JP3134662B2 - Server device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a server device which provides stored information to a plurality of users and includes a switching device.

[0002]

2. Description of the Related Art In recent years, not only a server device for handling computer data but also a server device for handling moving images and audio has been required, and accordingly, real-time information transmitted from the server device has been desired. I have.

[0003] Japanese Patent Application No. 5-269995 "Video Server" shows a video server in which a plurality of storage devices storing video data are connected by an exchange device.
In this video server, video data stored in a storage device is transmitted to a plurality of users via a switching device.

[0004] When information stored in a plurality of storage devices is independently provided to a plurality of users, read requests for information from the plurality of users may be made to one storage device at the same time. At this time, waiting for reading of information occurs. As a result, the exchange device may collide with information traffic read from another storage device and addressed to the same user.

[0005] In the switching device, when information traffics collide with each other, transmission waiting may occur there, or a packet carrying information may be discarded in the switching device. In order not to cause this, the exchange capacity of the exchange device must be sufficiently large with respect to the traffic volume to be exchanged.

Japanese Patent Laid-Open Publication No. Hei 2-170645, "Packet Transmission Method and Packet Transmission Apparatus", uses the following method to increase the efficiency of use of the switching apparatus while avoiding packet discarding in the switching apparatus. A packet transmission interval is determined according to a previously declared data generation rate, generated packets are temporarily stored in a packet buffer, and packets are sequentially transmitted from the packet buffer to a transmission line according to the determined packet transmission interval. As a result, even if traffic transmitted from a plurality of storage devices by the switching device is destined for the same user, the traffic can be multiplexed and transmitted on the transmission line, and packet discarding can be prevented.

[0007]

However, in the configuration as disclosed in Japanese Patent Application Laid-Open No. 2-170645, an amount of traffic exceeding the amount of information traffic that can be multiplexed and transmitted on the transmission line is simultaneously input to the switching device. In such a case, there is a problem that the packet is discarded.
In addition, when the temporal variation of the data generation rate is large, there is a problem that the packet buffer must be enlarged in order to absorb the variation.

SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide a server device in which packet discarding in a switching device is less likely to occur while increasing the use efficiency of the switching device.

[0009]

In order to solve the above problems, a server device of the present invention has a configuration in which one or more information storage devices and one or more control devices are connected via an exchange device. A single or a plurality of users are connected to the control device, wherein the user receives information stored in the information storage device via the control device; A time measurement unit that measures the first information request issued to the information storage device, a minimum issue interval holding unit that stores a minimum issue interval that is a minimum time interval,
There is a request issue time holding unit that stores the issue time of the most recently issued information request, and based on the time measured by the time measuring unit and the value stored by the request issue time holding unit, an issue time interval Is the interval longer than the minimum issuance interval, issued the first information request to the information storage device, the information storage device received the first information request issued by the control device Transmits the requested information to the control device that issued the first information request, and the control device receiving the information from the information storage device transmits the information to a user. It is.

[0010] The information storage device includes one control device.
An information transmission interval holding unit storing the information transmission interval corresponding to each of them, a time measuring unit for measuring time, and a transmission time of the most recently transmitted information corresponding to each control device is stored. An information cluster transmission instruction time holding unit is present, and when the information storage device receives a first information request issued by one of the control devices in the server device, the information storage device sends a request according to the first information request. The obtained information is divided into a plurality of information clusters, the information cluster is read out from the information storage device as one unit and transmitted to the control device, and the transmitted time is stored in the information cluster transmission instruction time holding unit. Reading the information cluster from the information storage device based on the value stored in the information cluster transmission instruction time holding unit and the time measured by the time measurement unit, The information cluster is sequentially read from the information storage device so that the time interval for sending is equal to or longer than the information sending interval corresponding to the control device that is the source of the first information request. It is provided with a configuration for sending to an apparatus.

[0011]

According to the present invention, the control device controls the transmission interval of the first information request to be equal to or longer than the minimum issuance interval so that the request issued to the information storage device can be controlled in time. It is possible to prevent the traffic of the information sent from the information storage device to the control device from being temporally concentrated. As a result, the time variation of the usage rate of the exchange device is reduced,
The average value of the usage rate can be improved.

