JP2023152084A - information management system - Google Patents

Abstract

To appropriately transmit data even when communication is restricted.SOLUTION: In an information management system including a plurality of information processing apparatuses, corresponding communication terminals on which restrictions are imposed, and an information management device that selects a corresponding communication terminal that should transmit data for transmission, the information processing apparatus comprises: a data generation unit; a communication state monitoring unit; a transmission propriety determination unit that determines the propriety of transmission of the data for transmission performed by the corresponding communication terminals from the communication state and attribute information; a communication processing unit that causes the communication terminals to transmit the data for transmission that can be transmitted; a route control unit that transmits the data for transmission that cannot be transmitted to the information management device; and a communication state notification unit that transmits communication state information to the information management device, and the information management device comprises: a system communication state acquisition unit; a system communication state monitoring unit; a system data for transmission acquisition unit that acquires the data for transmission; a system transmission propriety determination unit that determines the propriety of transmission of the data for transmission performed by any of the corresponding communication terminals; and a system route control unit that, when there is the corresponding communication terminal determined to be able to transmit the data for transmission, transmits the data for transmission to the corresponding communication terminal.SELECTED DRAWING: Figure 3

Description

The present invention relates to an information management system.

It is necessary to use wired/wireless communication when receiving data from a storage medium installed in a remote processing device, but depending on factors such as line stability, data size limitations, and transmission frequency limitations, processing devices In some cases, it became impossible to receive data from or was delayed.

Conventionally, a technique for selecting another route in the event of a communication failure (see Patent Document 1) and a technique for allowing individual communication terminals to flexibly search for a route (see Patent Document 2) have been proposed.

JP2013-247378A Japanese Patent Application Publication No. 2001-34313

However, it was not possible to deal with transmission failures or transmission delays due to communication restrictions.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to enable data to be sent at the desired timing even when there is a communication failure or communication restriction.

The present invention for solving the above problems is as follows:
multiple information processing devices;
a corresponding communication terminal that is connected to each of the information processing devices and is subject to restrictions regarding communication conditions;
an information management device that selects which of the compatible communication terminals should transmit the transmission data generated in the information processing device;
An information management system comprising:
The information processing device includes:
a data generation unit that generates the transmission data;
a generated data storage unit that stores the transmission data;
a communication status monitoring unit that monitors the communication status of the communication terminal;
a transmission permission determination unit that determines whether the transmission data can be transmitted by the compatible communication terminal based on the communication state and attribute information of the transmission data;
a communication processing unit that causes the communication terminal to transmit the transmission data determined to be transmittable;
a route control unit that transmits the transmission data determined to be impossible to transmit to the information management device together with the attribute information of the transmission data;
a communication status notification unit that transmits communication status information including information regarding the constraints and information regarding the communication status monitored by the communication status monitoring unit to the information management device;
Equipped with
The information management device includes:
a system communication status acquisition unit that acquires the communication status information transmitted from the communication status notification unit;
a system communication status monitoring unit that monitors the communication status of all the compatible communication terminals based on the communication status information;
a system transmission data acquisition unit that acquires the transmission data and the attribute information transmitted from the route control unit;
a system transmission permission determination unit that determines whether transmission is possible by any of the compatible communication terminals based on the attribute information and the communication state information;
a system path control unit that transmits the transmission data and the attribute information to the information processing device to which the compatible communication terminal is connected when there is the compatible communication terminal determined to be capable of transmission;
It is characterized by having the following.

According to this, when the transmission data cannot be transmitted by a compatible communication terminal connected to the information processing device that generated the transmission data, the information management device configures the attribute information of the transmission data and the information management system. Based on the communication status information of the communication terminal that is connected, it is determined which compatible communication terminal is capable of transmitting, and the data for transmission and attribute information are sent to the information processing device connected to the communication terminal determined to be capable of communication. Therefore, even if a compatible communication terminal is subject to restrictions such as a communication failure or communication restriction, it is possible to select an appropriate compatible communication terminal and send the data that you want to send at the desired timing.
In this case, the constraints regarding communication conditions include communication failures, and communication restrictions such as data capacity and number of communications, which are predetermined including the target period, and which change depending on the communication performance.

Furthermore, in the present invention,
The information processing device includes a priority setting unit that sets a priority regarding transmission to the transmission data,
The transmission permission determining unit determines whether the transmission data can be transmitted by the compatible communication terminal based on the communication state, the priority, and attribute information of the transmission data,
The route control unit transmits the transmission data determined to be impossible to transmit to the information management device together with the priority and attribute information of the transmission data,
The system transmission data acquisition unit acquires the transmission data, the priority, and the attribute information transmitted from the route control unit,
The system transmission permission determining unit may determine whether transmission is possible by any of the compatible communication terminals based on the priority, the attribute information, and the communication state information.

Transmission data generated in an information processing device may have different values, and depending on the value, a transmission priority is set for the transmission data, and the transmission data is transmitted taking that priority into consideration. By determining whether or not the transmission data is appropriate, it becomes possible to transmit data according to the value of the transmission data.

Furthermore, in the present invention,
The priority may be set based on at least one of whether or not it is necessary to transmit the transmission data within a predetermined period, and whether or not it is necessary to retransmit the transmission data when the transmission data cannot be transmitted. good.

The value of the transmission data is reflected in, for example, whether or not the transmission data needs to be transmitted within a predetermined period of time, and whether it is necessary to retransmit it if it cannot be transmitted. By setting the priority based on at least one of the necessity of retransmission when the data for transmission cannot be transmitted, it becomes possible to transmit the data according to the value of the data for transmission.

Furthermore, in the present invention,
The data generation unit generates the transmission data according to a data generation mode that is a predetermined data generation mode,
The information management device includes:
comprising a mode change instruction unit that instructs the data generation unit to change the data generation mode when there is no compatible communication terminal that is determined to be capable of transmission by the system transmission availability determination unit;
The data generation section may generate the transmission data according to the changed data generation mode.

In this way, if data cannot be transmitted by any communication terminal in a predetermined data generation mode, it may be possible to transmit by changing the data generation mode. You can select a compatible communication terminal that can send data.

