on the data mapping data. Is possible.

  Therefore, in the present embodiment, as shown in the right part of FIG. 17, a temporary table is configured based on the data mapping data from the real table, and data such as the screen generation process shown in FIGS. An automatic update program is provided for automatically generating an interface program that makes a real table look like a plurality of temporary tables, a so-called API (hereinafter referred to as a data mapping API), based on data mapping data. ing. Therefore, in the present invention type program, as a typical procedure for adding / changing / deleting functions, first, data mapping data for adding / changing / deleting items to / from the corresponding temporary table of the database is created. . Then, the automatic update program is executed to update the real table, the program for accessing the real table, and the data mapping API. Finally, in the data processing program using the automatically updated data mapping API, a part corresponding to the updated content is added / changed / deleted.

  FIG. 22B is a diagram showing a configuration before the change when the processing program is the present invention type, and FIG. 22D is a diagram showing a configuration after the change of the present invention type program. As an actual addition / change / deletion operation, as illustrated in FIG. 22D, only the addition of a part for using the newly added real table is performed.

  The illustrated program is described in a virtual object-oriented language, and the Camera object and its method, the CameraType object and its method correspond to the data mapping API. The data processing program accesses a real table through these objects and their methods, so that one real table is composed of a camera object and its constantly-monitoring camera table, a CameraType object and its methods. It can be accessed as two temporary tables comprising a model information table.

  As described above, the present invention type program includes a process for making one real table accessible as a plurality of temporary tables by using an object corresponding to each temporary table and its method and a method thereof. Is called an interface step.

  On the other hand, in the conventional program, as shown in the left part of FIG. 17, as a typical procedure for adding / changing / deleting a function, first, an item is added / changed / deleted to a corresponding real table of the database. Then, in the access program for accessing the real table to which the item has been added / changed / deleted, the part corresponding to the added / changed / deleted item is added / changed / deleted. Finally, in the data processing program using the added / changed / deleted access program, the part corresponding to the added / changed / deleted content is added / changed / deleted.

  For example, adding / changing / deleting a database real table involves a risk of adding / changing / deleting existing data illegally, and it is preferable not to perform it manually as much as possible. In addition, in the addition / change / deletion work of the access program, there is a possibility that an unintended bug may be mixed by the change, and it is preferable that the access program is not manually performed. Furthermore, in the process of adding / changing / deleting a data processing program, it is common that a portion using the same access program exists across a plurality of programs, typically for display. Since there are at least a processing program for changing and a processing program for changing, there are many places to change even when changing the real table to just one. This large number of changes is a problem, and there is a possibility that unintended bugs may be mixed by making changes in the same way as adding / changing / deleting an access program. However, in most cases, the developer needs to think about the contents of changes in the processing program and must change them manually.

  FIG. 22A is a diagram showing a configuration before change when the processing program is a conventional type, and FIG. 22C is a diagram showing a configuration after change of the conventional program. As an actual addition / change / deletion operation, as illustrated in FIG. 22C, a change to a part that existed before the change and an addition of a part to use a newly added real table , Has been done. The illustrated program is described in a virtual object-oriented language, and is a program in which a program for accessing a real table and a program for processing data are mixed and integrated.

  This is a very simplified example, but there are actually multiple data processing programs that use a permanent surveillance camera table, and conventional programs require additional, change, or deletion operations. Will exist over a wide range of systems.

  Furthermore, another function addition is illustrated.

  Assume that a company that operates a work support system wants to improve the performance of each work by placing a supervisor in addition to the supporter and the worker for each work.

  In order to make such a change, it is necessary to change and add a table as shown in FIG. FIG. 23A is a diagram showing the configuration after the change of the work instruction table to be changed, and FIG. 23B is a diagram showing the added supervisor table.

  As shown in FIG. 23A, a supervisor ID that can identify a supervisor is added to the work instruction sheet camera table.

  As shown in FIG. 23B, the monitor table stores a monitor terminal ID that can identify the monitor terminal used by the monitor for monitoring in association with the monitor ID.

  FIG. 24A is a diagram showing a configuration before the change of the real table, FIG. 24B is a diagram showing a configuration before the data mapping data is changed, and FIG. 24C is a diagram after the change of the real table. (D) is a figure which shows the structure after the data mapping data are changed.

  As shown in FIG. 24B, the data mapping data before the change stores five items of work instruction sheets that are temporary tables, and each item is an integer type and key work number. , An integer type supporter ID linked to the supporter ID of the supporter table, an integer type worker ID linked to the worker ID of the worker table, an integer type base number, and a text type work content are stored. ing.

  In the data mapping data after the change, as shown in FIG. 24 (d), the table name is the work instruction, the item number is 6, the item name is the monitor ID, the item type is an integer, and the option is the monitor table. Data to be a supervisor ID is added. This option indicates that the supervisor ID in the work instruction is linked to the supervisor ID in the supervisor table.