In the information storage device, the information requested by the control device is divided into a plurality of information clusters, and the information clusters are read out and transmitted while controlling so that the transmission interval is longer than the information transmission interval. This makes it possible to increase the use efficiency of the switching device without providing a large buffer for controlling the packet transmission interval.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A server device according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a conceptual diagram showing a configuration of a server device according to an embodiment of the present invention. In FIG. 1, 101 is
A server device is shown, and 102 to 104 are information storage devices. Reference numeral 105 denotes a switching device, and reference numerals 106 and 107 denote control devices. Reference numerals 108 to 113 denote users who use the server apparatus 101. A plurality of information control devices and a plurality of control devices, including the information storage devices 102 to 104 and the control devices 106 to 107, are connected to the switching device 105. Users 108 to 110 are connected to the control device 106, and users 111 to 113 are connected to the control device 107.

By sending a first information request to the information storage devices 102 to 104, the control devices 106 and 107 transmit information to be sent to the users 108 to 113 from the information storage devices 102 to 104 to the exchange device 105. Receive through. Then, when information is received from the information storage devices 102 to 104, it is sent to the user.

In the switching device 105, the control devices 106, 1
07, the first information request sent to the information storage devices 102 to 104 and the traffic of the information sent from the information storage devices 102 to 104 to the control devices 106 and 107 are exchanged.

The information storage devices 102 to 104 read the requested information in accordance with the first information request arrived from the control device, and transmit the information to the control device which is the source of the request via the switching device. Sending out.

The operation of the control devices 106 and 107 in the server device configured as described above will be described below with reference to FIGS. 1 and 2 and FIGS.

FIG. 2 shows the configuration of the control devices 106 and 107. In FIG. 2, reference numeral 201 denotes a control device 1 from a user 108 to 110 in the control device 106 and a user 111 to 113 in the control device 107.
12 shows a second information request receiving unit that receives a second information request sent to the mobile telephones 06 and 107. Reference numeral 202 denotes a first information request transmission unit that sends a first information request to the information storage devices 102 to 104. Reference numeral 203 denotes an information transmission unit that receives information from the information storage devices 102 to 104, and transmits information received to the users 108 to 110 in the control device 106 and to users 111 to 113 in the control device 107. Reference numeral 204 denotes an issuance time management unit that issues the second information request received from the user and manages the timing of sending the first information request to be sent. Reference numeral 205 denotes a minimum issue interval holding unit that stores the minimum issue interval for the first information request sent from the control device. Reference numeral 206 denotes a request issuance time holding unit that stores the time when the first information request issuance instruction was performed most recently. Reference numeral 207 denotes a time measuring unit that measures time. Reference numeral 208 denotes a first information request transmission determination unit that instructs the first information request transmission unit 202 to transmit a first information request according to an instruction from the issue time management unit 204.

FIG. 4 shows an example of the format of the second information request sent from the user. As shown in FIG. 4, the second information request includes identification information (USR) identifying the source of the second information request, identification information (INF) identifying the requested information, and the user receiving the information. Average speed (V
AB) is present.

FIG. 5 shows an example of the format of the first information request transmitted. As shown in FIG. 5, the first information request includes an area for storing a USR value and a logical address (ADD) for identifying a location where information requested by the first information request is stored. .

Next, a method of calculating the minimum issue interval held by the minimum issue interval holding unit 205 will be described.

The average value of the information transmission speeds when the information is provided to all users connectable to the control device is summed. By issuing the first information request, the value obtained by dividing the size of the information received from the information storage device by this is held as the minimum issuance interval.

The control device 10 from the users 108 to 113
Next, the operation of the control devices 106 and 107 when the second information request sent to the control devices 6 and 107 is received will be described.

The second information request sent from the user is:
The information is received by the second information request receiving unit 201. Upon receiving the second information request, the second information request receiving unit 201 notifies the issue time management unit 204 of the USR and VAB values described in the received information request. Further, the second information request receiving unit 201 notifies the first information request transmission determining unit 208 of the values of INF and USR.

The issuance time management unit 204 stores the time at which the first information request is issued, and when the second information request receiving unit 201 notifies the values of VAB and USR, the stored information is stored. To update.