Furthermore, in the present invention,
The data generation mode may be at least one of the size of the transmission data and the number of times the data is generated within a predetermined period.

Constraints imposed on communication conditions may be imposed on the size of data or the number of times of transmission within a predetermined period. By choosing either one, the possibility of transmitting the transmission data generated according to the changed data generation mode increases.

Furthermore, in the present invention,
The information processing device may include a specific information processing device connected to the compatible communication terminal installed in a good communication environment.

In this way, it is possible to secure compatible communication terminals with fewer restrictions regarding communication conditions in the information management system in advance, so that regardless of the communication status of other compatible communication terminals, Communication terminals allow you to send the data you want to send at the timing you want.

According to the present invention, even if there is a communication failure or communication restriction, the desired data can be sent at the desired timing.

1 is a schematic configuration diagram of a production system according to an embodiment of the present invention. 1 is a schematic configuration diagram of an inspection system according to an embodiment of the present invention. FIG. 2 is a functional block diagram of a PC and a first central management terminal according to an embodiment of the present invention. It is a figure explaining the priority based on the Example of this invention. FIG. 3 is a diagram illustrating conditions for switching data generation modes according to an embodiment of the present invention. 3 is a flowchart illustrating a transmission route selection method according to an embodiment of the present invention.

[Application example]
Application examples of the present invention will be described below with reference to the drawings.

An inspection system 1 to which the present invention is applied includes, as in a production line 100 shown in FIG. It includes a device 100f. Each of the inspection devices 100b, 100d, and 100f inspects the condition of the printed circuit board at the exit of each process, and automatically detects defects or the possibility of defects.

The above-mentioned post-solder printing inspection device 100b, post-mount inspection device 100d, and post-reflow inspection device 100f (hereinafter also collectively referred to as inspection devices 20) are connected via a network such as a LAN, and the inspection system 1 It consists of FIG. 2 shows a schematic configuration of the inspection system 1. Here, the first PC 30-1, the second PC 30-2, and the third PC 30-3 are PCs (Personal Computers) provided in the inspection apparatus 20, respectively.

In the inspection system 1 shown in FIG. 2, a second central management terminal 40 is connected above the first PC 30-1 and the second PC 30-2, and a second central management terminal 40 is connected above the second central management terminal 40, the third PC 30-3, and the repeater 50. A first central management terminal 60 is connected.

The first PC 30-1, the second PC 30-2, the second central management terminal 40, the third PC 30-3, and the first central management terminal 60 include the first communication terminal 70-1, the second communication terminal 70-2, the third communication A terminal 70-3, a fourth communication terminal 70-4, and a fifth communication terminal 70-5 are connected, respectively. Furthermore, a sixth communication terminal 70-6 and a seventh communication terminal 70-7 are connected to the repeater 50. These first communication terminals 70-1 to seventh communication terminals 70-7 (hereinafter also collectively referred to as communication terminals 70) are connected to an external communication station 200 wirelessly or by wire, and each device This is a device for transmitting generated data to the outside.

As shown in FIG. 3, the PC 30 includes a data generation unit 30a, a route control unit 30b, a communication availability determination unit 30c, a communication restriction determination threshold holding unit 30d, a communication status monitoring unit 30e, a communication processing unit 30f, and a communication status notification unit 30g. including. The second central management terminal 40 and the repeater 50 have the same functional block configuration as the PC 30. However, the second central management terminal 40 and the repeater 50 may have a configuration that does not include the data generation section 30a.
Further, as shown in FIG. 3, the first centralized management terminal 60 includes a data generation section 60a, a route control section 60b, a communication availability determination section 60c, a communication restriction determination threshold holding section 60d, a communication state monitoring section 60e, and a communication processing section. 60f, a communication status notification unit 60g, a system communication status monitoring unit 60h, a communication status acquisition unit 60i, a system communication availability determination unit 60j, and a data generation mode switching unit 60k. However, the first central management terminal 60 may also have a configuration that does not include the data generation section 60a.

In the inspection system 1, data for transmission is transmitted using the route control method shown in FIG. Transmission data can be transmitted via the communication station 200 at desired timing.

In the route control of transmission data described below, in order to perform route control of transmission data generated by the entire inspection apparatus 1, both the first central management terminal 60 and the second central management terminal 40 are referred to as "management terminals". However, only the first centralized management terminal 60 provided at a higher level is treated as a "centralized management terminal."

First, priority is assigned in the data generation unit 30a of each PC 30, second central management terminal 40, repeater 50, and first central management terminal 60 (hereinafter also referred to as PC 30, etc.) that constitute the inspection system 1. When the transmission data is generated (step S1), the communication permission determination unit 30c or the like determines whether or not the transmission data can be transmitted (step S2).
If it is determined that transmission is possible, the process advances to step S10, and the transmission data is transmitted from the connected communication terminal to the communication station 200 in order of priority.
If it is determined that transmission is not possible, the transmission data is transmitted to a higher-level management terminal (step S3).

It is determined whether the management terminal that received the transmission data in step S3 is a central management terminal (step S4).
If the management terminal that received the transmission data is not a central management terminal, the process returns to step S3 and transmits the transmission data to a higher level management terminal.
If the management terminal that received the transmission data is a central management terminal, it is determined whether there is a terminal capable of transmitting data (step S5).

If it is determined in step S5 that there is a terminal capable of transmitting, the central management terminal selects an optimal terminal and a device to be routed (step S6). The optimal terminal does not include the communication terminal itself, but a terminal to which the communication terminal is connected. The number of devices to be passed through is not limited to one, and may be a plurality of devices.
If it is determined in step S5 that there is no terminal capable of transmitting data, the data generation mode switching unit 60k switches the data generation mode of the transmission data (step S7). Then, the process returns to step S1, transmission data is generated according to the changed data generation mode, and the processes from step S2 onwards are repeated.

In step S6, when the optimal terminal and the device to be passed through are selected, the central management terminal transmits the transmission data to the device to be passed through (step S8).