  Although not specifically shown, data whose table name is a monitor is added to the data mapping data after the change in accordance with FIG. That is, data mapping data for constructing a temporary table called a monitor is added from the actual table.

  In the actual table before the change, as shown in FIG. 24 (a), the item value whose table name is the work instruction and the item number is 1 to 5 is the work number which is the key of the work instruction. It is stored in association.

  In the actual table after the change, as shown in FIG. 24C, the item value whose table name is either work instruction and item number is 6, that is, the supervisor ID is the key of the work instruction. It is additionally stored in association with a certain work number.

  Although not specifically shown, data whose table name is a monitor is added to the actual table after the change in accordance with FIG.

  As described above, when changing the program of the present invention, the developer can access the data mapping API and the actual table by executing the automatic update program with the data mapping data changing operation and the data mapping data as input. It is only necessary to perform three operations: an update program, an operation to update the actual table, and an operation to change the data processing program using the updated data mapping API.

  The invention type program may include data mapping data and an automatic update program.

  On the other hand, when there is no automatic update program, the developer can perform four tasks: manual table change work, real table access program change work, data mapping API change work, and data processing program change work. Work will be done.

  Even in such a case, in the present invention type program, there is almost no need to change the structure (item) of the real table, and as a result, there is no need to change the program for accessing the real table. .

  Therefore, the developer performs only two operations, a data mapping API change operation and a data processing program change operation. This is more burdensome than changing the data mapping data and automatically updating the data mapping API by the automatic update program. However, as in the conventional program, the actual table is manually changed. The burden on the developer is small compared to the case where the three operations of changing the access program and changing the data processing program are necessarily required.

  As described above, according to the present embodiment, even if it is necessary to change the inventive program, the temporary table generated by the virtual table generation step is mainly the interface program so as to become the temporary table corresponding to the change. It is only necessary to change a certain data mapping API, and it is not necessary to change the configuration of the real table and the program for accessing the real table. Therefore, labor and time required for the change can be reduced.

  Further, according to the present embodiment, the operator does not directly change the data mapping API which is an interface program, but changes the interface program using predetermined data mapping data and an automatic update program. Since it is only necessary to input the contents of the change to the predetermined data mapping data, problems such as bugs due to mistakes in the change work are less likely to occur than when the interface program is changed directly. Therefore, it is possible to carry out more simply and accurately, and it is not necessary to specify an automatic update program corresponding to the change of the work support program, and occurrence of inconvenience due to an error of the automatic update program can be reduced.

  In addition, according to this embodiment, the update of the real table such as additional registration of the generated key (table name, key, item number) based on the change to the real table is also automatically performed by the automatic update program. The labor and time required can be further reduced.

  Further, according to the present embodiment, when the change is made, the data mapping data used for the previous change is included in the present invention type program which is the work support program to be changed. The data mapping data can be easily identified, and the data mapping data can be easily utilized even in a new change, so that the labor and time required for the change can be further reduced. .

  Further, according to the present embodiment, the work supporter provides work support while checking the worker terminal video (worker terminal camera video) on the notebook personal computer 1 serving as the worker terminal on the personal computer 2 serving as the supporter terminal. As a result, the worker can receive more accurate work support from the work supporter.

  Further, according to the present embodiment, the monitoring cameras 5a, 5b, 5c,... That are permanently installed at the work site (base) specified from the site specification information (work number) included in the support request information from the worker terminal. The monitoring video data and the worker terminal video data by the worker terminal camera 101 of the notebook personal computer 1 are transmitted to the personal computer 2 which is the support terminal of the identified work supporter, and permanent monitoring based on the monitoring video data is performed. Since the camera video and the worker terminal camera video based on the worker terminal video data are displayed on the personal computer 2, the work supporter simply acquires the permanent monitoring camera video that becomes a wide range of site video, Judgments and instructions according to the situation at the site can be implemented more accurately.

  Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

  For example, in the above-described embodiment, the sensor is provided, and the abnormality detection process and the recording and display process of the video at the time of abnormality are performed. However, the present invention is not limited to this and may be configured not to perform these. .

  In the above embodiment, annotation data is input and transmission processing is performed. However, the present invention is not limited to this, and a configuration in which these are not performed may be employed.

  Further, in the above-described embodiment, the offline operator terminal camera video is recorded and displayed when online, but the present invention is not limited to this, and the configuration is not performed It is also good.

  In the above embodiment, the support history information is recorded so that it can be retrieved and displayed later. However, the present invention is not limited to this, and a configuration may be adopted in which these are not performed.

  Moreover, in the said Example, although the server computer was comprised with 2 units | sets, the work support server 3 and the central management server 4, this invention is not limited to this, Even if it comprises with 1 unit | set. It is good, and each may be composed of a plurality of units.