FIG. 6 shows an example of a method of storing the time at which the first information request is issued, which is stored in the issue time management unit 204. As shown in FIG. 6, the issue time management unit 204 stores the time for each minimum issue interval as the transmission time according to the value stored in the minimum issue interval holding unit. FIG. 6 shows a case where the minimum issuance interval is 10. Corresponding to the stored time, the identification information (USR) of the user who is the destination of the information obtained by the first information request to be issued is stored. For example, a first information request having a USR value of 5 is issued at the sending time 1, and a first information request having a USR value of 2 is issued at the sending time 11. The time when the USR value is not stored is the time when the first information request is not issued, and
This is the time that can be registered as the time for transmitting the first information request when a new second information request is received. For example, when there is no USR value stored at time t, it can be registered at time t. When VAB and USR are notified from the second information request receiving unit 201, the notified USR value is registered at a time when the USR value is not stored, such as time t. At this time, the USR
The time interval for registering by value is such that the value obtained by dividing the amount of information received when one first information request is issued to the information storage devices 102 to 104 by VAB becomes an average value.

The first information request transmission determining unit 208 stores information for identifying the storage location of the information requested by the first information request, and the second information request receiving unit 201 When the request is notified and the USR and INF values are newly notified, the first information request transmission determining unit 208
Updates the stored information.

FIG. 7 shows an example of a method of storing the information stored in the first information request transmission judgment section 208. As shown in FIG. 7, the first information request transmission determination unit 208 associates the received second information request with the USR value that identifies the second information request.
The values of F and ADD are stored. Second information request
When receiving a plurality of first information requests in order to obtain the requested information, the ADD value is stored in the order of the number of the first information requests to be transmitted in the requested order. ing. For example, in the first information request corresponding to the second information request of USR value 1, the ADD values 55, 12, 6
789 is requested each time a first information request is issued.

Upon receiving the notification of the arrival of the second information request from the second information request receiving unit 201, the first information request transmission judgment unit 208 stores these USR, INF, and ADD values. At this time, information for associating the INF value with the ADD value is stored in the server device in advance. In the first information request transmission determining unit 208, the second information request receiving unit 2
Based on the INF value notified from 01, an ADD value corresponding to the INF value is searched to obtain an ADD value corresponding to the INF value. The first information request transmission determination unit 208 determines that the notified U
The SR value and the INF value are stored in association with the ADD value obtained by the search.

As described above, when the second information request is received, the information managed by the issue time management unit 204 and the first information request transmission determination unit 208 is updated.

The first information request is sent to the control device 10
It is sent out based on the information managed in 6, 107.

Next, a mechanism for transmitting the first information request will be described. The issue time management unit 204 sends the first information request at a time after the time stored in the request issue time holding unit 206 and closest to the time stored in the request issue time holding unit 206. The issuance time is always held as the first information request issuance time with reference to the information stored in the issuance time management unit 204.

The time measured by the time measuring unit 207 is compared with the first information request issuing time. When the first information request issuing time comes, the first information request sending determining unit 20 compares the time.
8 is notified that the first information request issuance time has come together with the value of the USR. Then, the time stored in the request issue time holding unit 206 is updated to the current time.

When the first information request transmission determining unit 208 is notified that the first information request issuance time has come from the issuance time management unit, the first information request transmission determination unit 208 changes the ADD value of the information requested by the first information request issuance. Searched and searched ADD value and USR
The value is notified to the first information request transmission unit 202 to instruct transmission of the first information request. Then, the registration of the ADD value of the information instructing the issuance is canceled.

The first information request transmitting section 202 transmits the first information request according to the instruction of the first information request transmission determining section 208.

The control devices 106 and 107 operate as described above and send out a first information request. Control device 106, 1
07 also receives the information sent from the information storage devices 102 to 104. The information transmitting unit 203 receives the information from the information storage devices 102 to 104 and sends it to the user who is the destination of the information.

Next, the operation of the information storage devices 102 to 104 will be described with reference to FIGS. 1, 3 and 8. First, FIG. 3 shows the information storage devices 102 to 102 in FIG.
FIG. 4 is a conceptual diagram showing a configuration of each of the elements 104. 301 is
5 shows a first information request receiving unit that receives first information requests transmitted from the control devices 106 to 107. Reference numeral 302 denotes an information reading and sending control unit that instructs reading and sending of information based on the received first information request. 303
Indicates a time measuring unit for measuring time. Reference numeral 304 denotes an information cluster transmission instruction time holding unit that stores the transmission time of the most recently transmitted information corresponding to each of the control devices that are the transmission sources of the first information request. An information transmission interval holding unit 305 stores an information transmission interval, which is an interval for transmitting information clusters obtained by dividing the information requested by the first information request. The information transmission interval is, for example,
This is a value obtained by dividing the number of information clusters to be transmitted and the average value of the intervals at which the first information read request having the same USR value arrives by the number of information clusters to be transmitted. 306
Is in accordance with the instruction of the information reading and sending control unit 302,
An information transmitting unit that extracts information from a storage device in which information is stored and transmits the information to a control device is shown. Reference numeral 307 denotes a storage device in which information is stored.