Next, it is determined whether the device to be passed through is the final terminal (step S9). This final terminal does not include the communication terminal itself, but targets terminals to which the communication terminal is connected.
If the device to be passed through is the final terminal, the final terminal transmits the transmission data to the communication station 200 in order of priority (step S10), and the process ends.
If the device to be passed through is not the final terminal, the device to be passed through transmits transmission data to another device to be passed through (step S11), and the determination in step S9 is repeated.
Here, if direct transmission is not possible from the PC 30 or the like, the highest management terminal is always selected and the most suitable terminal is selected from the entire system. However, if there is a terminal that can send to subordinate terminals at the level of a lower-level management terminal instead of the top-level one, the most suitable terminal (and the device to be routed through) is selected from among them and sent to the terminal. The data for transmission may be transmitted, and the data for transmission may be transmitted from the terminal to the communication station 200 in order of priority.

[Example 1]
EMBODIMENT OF THE INVENTION Hereinafter, the structure of the inspection system 1 based on Example 1 of this invention is demonstrated with reference to drawings. However, the configuration of the apparatus described in this example should be modified as appropriate depending on various conditions. That is, the scope of the present invention is not intended to be limited to the following examples.

FIG. 1 shows a production line 100 according to this embodiment. As described above, the production line 100 includes, for example, a solder printing device 100a, a solder printing post-inspection device 100b, a mounter 100c, a post-mounting inspection device 100d, a reflow oven 100e, and a post-reflow inspection device 100f. The solder printing device 100a is a device that prints solder paste for electrode portions on a printed circuit board. The mounter 100c is a device for mounting a large number of electronic components to be mounted on a printed circuit board onto solder paste. Further, the reflow oven 100e is a heating device for soldering electronic components placed on a printed circuit board to printed wiring on the board. Each of the inspection devices 100b, 100d, and 100f inspects the condition of the printed circuit board at the exit of each process, and automatically detects defects or the possibility of defects.

The above-mentioned post-solder printing inspection device 100b, post-mount inspection device 100d, and post-reflow inspection device 100f (hereinafter also collectively referred to as inspection devices 20) are connected via a network such as a LAN, and the inspection system 1 It consists of FIG. 2 shows a schematic configuration of the inspection system 1. Here, the first PC 30-1, the second PC 30-2, and the third PC 30-3 are PCs (Personal Computers) provided in the inspection apparatus 20, respectively. In Figure 2,
Although the configuration includes three PCs, this is just an example, and an appropriate number of PCs can be provided depending on the number of inspection devices that constitute the inspection system. Here, the first PC 30-1, second PC 30-2, and third PC 30-3 include a CPU (processor), main storage device (memory), auxiliary storage device (hard disk, etc.), input device (keyboard, mouse, controller, touch panel, etc.). ), an output device (display, printer, speaker, etc.), and the like. Here, the first PC 30-1, the second PC 30-2, and the third PC 30-3 correspond to the information processing device of the present invention.

In the inspection system 1 shown in FIG. 2, a second central management terminal 40 is connected above the first PC 30-1 and the second PC 30-2, and a second central management terminal 40 is connected above the second central management terminal 40, the third PC 30-3, and the repeater 50. A first central management terminal 60 is connected. For example, the first central management terminal 60 can be configured by a test server. The hierarchical structure including the first central management terminal 60, the second central management terminal 40, the repeater 50, the first PC 30-1, the second PC 30-2, and the third PC 30-3 is not limited to this, and the number and arrangement of inspection devices are Depending on the requirements, an appropriate hierarchical connection configuration including an appropriate number of inspection devices and with a central management terminal at the top level is possible. Here, the second centralized management terminal 40, the repeater 50, and the first centralized management terminal 60 correspond to the information processing device of the present invention, and include the first PC 30-2 to third PC 30-3, and the plurality of Corresponds to an information processing device.

In addition, the first PC 30-1, the second PC 30-2, the second central management terminal 40, the third PC 30-3, and the first central management terminal 60 include the first communication terminal 70-1, the second communication terminal 70-2, and the second central management terminal 40. A third communication terminal 70-3, a fourth communication terminal 70-4, and a fifth communication terminal 70-5 are connected, respectively. Furthermore, a sixth communication terminal 70-6 and a seventh communication terminal 70-7 are connected to the repeater 50. These communication terminals 70-1 to 70-7 are devices for connecting to an external communication station 200 wirelessly or by wire, and transmitting data generated in each device to the outside. etc., to each device such as the first PC 30-1. Restrictions regarding communication conditions are imposed on each of the first to seventh communication terminals. Restrictions include communication failures and communication restrictions determined by contracts and the like. Communication failures include wire breaks and fluctuations in communication strength. In addition, communication restrictions include the amount of data sent within a predetermined period and the number of times of transmission within a predetermined period. This includes, but is not limited to, the following. The first communication terminal 70-1 to the seventh communication terminal 70-7 correspond to communication terminals and corresponding communication terminals to which restrictions regarding the communication conditions of the present invention are imposed.

FIG. 3 shows a functional block diagram of the first central management terminal 60, the first PC 30-1, the second PC 30-2, and the third PC 30-3. Since the first PC 30-1 to third PC 30-3 have similar functional block configurations, they will be collectively described as PC 30.

<Functional block configuration of PC>
As shown in FIG. 3, the PC 30 includes a data generation unit 30a, a route control unit 30b, a communication availability determination unit 30c, a communication restriction determination threshold holding unit 30d, a communication status monitoring unit 30e, a communication processing unit 30f, and a communication status notification unit 30g. including.

(Data generation section)
The data generation unit 30a generates transmission data, which is data related to the inspection apparatus 20 equipped with the PC 30, and is data that should be collected by a management server or the like external to the inspection system 1 via the communication station 200. . The data generation section 30a includes a generated data storage section 31a that stores generated transmission data. Here, the data generation section 30a and the generated data storage section 31a correspond to the data generation section and the generated data storage section of the present invention, respectively.
The transmission data includes, for example, failure information of the inspection device 20, billing information, operation information, load information of the PC 30, and the like.