  In the above-described embodiment, the worker terminal camera ID, the supporter terminal camera ID, and the permanent monitoring camera ID are all stored in advance in the work support server 3, but the present invention is not limited to this. Alternatively, a separate ID registration process may be provided, and the device ID set by the manufacturer may be transmitted to the work support server 3 to be registered in the work support server 3, or an ID assignment process may be performed separately. And the work support server 3 may automatically generate an ID and transmit the ID to the device so that the ID is transmitted to the device.

  Moreover, in the said Example, the process for the work assistance server 3 to transmit a permanent monitoring camera image | video (monitoring image data) and a worker terminal camera image | video (worker terminal image data) to the personal computer 2 which is a supporter terminal. As described above, the work support server 3 directly relays these permanent monitoring camera video (monitoring video data) and worker terminal camera video (worker terminal video data), but the present invention is limited to this. However, the processing for transmitting to the personal computer 2 that is the supporter terminal is not performed by the work support server 3 directly relaying to the personal computer 2, but the network address of the personal computer 2 that is the transmission destination ( (IP address) is notified to the notebook personal computer 1 (worker terminal) and the permanent monitoring cameras 5a, 5b, 5c. The permanent monitoring camera video (monitoring video data) and the worker terminal camera video (worker terminal video data) are transmitted directly from the permanent monitoring cameras 5a, 5b, 5c... To the personal computer 2 and the work support server 3 monitors these permanent monitoring. The camera video (monitoring video data) and the worker terminal camera video (worker terminal video data) may not be relayed.

  Moreover, in the said Example, although the data communication card which connects the notebook personal computer 1 (worker terminal) to the internet network via the mobile telephone network 8 is used, this invention is not limited to this. As the data communication means, a PHS telephone network or a public wireless LAN network may be used instead of the mobile telephone network 8, and there is a LAN environment in which a wired connection can be made to the base. In such a case, these wired LANs may be used.

  Moreover, in the said Example, although the real table of this invention type program is made into one, this invention is not limited to this, At least one of these real tables should just exist and these real tables are the following. When it becomes very large and inefficient, a configuration in which it is distributed over a plurality of tables may be adopted.

  The present invention verifies the effect of a work support program in which changes occur frequently. However, as an application example of the present invention, the work of the present invention also relates to other programs in which these changes occur frequently. There is a possibility that the same effect as the support program can be obtained and it can be used.

Claims (6)

An electronic document in which various types of information relating to work performed at the work site is digitized is connected to a worker terminal that can be operated and carried by a worker who goes to the work site and is capable of data communication. A work support program that operates on a server computer that supports the work by distributing it to a worker terminal,
A data processing program for performing data processing related to the work support;
The structure in the column direction is fixed, and has at least a generation key item in which a generation key for generating a virtual table used by the data processing program is stored as an item of the column. A database comprising at least one real table for which
A real table access program for accessing a real table in the database;
A virtual table generation step for generating a plurality of virtual tables from the real table based on the generation key stored in the generation key item of the real table using the real table and the real table access program; An interface program including an interface step that allows the data processing program to access the virtual table generated in the table generation step as a normal real table;
A work support program characterized by comprising:   An automatic update program for automatically updating at least the interface program based on predetermined data mapping data created by a change operator in order to add / change / delete items of the virtual table according to the change The work support program according to claim 1, further comprising:   The work support program according to claim 1, wherein the automatic update program includes a real table update step of updating the real table based on the data mapping data.   The work support program according to claim 1, comprising the data mapping data. The server computer is connected to a supporter terminal that can be operated by a work supporter who supports the work performed by the worker so that data communication is possible. With imaging means,
The processing program includes, as the electronic document, a work instruction electronic document transmission processing step for transmitting to the worker terminal of the worker a work instruction electronic document including at least information regarding work contents to be worked by the worker; The worker terminal video data of the video imaged by the imaging means transmitted from the worker terminal in response to the worker's support request operation is specified to identify the work supporter who supports the work, and the identified work The work support program according to claim 1, further comprising a worker terminal video data transmission step for performing processing for transmission to a supporter terminal of a supporter. The server computer is connected to a monitoring camera permanently installed at the work site so as to be able to perform data communication. In the database, monitoring camera identification information capable of individually identifying each monitoring camera and the monitoring camera are permanently installed. Stored in association with site identification information that can identify the work site, the work instruction electronic document includes the site identification information of the work site where the worker should work,
In the worker terminal video data transmission step, the processing program receives the support request received in response to receiving support request information including the site specific information transmitted from the worker terminal in response to the support request operation. The monitoring camera identification information stored in association with the on-site identification information included in the information is specified, the monitoring video data of the video imaged by the monitoring camera identified from the specified monitoring camera identification information, and the work 6. A process for transmitting worker terminal video data, which is a video imaged by an imaging means of a worker terminal, to the supporter terminal of the identified work supporter, according to claim 1-5. The work support program described in any one.

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