The operation of the information storage devices 102 to 104 when receiving the first information request from the control devices 106 and 107 will be described below.

When the first information request receiving unit 301 receives the first information request, the first information request receiving unit 301 receives the USR and ADD described in the request.
The value is notified to the information reading and sending control unit 302. The information reading and sending control unit 302 manages information about the information cluster to be sent, and the first information request receiving unit 3
In response to the notification of the USR and ADD values from 01, the managed information is updated. FIG. 8 shows an example of a method of storing information managed by the information reading and sending control unit 302. FIG.
As shown in, for the first information request received, for which the instruction to send information has not been completed, its USR value,
The ADD value and the identification information (PLS) for identifying the storage location of the divided information clusters for which the readout transmission instruction is not given among the divided information clusters are stored in association with each other. For example, for a first information request having a USR value of 1, information clusters having PLS values of 1, 60, 16, and 100 are stored in association with each other, and these information clusters are sequentially read and transmitted. You. The first information request receiving unit 301 sends a U
When notified of the SR and ADD values, the information reading and sending control unit 302 stores the information. Information storage devices 102-1
In step 04, the ADD value and a plurality of PLS values are stored in association with each other, and the information reading and sending control unit 302 searches for the PLS value from the notified ADD value, and stores the PLS value obtained by the search. register. The PLS value exists as many as the number of information clusters to be read and transmitted.

Based on the information stored as described above, the information reading and sending control unit 302
6 is instructed to read and transmit the information cluster.
A method of instructing the transmission of the information cluster at this time will be described below. When notified of the reception of the first information request from the first information request receiving unit 301, the information read transmission control unit 302 transmits the information read transmission of the first information cluster obtained by dividing the requested information. Instruct the sending unit 304. At this time, the PLS of the information cluster for instructing the transmission
Value and the USR value to which the information is to be transmitted
Notify. Then, referring to the time measuring unit 303, the information cluster sending time instructing the reading and sending of the first information cluster is stored in the information cluster sending instruction time holding unit 304. Referring again to the time measurement unit 303, if the time has reached the information transmission interval later than the time stored in the information cluster transmission instruction time holding unit 304,
The information transmission unit 306 is instructed to read and transmit the next information cluster. Then, the information cluster transmission instruction time holding unit 3
04 is updated. Thereafter, the information transmission unit 306 is instructed to read and transmit the information cluster at each information transmission interval until there is no more information cluster to be transmitted.

When the information transmission unit 306 is instructed to read and transmit the information cluster, it reads the information cluster from the storage device 307 and responds accordingly.
Is sent to

The information cluster transmitted from the information storage devices 102 to 104 to the switching device 105 arrives at the destination control device and is transmitted to the user. As described above, in the control device according to the embodiment of the present invention, the request issued to the information storage device is controlled by controlling the interval at which the first information request is transmitted to be equal to or longer than the minimum issue interval. Try not to concentrate on time. As a result, it is possible to prevent the traffic of the information sent from the information storage device to the control device from being temporally concentrated. Then, the time variation of the usage rate of the exchange device is reduced, and the average value of the usage rate is improved. In addition, by reading out information requested by the control device in a plurality of information clusters and transmitting the information, the efficiency of use of the switching device can be increased without providing a large buffer for controlling packet transmission intervals. It becomes possible.