When the data for transmission described above is generated, the data generation unit 30a sets a priority according to the content of the data for transmission, and labels the data name with priority information. The data generation section 30a corresponds to the priority setting section of the present invention. The transmission data also includes attribute information such as the size of the generated data.
The priority is the priority regarding data transmission, and is given according to the requirements shown in FIG. 4. In other words, transmission data with priority A is data that needs to be received within a certain (predetermined) period, and requires retransmission processing when communication fails (impossible). Further, transmission data of priority B does not need to be received within a certain period of time, but it is data that requires retransmission processing when communication fails. Further, transmission data with priority C is data that can be received within a certain period of time and does not require retransmission processing when communication fails.
For example, priority A is assigned to failure information of the inspection device 20, priority B is assigned to billing information of the inspection device 20, and priority C is assigned to operating information of the inspection device 20 and load information of the PC 30. be done.

Further, the data generation unit 30a generates transmission data with data specifications according to a data generation mode, which is a data generation mode described later. FIG. 5 shows the correspondence between data generation modes and their switching conditions. The data generation mode includes five modes: normal mode, size limit mode, number of times limit mode, size and number of times limit mode, and communication limit mode. The normal mode, size limit mode, number of times limit mode, size and number of times limit mode, and communication limit mode correspond to a predetermined data generation mode and a predetermined data generation mode of the present invention, respectively. Further, the data size and the number of times of transmission correspond to the size of the data for transmission and the number of times of generation within a predetermined period of the present invention.
If the total of the sent data size and the expected periodic/one-time data size exceeds the data size limit, size limit mode and size & number limit mode apply, normal mode and number limit mode do not apply, and communication limit is applied. Mode is not relevant to this condition.
If the sum of the number of sent transmissions and the expected number of scheduled/data transmissions exceeds the number limit, number limit mode and size & number limit mode apply, normal mode and size limit mode do not apply, and communication limit mode applies to this mode. Not related to conditions.
In size limit mode or size & count limit mode, the estimated size of sent data and periodic/each time data exceeds the data size limit, or in count limit mode or size & count limit mode, the number of sent data and periodic/each time data exceeds the data size limit. If the expected number of times of data exceeds the number limit, the communication restriction mode applies, and the normal mode, size limit mode, number of times limit mode, and size and number of times limit mode do not apply.
If there is no corresponding condition in any of the mode conditions, the normal mode applies, and the size limit mode, number limit mode, size & number limit mode, and communication limit mode do not apply.

The data specifications when the data generation mode is switched according to the mode switching conditions described above also apply to the waiting data of the route control unit 30b, which will be described later, and the data is acquired and the data for transmission is regenerated according to the data specifications after switching. At the same time, the original data is deleted from the waiting data.

Further, the data generation unit 30a responds to the request for the expected amount of data to be transmitted/number of times from the communication status monitoring unit 30e with expected information based on the data generation mode and remaining period.

(Route control section)
The route control unit 30b holds information on the transmission data storage location of the higher-level terminal, and can access the transmission data storage location via the network.
The route control unit 30b processes the transmission data received from the data generation unit 30a or the route control unit or communication control unit of another terminal in the order of labeled priority and data generation time.
If the data is for transmission received from the route control unit of another terminal, it is determined whether the terminal labeled in the data name is the own terminal, and if it is the own terminal, it is determined whether or not communication is possible. Proceed to. If the terminal is not the terminal itself, the transmission data is transmitted to the route control unit of the terminal that matches the terminal labeled at the higher level. If there is no terminal in the higher level that matches the labeled terminal, the labeling is changed to the higher level device name and sent to the route control unit of the higher level device.
If the data is transmission data received from a communication processing unit of another terminal, the process proceeds to communication permission determination only if the priority is A or B.
Here, the route control section 30b corresponds to the route control section of the present invention.

The communication capability determination section 30c performs the communication capability determination section 30c by passing the transmission data to the communication capability determination section 30c, and obtains the transmission capability determination result from the communication capability determination section 30c.
If the determination result that transmission is possible is obtained, the route control unit 30b passes the transmission data subject to the determination to the communication processing unit 30f.
If a determination result indicating that transmission is not possible is obtained, the route control unit 30b transmits the transmission data subject to the determination to the route control unit of the higher-level terminal. At this time, the destination terminal name is labeled as the data name.

(Communication availability determination unit)
The communication availability determining unit 30c performs communication availability determination based on the priority and size of the transmission data scheduled to be transmitted, as well as the communication state and communication restriction determination threshold. At this time, the communication status is acquired from the communication status monitoring unit 30e, and the threshold for determining communication restriction is acquired from the communication restriction determination threshold holding unit 30d. Here, the communication availability determining section 30c corresponds to the transmission capability determining section of the present invention.
Regarding the communication state, if the communication radio field strength is below the threshold value, the communication possibility determining unit 30c determines that communication is not possible regardless of the transmission data.
Regarding the communication state, if the amount of communication data or the number of communications over a certain period is equal to or greater than a threshold value, the communication possibility determining unit 30c determines that communication is not possible, regardless of the transmission data.
When the priority of the transmission data to be determined is A, the communication availability determination unit 30c determines whether it can be sent within the communication limit and the communication speed of priority A based on the communication size and amount of waiting data. It is determined whether the conditions are met, and if both conditions are met, it is determined that communication is possible.
When the priority of the transmission data to be determined is B or C, the communication availability determination unit 30c determines that communication is possible if it can be sent within the communication limit based on the communication size and amount of waiting data. .

(Communication restriction judgment threshold holding unit)
The communication restriction determination threshold holding unit 30d holds the size, number of times, radio field strength, etc. of communication restriction as respective threshold values.

(Communication status monitoring unit)
The communication status monitoring unit 30e monitors the communication radio field strength of the communication terminal 70 connected to the PC 30 itself, the amount of transmitted data and the number of transmissions, the amount of waiting data and the number of waiting communications, the expected amount of data to be transmitted, and the expected number of communications. do. The communication status monitoring units 30-1e and 30-2e of the first PC 30-1 and second PC 30-2 monitor the communication strength, etc. of the first communication terminal 70-1 and the second communication terminal 70-2, respectively, and The communication status monitoring unit 30-3e of the 3PC 30-3 monitors the communication strength and the like of the fourth communication terminal 70-4. Here, the communication state monitoring section 30e corresponds to the communication state monitoring section of the present invention.