As described above, the description has been given based on the embodiment of the present invention. However, it goes without saying that the present invention is not limited to the above embodiment. That is, (1) In FIG. 1, the information storage device and the control device are connected to a plurality of switching devices, but this is not a limitation. A single information storage device may be connected, or a single control device may be connected, and the number is not particularly limited. (2) FIG. 1 shows an example in which a plurality of users are connected to the control device, but the present invention is not limited to this. A single user may be connected. (3) There is a possibility that other functions, such as a control device to which the user is not connected and other functions, are separately connected to the exchange device.
This is not limited. (4) The control device sends a plurality of first information requests based on the second information request received from the user, but this is not a limitation. In some cases, the second information request and the first information request have a one-to-one correspondence. (5) The method of calculating the minimum issuance interval is not limited to that described in the embodiment. There is also a method of calculating from the average value of the transmission speed of the information provided to all users connected to the control device, and a method of calculating from the average value of the interval at which the second information request arrives at the control device. Not limited. When the minimum issue interval is calculated by the average value of the intervals at which the second information request arrives at the control device, when the number of the first information requests waiting to be issued exceeds the threshold, the minimum issue interval is set. Make it smaller. (6) The method of determining the interval for sending the first information request is not limited to that described in the embodiment. (7) The format of the second information request shown in FIG. 4 is an example, and is not limited to this. This does not apply as long as the identification information for identifying the requested information and the information for identifying the destination to which the information is transmitted are included. (8) The format of the first information request shown in FIG. 5 is an example, and is not limited to this. This is not limited as long as it includes information for identifying the control device that is the transmission source and the logical address of the location where the requested information is stored. (9) The storage method shown in FIG. 6 is an example, and the storage method is not limited as long as the first information request is issued at intervals equal to or longer than the minimum issue interval. For example, the arrival order of the second information requests may be stored, and the corresponding first information request may be issued at every minimum issuance interval, but this is not a limitation. (10) The storage method shown in FIG. 7 is an example, and the present invention is not limited to this. If the requested information, the information identifying the storage location, and the destination of the information are stored in association with each other,
It is not limited to this. (11) In the information storage device, when the first information request is received, the requested information is divided into a plurality of information clusters and transmitted, but the present invention is not limited to this. In some cases, the information is not divided into information clusters, and the information is transmitted as it is. (12) The information transmission interval of the information cluster transmitted from the information storage device to the control device is the average value of the number of information clusters transmitted and the arrival interval of the first information read request having the same USR value. , Divided by the number of information clusters to be transmitted, but this is not a limitation. (13) The storage method shown in FIG. 8 is an example, and the present invention is not limited to this. The present invention is not limited to this as long as the storage location of the requested information can be identified and the destination of the information is associated with the storage location. (14) The storage location of the information for associating the INF value with the ADD value is not limited within the control device as long as the storage location can be referred to by the control device. (15) In the information storage devices 102 to 104, ADD
Although the value and a plurality of PLS values are stored in association with each other, the present invention is not limited to this as long as the storage location can be referred to by the information reading and sending control unit 302.

[0045]

As described above, according to the present invention, the request issued to the information storage device is controlled by controlling the interval at which the first information request is transmitted to be equal to or longer than the minimum issue interval. It is possible to prevent temporal concentration of traffic of information transmitted from the information storage device to the control device by preventing temporal concentration. And
It is possible to reduce temporal fluctuation of the usage rate of the switching device and improve the average value of the usage rate.

In the information storage device, the information requested by the control device is divided into a plurality of information clusters, and information clusters are read out and transmitted while performing control so that the transmission interval is longer than the information transmission interval. This makes it possible to increase the use efficiency of the switching device without providing a large buffer for controlling the packet transmission interval.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram showing a configuration of a server device according to an embodiment of the present invention.

FIG. 2 is a conceptual diagram showing a configuration of a control device in the embodiment.

FIG. 3 is a conceptual diagram showing the configuration of an information storage device in the embodiment.

FIG. 4 is a diagram showing a format of a second information request in the embodiment.

FIG. 5 is a diagram showing a format of a first information request in the embodiment.

FIG. 6 is an exemplary view showing a method of storing a time at which a first information request is issued in the embodiment.

FIG. 7 is a first information request transmission determining unit 2 in the embodiment.
08 shows the storage method of the information stored in 08

FIG. 8 is an information readout transmission control unit 30 in the embodiment.
Figure showing the storage method of the information managed in 2

[Explanation of symbols]

 101 server device 102-104 information storage device 105 switching device 106-107 control device 108-113 user 201 second information request receiving unit 202 first information request receiving unit 203 information transmitting unit 204 issue time management unit 205 minimum issue interval Holding unit 206 Request issuing time holding unit 207 Time measuring unit 208 First information request transmitting unit 301 First information request receiving unit 302 Information reading and sending control unit 303 Time measuring unit 304 Information cluster sending instruction time holding unit 305 Information sending Interval holding unit 306 information sending unit 307 storage device