The communication status monitoring unit 30e requests the data generation unit 30a to obtain the expected amount of data to be transmitted and the number of times of communication from the data generation unit 30a.
The amount of transmitted data and the number of times of transmission are acquired and accumulated by the communication status monitoring unit 30e based on the logging data output by the communication processing unit 30f.
The communication radio wave intensity is acquired by the communication state monitoring unit 30e based on the logging data output by the communication processing unit 30f.
The amount of waiting data and the number of waiting communications are acquired by the communication state monitoring section 30e based on the transmission data stored in the communication processing section 30f.

(Communication processing unit)
The communication processing unit 30f transmits the transmission data received from the route control unit 30b via the connected communication terminal 70. Here, the communication processing section 30f corresponds to the communication processing section of the present invention.
Furthermore, the communication processing unit 30f outputs information for monitoring the communication status to the communication status monitoring unit 30e.
Furthermore, when the communication processing section 30f fails to transmit the transmission data, the communication processing section 30f passes the transmission data to the route control section 30b.

(Communication status notification section)
In response to the communication status notification command from the higher-level centralized management terminals 40 and 60, the communication status notification unit 30g transmits information held by the communication status monitoring unit 30e. Here, the information held by the communication status monitoring unit 30e corresponds to the communication status information of the present invention, and the communication status notification unit 30g corresponds to the communication status notification unit of the present invention.

<Functional block configuration of the second central management terminal>
The second centralized management terminal 40 includes a data generation section 40a, a generated data storage section 41a, a route control section 40b, a communication availability determination section 40c, a communication restriction determination threshold holding section 40d, a communication status monitoring section 40e, a communication processing section 40f, and a communication processing section 40f. It includes a status notification section 40g. Here, the data generation section 40a corresponds to the data generation section and priority setting section of the present invention. Further, the generated data storage unit 41a, the route control unit 40b, the communication availability determination unit 40c, the communication status monitoring unit 40e, the communication processing unit 40f, and the communication status notification unit 40g are respectively the generated data storage unit, the route control unit, and the communication status notification unit 40g of the present invention. It corresponds to a transmission permission determination unit, a communication status monitoring unit, a communication processing unit, and a communication status notification unit. However, the second central management terminal 40 can also be configured without the data generation section 40a.

The second central management terminal 40 has a functional block configuration similar to that of the PC 30 shown in FIG. 3, so illustration thereof is omitted.

The data generation unit 40a of the second centralized management terminal 40 is data related to the inspection device 20 in which the second centralized management terminal 40 is installed, and is collected by a management server or the like external to the inspection system 1 via the communication station 200. The data to be sent is generated. Since the function of the data generation section 40a is similar to that of the data generation section 40a of the PC 30, detailed explanation will be omitted.

The route control unit 40b holds information on the transmission data storage locations of the first PC 30-1 and the second PC 30-2, and can access the transmission data storage locations via the network.
The route control unit 40b processes the transmission data received from the data generation unit 40a or the route control unit or communication control unit of another terminal in the order of labeled priority and data generation time.
If the data is for transmission received from the route control unit of another terminal, it is determined whether the terminal labeled in the data name is the own terminal, and if it is the own terminal, it is determined whether or not communication is possible. Proceed to. If the terminal is not the terminal itself, the transmission data is sent to the route control unit of the terminal that matches the terminal labeled under its control. If there is no terminal that matches the labeled terminals under its control, the process proceeds to communication availability determination.
If the data is transmission data received from a communication processing unit of another terminal, the process proceeds to communication permission determination only if the priority is A or B.

The communication availability determination unit 40c, communication restriction determination threshold holding unit 40d, communication status monitoring unit 40e, communication processing unit 40f, and communication status notification unit 40g of the second central management terminal 40 are the communication availability determination unit 30c of the PC 30, Since they have the same functions as the restriction determination threshold holding unit 30d, the communication status monitoring unit 30e, the communication processing unit 30f, and the communication status notification unit 30g, their explanations will be omitted.

<Functional block configuration of repeater>
The repeater 50 is constituted by a PC installed in a good communication environment where the radio field strength of the connected sixth communication terminal 70-6 and seventh communication terminal 70-7 is sufficient. Therefore, it is not limited to the PC provided in the inspection device 20, but any appropriate PC connected via a network and provided in a good communication environment can be used. The repeater 50 corresponds to the specific information processing device of the present invention.

The repeater 50 includes a data generation unit 50a, a generated data storage unit 51a, a route control unit 50b, a communication availability determination unit 50c, a communication restriction determination threshold holding unit 50d, a communication status monitoring unit 50e, a communication processing unit 50f, and a communication status notification unit. Contains 50g. The functions of the data generation unit 50a, route control unit 50b, communication availability determination unit 50c, communication restriction determination threshold holding unit 50d, communication status monitoring unit 50e, communication processing unit 50f, and communication status notification unit 50g of the repeater 50 are as shown in FIG. The data generation unit 30a, route control unit 30b, communication availability determination unit 30c, communication restriction determination threshold holding unit 30d, communication status monitoring unit 30e, communication processing unit 30f, and communication status notification unit 30g of the PC 30 shown in FIG. Since it has a function, its explanation will be omitted. Here, the data generation section 50a corresponds to the data generation section and priority setting section of the present invention. Further, the generated data storage unit 51a, the route control unit 50b, the communication availability determination unit 50c, the communication status monitoring unit 50e, the communication processing unit 50f, and the communication status notification unit 50g are respectively the generated data storage unit, the route control unit, and the communication status notification unit 50g of the present invention. It corresponds to a transmission permission determination unit, a communication status monitoring unit, a communication processing unit, and a communication status notification unit. However, the repeater 50 can also be configured without the data generation section 50a.

<Functional block configuration of the first central management terminal>
As shown in FIG. 3, the first centralized management terminal 60 includes a data generation section 60a, a generated data storage section 61a, a route control section 60b, a communication availability determination section 60c, a communication restriction determination threshold holding section 60d, and a communication state monitoring section 60e. , a communication processing unit 60f, a communication status notification unit 60g, a system communication status monitoring unit 60h, a communication status acquisition unit 60i, a system communication availability determination unit 60j, and a data generation mode switching unit 60k. Here, the first centralized management terminal 60 corresponds to the information management device of the present invention.

(Data generation section)
The data generation unit 60a of the first centralized management terminal 60 is data related to the inspection device 20 in which the first centralized management terminal 60 is installed, and is collected by a management server or the like external to the inspection system 1 via the communication station 200. The data to be sent is generated. The functions of the data generation section 60a and the generated data storage section 61a are the same as those of the data generation section 30a and the generated data storage section 31a of the PC 30, so a detailed explanation will be omitted. Here, the data generation unit 6
0a corresponds to the data generation section and priority setting section of the present invention. Further, the generated data storage section 61a corresponds to the generated data storage section of the present invention. However, the first centralized management terminal may be configured without the data generation section 60a.

(Route control section)
The route control unit 60b holds information on the storage location of data for transmission of terminals under its control, and can access the storage location of data for transmission via the network.
The route control unit 30b processes the transmission data received from the data generation unit 30a or the route control unit or communication control unit of another terminal in the order of labeled priority and data generation time.
If the data is for transmission received from the route control unit of another terminal, it is determined whether the terminal labeled in the data name is the own terminal, and if it is the own terminal, it is determined whether or not communication is possible. Proceed to. If the terminal is not the terminal itself, the transmission data is sent to the route control unit of the terminal that matches the terminal labeled under its control. If there is no terminal that matches the labeled terminals under its control, the process proceeds to communication availability determination.
If the data is transmission data received from a communication processing unit of another terminal, the process proceeds to communication permission determination only if the priority is A or B.

The communication possibility determination is performed in the communication possibility determination section 30c by passing the transmission data to the communication possibility determination section 60c, and the transmission possibility determination result is obtained from the communication possibility determination section 60c.
When the determination result that transmission is possible is obtained, the route control unit 60b passes the transmission data that is the target of the determination to the communication processing unit 60f.
When acquiring the determination result that transmission is not possible, the route control unit 30b passes the transmission data subject to determination to the system communication availability determination unit 60j, and obtains the transmission availability determination result from the system communication availability determination unit 60j. .
If the determination result of the system communication possibility determination unit 60j is that transmission is possible, the communication determination result and the transmission data to be determined are transmitted from the route control unit 60b to the route control unit of the transmitting terminal with labeling included. do. At this time, if the destination terminal cannot be accessed directly, the transmission data is transmitted to the route control unit of the relaying terminal (at this time, the labeling remains the same as the original destination). For example, if the terminal determined to be capable of transmission is the first PC 30-1, the first central management terminal 60 cannot directly access the first PC 30-1, and therefore the transmission data is route-controlled to the second central management terminal 40. 40b.
If the determination result of the system communication capability determination unit 60j is that transmission is not possible, the route control unit 60b does nothing and the data generation mode is switched.
Here, the route control unit 60b corresponds to a route control unit, a system route control unit, and a system transmission data acquisition unit of the present invention.

The functions of the communication permission determination unit 60c, the communication restriction determination threshold holding unit 60d, the communication status monitoring unit 60e, and the communication processing unit 60f are the communication permission determination unit 30c, the communication restriction determination threshold storage unit 30d, and the communication status monitoring unit 30e of the PC 30, respectively. , and the communication processing unit 30f, detailed explanation will be omitted. Here, the communication availability determining unit 60c, the communication status monitoring unit 60e, and the communication processing unit 60f correspond to the transmission availability determining unit, the communication status monitoring unit, and the communication processing unit of the present invention, respectively.

(Communication status notification section)
The communication status notification unit 60g acquires information held by the communication status monitoring unit 60e. Here, the communication state notification section 60g corresponds to the communication state notification section of the present invention.

(System communication status monitoring unit)
The system communication status monitoring unit 60h acquires information held by the communication status monitoring units of subordinate terminals from the communication status acquisition unit 60i.
The system communication state monitoring unit 60h periodically updates and maintains communication state information of the entire inspection system 1 based on the information of the communication state monitoring unit 60e and the information of the communication state monitoring units of the terminals under its control.
The system communication status monitoring unit 60h periodically determines whether the generation mode switching conditions shown in FIG. The data is passed to the data generation mode switching unit 60k.
The communication restriction threshold used as the above-mentioned generation mode switching condition in the system communication state monitoring unit 60h is calculated by adding up the number of communication terminals in the entire inspection system 1 (seven in the example shown in FIG. 2). Here, the system communication state monitoring section 60h corresponds to the system communication state monitoring section of the present invention.

(Communication status acquisition unit)
The communication state acquisition section 60i receives the command from the system communication state monitoring section 60h and obtains communication state information from the communication state notification section of the other terminal of the inspection system 1. Here, the communication state acquisition section 60i corresponds to the system communication state acquisition section of the present invention.

(System communication availability determination unit)
When the system communication availability determining unit 60j receives the priority and size of the transmission data scheduled to be transmitted from the route control unit 60b, the system communication availability determination unit 60j determines the transmission data of the inspection system 1 based on the communication status of the entire inspection system 1 and the communication restriction determination threshold. Determine which terminal can communicate. The determination content is the same as that of the communication availability determination unit 30c, but each terminal is determined for each of the terminals in the inspection system 1, and if it is determined that communication is possible, the determination condition is satisfied and the difference from the threshold value is determined. The terminal name with the largest value is passed to the route control unit 60b. Here, the system communication availability determination unit 60j corresponds to the system transmission availability determination unit of the present invention.

(Data generation mode switching section)
The data generation mode switching unit 60k switches the generation mode to the data generation unit 30a, etc. in the inspection system 1, if it is necessary to switch the data generation mode based on the determination result obtained from the system communication status monitoring unit 60h. issue an order. Here, the data generation mode switching section 60k corresponds to a mode change instruction section of the present invention.
Further, the data generation mode switching unit 60k holds information on the current data generation mode of the entire inspection system 1.