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G06F 13/00 H04L 12/56 H04N

Claims (6)

(57) [Claims] 1. A configuration in which one or more information storage devices and one or more control devices are connected via an exchange device, wherein one or more users are connected to the control device, In the server device, which receives information stored in the information storage device via the control device, the control device includes a time measurement unit that measures time, and a first device that issues the information storage device. There is a minimum issue interval holding unit that stores the minimum issue interval that is the minimum time interval in the issue time interval of the information request, and a request issue time holding unit that stores the issue time of the most recently issued information request. Based on the time measured by the time measurement unit and the value stored in the request issue time holding unit, the issue time interval is set to be equal to or longer than the minimum issue interval, and The information storage device that has issued the first information request and has received the first information request issued by the control device stores the requested information in the control device that has issued the first information request. Wherein the control device receives the information from the information storage device and transmits the information to a user. 2. The control device receives the information from the information storage device by issuing the first information request and an average value of the transmission speed of information to be provided to all the users connected to the control device. From the amount of information to be transmitted, among the intervals at which the first information request is sent out, the one that is the maximum interval at which information can be provided to each of the users at the average speed is calculated, and this is set as the minimum issue interval, 2. The server device according to claim 1, wherein the first information request is issued to the information storage device by holding the minimum issue interval holding unit so that an issue interval becomes a value held by the minimum issue interval holding unit. . 3. The control device receives the first information request from the information storage device by issuing an average value of transmission speeds of information to be provided to all the users connectable to the control device and the first information request. From the amount of information, the maximum interval at which information can be provided to the user at the average value is calculated at the interval at which the first information request is transmitted, and this is set as the first minimum issue interval, and the minimum issue interval is set. From the average value of the transmission speed of the information provided to each of the connected users held in the interval holding unit and the amount of information received from the information storage device by issuing the first information request, Calculate the maximum value of the interval for issuing the first information request corresponding to the user, and use this as the second minimum issuance interval. The issuance interval is held by the minimum issuance interval holding unit. The first information request is issued to the information storage device at an interval that is equal to or longer than the interval, and for all users, the intervals at which the respective requests occur are on average the second minimum issue interval. The server device according to claim 1. 4. The user sends a second information request to the control device for requesting information stored in the information storage device, and the control device sends a second information request to the control device, From the average value of the intervals at which the second information requests are sent, the maximum interval at which one or more of the first information requests corresponding to the second information requests can be issued at regular intervals and as required Is calculated and held as the minimum issue interval in the minimum issue interval holding unit. In the in-process storage unit in the control device, the second information request is received by the second information request from the user. The one in which the issuance of the first information request corresponding to the request is not completed is stored, and a threshold value is set in the in-process storage unit, and the control in which the second information request is received is performed. The device is stored in the in-process storage unit. The received second information request is stored, and the first information request is issued such that the issuance interval is equal to or greater than the value held in the minimum issuance interval holding unit, and is stored in the in-process storage unit. In the first information request issued by the second information request being performed, when the number of requests waiting to be issued exceeds the threshold value, the minimum issuance interval is reduced. Claim 1
The server device according to the above. 5. A configuration in which one or more information storage devices and one or more control devices are connected via an exchange device, wherein one or more users are connected to the control device, In a server device for receiving information stored in the information storage device via the control device, the information storage device stores information transmission intervals corresponding to the control devices one by one. A sending interval holding unit, a time measuring unit for measuring time, and the control device 1
There is an information cluster transmission instruction time holding unit that stores the transmission time of the most recently transmitted information corresponding to each of the information devices, and the information storage device stores the information cluster transmission instruction time issued by one of the control devices. When receiving a request for information,
The information requested by the first information request is divided into a plurality of information clusters, the information clusters are read out from the information storage device as one unit and transmitted to the control device, and the transmitted time is referred to as the information cluster. The information cluster is read from the information storage device by the value stored in the transmission instruction time storage unit and the value stored in the information cluster transmission instruction time storage unit, and the time measured by the time measurement unit, and is read by the control device. The information cluster is sequentially read from the information storage device so that the transmission interval is equal to or longer than the information transmission interval corresponding to the control device that is the source of the first information request. A server device for sending to a server. 6. An information cluster for transmitting an average value of intervals at which a first information reading request arrives at the information storage device from the control device when the first information request is received. 6. The server device according to claim 5, wherein the value is a value obtained by dividing the number by the number.