(Route control method using the first centralized control terminal)
The outline of the route control method by the first central management terminal 60 in the inspection system 1 will be described below with reference to the flowchart shown in FIG.
The inspection system 1 shown in FIG. 2 includes two centralized management terminals: a higher-level first centralized management terminal 60 and a lower-level second centralized management terminal 40. In the route control of transmission data described below, in order to perform route control of transmission data generated by the entire inspection apparatus 1, both the first central management terminal 60 and the second central management terminal 40 are referred to as "management terminals". However, only the first centralized management terminal 60 provided at a higher level is treated as a "centralized management terminal."

First, priority is assigned in the data generation unit 30a of each PC 30, second central management terminal 40, repeater 50, and first central management terminal 60 (hereinafter also referred to as PC 30, etc.) that constitute the inspection system 1. When the transmission data is generated (step S1), the communication permission determination unit 30c or the like determines whether or not the transmission data can be transmitted (step S2). The first PC 30-1 will be explained below as an example.
If it is determined that the transmission is possible, the process proceeds to step S10, in which the transmission data is transmitted from the connected communication terminal, in this case, the first communication terminal 70-1, to the communication station 200 as the final terminal. be done.
If it is determined that transmission is not possible, the transmission data is transmitted to the upper management terminal, here the second central management terminal 40 (step S3).

It is determined whether the management terminal that received the transmission data in step S3 is a central management terminal (step S4).
If the management terminal that received the transmission data is not a central management terminal, the process returns to step S3 and transmits the transmission data to a higher level management terminal. Here, since the first centralized management terminal 60 is provided above the second centralized management terminal 40, the transmission data is transmitted from the second centralized management terminal 40 to the first centralized management terminal 60.
If the management terminal that received the transmission data is a central management terminal, it is determined whether there is a terminal capable of transmitting data (step S5). Here, since the management terminal that received the data for transmission is the first central management terminal 60, the system communication capability determination unit 60j determines which terminal of the inspection system 1 can transmit the data.

If it is determined in step S5 that there is a terminal capable of transmitting, the central management terminal selects an optimal terminal and a device to be routed (step S6). The optimal terminal does not include the communication terminal itself, but a terminal to which the communication terminal is connected. The number of devices to be passed through is not limited to one, and may be a plurality of devices. Here, two cases are described: the second PC 30-2 is selected as the optimal terminal and the second central management terminal 60 is selected as the device to be passed through (referred to as the first example), and the case where the repeater 50 is selected as the optimal terminal (the Example 2) will be explained.
If it is determined in step S5 that there is no terminal capable of transmitting data, the data generation mode switching unit 60k switches the data generation mode of the transmission data (step S7). Then, the process returns to step S1, transmission data is generated according to the changed data generation mode, and the processes from step S2 onwards are repeated.

In step S6, when the optimal terminal and the device to be passed through are selected, the central management terminal transmits the transmission data to the device to be passed through (step S8). Here, in the first example, data for transmission is transmitted from the first centralized management terminal 60 to the second centralized management terminal 40. In the second example, transmission data is transmitted from the first central management terminal to the repeater 50.

Next, it is determined whether the device to be passed through is the final terminal (step S9). This final terminal does not include the communication terminal itself, but targets terminals to which the communication terminal is connected.
If the device to be passed through is the final terminal, the final terminal transmits the transmission data to the communication station 200 in order of priority (step S10), and the process ends. In the second example, since the repeater 50 connected to the sixth communication terminal 70-6 corresponds to the final terminal, the repeater 50 transmits the data to the communication station 200 via the sixth communication terminal 70-6. The trust data is transmitted in order of priority and the process ends.
If the device to be passed through is not the final terminal, the device to be passed through transmits transmission data to another device to be passed through (step S11), and the determination in step S9 is repeated. In the first example, since the second central management terminal 40 is not the final terminal, it transmits the transmission data to the second PC 30-2. In step S9, the second PC 30-2 connected to the second communication terminal 70-2 corresponds to the final terminal, so the process advances to step S10, and the second PC 30-2 communicates via the second communication terminal 70-2. The data for transmission is transmitted to the station 200, and the process ends.

In the above example, when direct transmission from the PC 30 or the like is not possible, the highest level management terminal (here, the first central management terminal 60) is always selected to select the most suitable terminal from the entire system. However, if there is a terminal that can send to subordinate terminals at the level of a lower-level management terminal instead of the top-level one, the most suitable terminal (and the device to be routed through) is selected from among them and sent to the terminal. The data for transmission may be transmitted, and the data for transmission may be transmitted from the terminal to the communication station 200 in order of priority. For example, at the stage of the second central management terminal 40, if the subordinate second PC 30-2 or the second central management terminal 40 itself is a terminal capable of transmitting data, the data for transmission is transmitted to the second PC 30-2, and The second communication terminal 70-2 may transmit to the communication station 200, or the third communication terminal 70-3 may transmit to the communication station 200. In this way, it is possible to avoid unnecessary concentration of data transmission on the highest management terminal.

In this case, before step S4 of the flowchart shown in FIG. The process proceeds to step S6, and if there is no terminal capable of transmitting, the process proceeds to step S4. Moreover, such a second centralized management terminal 40 has a functional block configuration corresponding to that of the first centralized management terminal 60. That is, in addition to the data generation section 40a, the generated data storage section 41a, the route control section 40b, the communication availability determination section 40c, the communication restriction determination threshold holding section 40d, the communication state monitoring section 40e, the communication processing section 40f, and the communication state notification section 40g. , a system communication status monitoring unit 40h, a communication status acquisition unit 40i, and a system communication availability determination unit 40j. However, the system communication status monitoring unit 40h, the communication status acquisition unit 40i, and the system communication availability determination unit 40j manage the communication status of the subsystem including the first PC 30-1 and the second PC 30-2 under the second central management terminal 40. do. At this time, the second central management terminal 40 also corresponds to the information management device of the present invention. Further, the route control unit 40b corresponds to a system route control unit and a system transmission data acquisition unit of the present invention. Further, the system communication state monitoring section 40h, the communication state acquisition section 40i, and the system communication availability determining section 40j correspond to a system communication state monitoring section, a system communication state acquisition section, and a system transmission availability determining section, respectively, of the present invention.

In this way, in the inspection system 1, the data for transmission is transmitted, so even if restrictions such as communication failure or communication restrictions are imposed on the communication terminal 70, the data for transmission can be transmitted at the desired timing. can be transmitted via the communication station 200.

<Additional note 1>
A plurality of information processing devices (30, 40, 50, 60),
a corresponding communication terminal (70) that is connected to each of the information processing devices (30, 40, 50, 60) and is subject to restrictions regarding communication conditions;
an information management device (60) that selects which of the compatible communication terminals (70) transmits the transmission data generated in the information processing device (30, 40, 50, 60);
An information management system (1) comprising:
The information processing device (30, 40, 50, 60) includes:
a data generation unit (30a, 40a, 50a, 60a) that generates the transmission data;
a generated data storage unit (31a, 41a, 51a, 61a) that stores the transmission data;
a communication status monitoring unit (30e, 40e, 50e, 60e) that monitors the communication status of the communication terminal;
a transmission permission determination unit (30c, 40c, 50c, 60c) that determines whether or not the corresponding communication terminal can transmit the transmission data based on the communication state and the attribute information of the transmission data;
a communication processing unit (30f, 40f, 50f, 60f) that causes the communication terminal to transmit the transmission data determined to be transmittable;
a route control unit (30b, 40b, 50b, 60b) that transmits the transmission data determined to be impossible to transmit to the information management device together with the attribute information of the transmission data;
a communication status notification unit that transmits communication status information including information regarding the constraints and information regarding the communication status monitored by the communication status monitoring unit (30e, 40e, 50e, 60e) to the information management device (60); (30g, 40g, 50g, 60g) and
Equipped with
The information management device (60) includes:
a system communication status acquisition unit (60i) that acquires the communication status information transmitted from the communication status notification unit (30g, 40g, 50g, 60g);
a system communication status monitoring unit (60h) that monitors the communication status of all the compatible communication terminals based on the communication status information;
a system transmission data acquisition unit (60b) that acquires the transmission data and the attribute information transmitted from the route control unit;
a system transmission permission determination unit (60j) that determines whether transmission is possible by any of the compatible communication terminals based on the attribute information and the communication state information;
If there is a compatible communication terminal that is determined to be capable of transmission, the data for transmission and the attribute information are sent to the information processing device (30, 40, 50, 60) to which the compatible communication terminal (70) is connected. a system path control unit (60b) that transmits the
An information management system (1) characterized by comprising:

1: Inspection system 30: PC
30a: Data generation unit 30b Route control unit 30c: Communication availability determination unit 30e: Communication status monitoring unit 30f: Communication processing unit 30g: Communication status notification unit 40: Second central management terminal 40a: Data generation unit 40b Route control unit 40c: Communication availability determination unit 40e: Communication status monitoring unit 40f: Communication processing unit 40g: Communication status notification unit 50: Relay 50a: Data generation unit 50b Route control unit 50c: Communication availability determination unit 50e: Communication status monitoring unit 50f: Communication processing Unit 50g: Communication status notification unit 60: First central management terminal 60a: Data generation unit 60b Route control unit 60c: Communication availability determination unit 60e: Communication status monitoring unit 60f: Communication processing unit 60g: Communication status notification unit 60i: System communication Status acquisition unit 60j: System communication availability determination unit 70: Communication terminal

Claims (6)

multiple information processing devices;
a corresponding communication terminal that is connected to each of the information processing devices and is subject to restrictions regarding communication conditions;
an information management device that selects which of the compatible communication terminals should transmit the transmission data generated in the information processing device;
An information management system comprising:
The information processing device includes:
a data generation unit that generates the transmission data;
a generated data storage unit that stores the transmission data;
a communication status monitoring unit that monitors the communication status of the communication terminal;
a transmission permission determination unit that determines whether the transmission data can be transmitted by the compatible communication terminal based on the communication state and attribute information of the transmission data;
a communication processing unit that causes the communication terminal to transmit the transmission data determined to be transmittable;
a route control unit that transmits the transmission data determined to be impossible to transmit to the information management device together with the attribute information of the transmission data;
a communication status notification unit that transmits communication status information including information regarding the constraints and information regarding the communication status monitored by the communication status monitoring unit to the information management device;
Equipped with
The information management device includes:
a system communication status acquisition unit that acquires the communication status information transmitted from the communication status notification unit;
a system communication status monitoring unit that monitors the communication status of all the compatible communication terminals based on the communication status information;
a system transmission data acquisition unit that acquires the transmission data and the attribute information transmitted from the route control unit;
a system transmission permission determination unit that determines whether transmission is possible by any of the compatible communication terminals based on the attribute information and the communication state information;
a system path control unit that transmits the transmission data and the attribute information to the information processing device to which the compatible communication terminal is connected when there is the compatible communication terminal determined to be capable of transmission;
An information management system comprising: The information processing device includes a priority setting unit that sets a priority regarding transmission to the transmission data,
The transmission permission determining unit determines whether the transmission data can be transmitted by the compatible communication terminal based on the communication state, the priority, and the attribute information,
The route control unit transmits the transmission data determined to be impossible to transmit to the information management device together with the priority and attribute information of the transmission data,
The system transmission data acquisition unit acquires the transmission data, the priority, and the attribute information transmitted from the route control unit,
The system transmission permission determination unit determines whether transmission is possible by any of the compatible communication terminals based on the priority, the attribute information, and the communication state information. Information management system according to item 1. The priority is set based on at least one of whether or not it is necessary to transmit the transmission data within a predetermined period, and whether or not it is necessary to retransmit the transmission data when the transmission data cannot be transmitted. The information management system according to claim 2. The data generation unit generates the transmission data according to a data generation mode that is a predetermined data generation mode,
The information management device includes:
comprising a mode change instruction unit that instructs the data generation unit to change the data generation mode when there is no compatible communication terminal that is determined to be capable of transmission by the system transmission availability determination unit;
The information management system according to any one of claims 1 to 3, wherein the data generation unit generates the transmission data according to the changed data generation mode. 5. The information management system according to claim 4, wherein the data generation mode is at least one of the size of the transmission data and the number of times the data is generated within a predetermined period. 2. The information management system according to claim 1, wherein the information processing device includes a specific information processing device connected to the compatible communication terminal installed in a good communication environment.

Images