JP2016005046A - Communication control device, communication control system, and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication control device, a communication control system, and a communication control method that are capable of data communication within a given time by restricting transition to low-speed communication in advance.SOLUTION: The present invention is configured to comprise: a measuring unit 11 that continuously integrates inter-terminal communication traffic communicated between a first communication terminal 8 and a second communication terminal 9 for a prescribed period; a determination unit 12 that determines whether or not the integrated communication traffic integrated by the measuring unit 11 has reached a prescribed threshold value until the prescribed period expires; and a control unit 13 that controls the value of the inter-terminal communication traffic, if the determination unit 12 has determined that the integrated communication traffic has reached the prescribed threshold value, so that the value of the inter-terminal communication traffic does not fall below occurrence communication traffic using the inter-terminal communication traffic at the time as the upper limit and using the occurrence communication traffic occurring from the outside as the lower limit.

Description

  The present invention relates to a communication control apparatus, a communication control system, and a communication control method for controlling a communication service provided to a communication terminal via a communication network.

  An MVNO (Mobile Virtual Network Operator) service is known as one that provides a communication service to a communication terminal via a communication network. Note that MVNO refers to a provider that provides services by borrowing a wireless communication infrastructure from another mobile phone provider or the like.

  Here, in this MVNO service, when the total communication amount of data communication within a predetermined period (for example, one month) exceeds a predetermined upper limit value, the communication speed is switched to low speed communication.

  As described above, for example, Patent Document 1 discloses a communication control system and a communication control method as switching the communication speed to low-speed communication. In Patent Document 1, communication speed is restricted when a predetermined amount of communication data is exceeded.

International Publication No. 2012/088686 (see paragraph 0023)

  By the way, when the communication speed is switched to the low-speed communication, the above-mentioned Patent Document 1 has a technical problem that the data communication time for one time increases and data cannot be transmitted within a certain time.

  Here, using FIG. 10 and FIG. 11, it will be described in detail why if the communication speed is switched to low-speed communication, the data communication time increases once and data cannot be transmitted within a certain time. .

  FIG. 10 is a system configuration diagram showing a system configuration of a communication control apparatus 920 related to the present invention and a communication control system including the communication control apparatus 920. FIG. 11 is a time chart according to the communication control apparatus 920 related to the present invention.

  As illustrated in FIGS. 10 and 11, for example, after performing data communication for the third time from the beginning of a predetermined period (after 8 seconds from the start of data communication), the first communication terminal 901 and the second communication terminal It is assumed that the total data communication amount with the communication terminal 902 is exceeded. In this case, it is assumed that the data communication speed has shifted from 8 Mbps to 0.2 Mbps from the fourth time (after 11 seconds from the start of data communication).

  Thereby, the data communication time regarding the data communication between the first communication terminal 901 and the second communication terminal 902 requires 40 seconds. For this reason, data communication after the fifth time (after 14 seconds from the start of data communication) is performed after 40 seconds, the data communication time increases, and data can be transmitted within a fixed time. It will not be possible.

  Accordingly, an object of the present invention is to provide a communication control device, a communication control system, and a communication control method capable of performing data communication within a predetermined time by suppressing the shift to low-speed communication in advance. is there.

  In order to achieve the above object, the communication control apparatus of the present invention includes a communication amount integrating means for continuously integrating communication amounts between terminals communicated between communication terminals for a predetermined period, and the predetermined period expires. Until then, the communication amount determination means for determining whether or not the integrated communication amount integrated by the communication amount integration means has reached a predetermined threshold, and the integrated communication amount has reached the predetermined threshold by the communication amount determination means If it is determined that the communication amount between the terminals at this time and the generated communication amount generated from the outside are upper and lower limits, the value of the communication amount between the terminals is controlled so as not to fall below the generated communication amount. Communication amount control means.

  In order to achieve the above object, a communication control system of the present invention comprises the communication control device.

  In order to achieve the above object, the communication control method of the present invention continuously accumulates the amount of communication between terminals communicated between communication terminals for a predetermined period, and accumulates until the predetermined period expires. When it is determined whether or not the accumulated communication amount has reached a predetermined threshold, and when it is determined that the accumulated communication amount has reached the predetermined threshold, the inter-terminal communication amount at this time and the generated communication generated from the outside The amount of communication between terminals is controlled so that the amount is the upper and lower limits and does not fall below the generated communication amount.

  According to the present invention, it is possible to perform data communication within a predetermined time by suppressing the shift to low-speed communication in advance.

It is a block diagram which shows the structure of the communication control apparatus of one Embodiment (1st Embodiment) of this invention. It is a system configuration figure showing the system configuration of the communication control system in one embodiment (the 1st embodiment) of the present invention. It is a flowchart of the communication frequency control process in one Embodiment (1st Embodiment) of this invention. It is a block diagram which shows the structure of the communication control apparatus of other embodiment (2nd Embodiment) of this invention, and the system structure of the communication control system which comprises this communication control apparatus. It is a figure which shows the communication policy information which concerns on the communication control apparatus of other embodiment (2nd Embodiment) of this invention. It is a flowchart of the communication frequency control process in other embodiment (2nd Embodiment) of this invention. It is a system configuration | structure figure which shows the system configuration | structure of the communication control system of other embodiment (3rd Embodiment) of this invention. It is a figure which shows the communication policy information which concerns on the communication control apparatus of other embodiment (3rd Embodiment) of this invention. It is a figure which shows the control pattern which controls the communication frequency of other embodiment (3rd Embodiment) of this invention. 1 is a system configuration diagram illustrating a system configuration of a communication control apparatus related to the present invention and a communication control system including the communication control apparatus. It is a time chart which concerns on the communication control apparatus relevant to this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Communication control apparatus 10 of 1st Embodiment)
An embodiment (first embodiment) of the present invention will be described with reference to FIGS. 1 to 3. First, the communication control apparatus 10 of this embodiment (1st Embodiment) is demonstrated using FIG. FIG. 1 is a configuration diagram illustrating a configuration of a communication control device 10 according to the present embodiment (first embodiment).

  As illustrated in FIG. 1, the communication control apparatus 10 of the present embodiment includes a measurement unit (communication amount integrating unit) 11, a determination unit (communication amount determination unit) 12, and a control unit (communication amount control unit) 13. doing.

  The measuring unit 11 plays a role of continuously accumulating the inter-terminal communication amount communicated between the first communication terminal 8 and the second communication terminal 9 for a predetermined period. For example, the measuring unit 11 sets the predetermined period from the first day of the month to the end of the month. The communication amount between terminals means that data communication with a predetermined capacity is performed at a predetermined interval. In other words, if the data communication of 1 MB is performed every 20 minutes, the measuring unit 11 adds up each time and becomes 72 MB per day.

  Here, as the communication volume between terminals, data communication with a predetermined capacity is performed at a predetermined interval. However, the present invention is not limited to this. For example, continuous data communication with a predetermined capacity may be performed between terminals. It can be said that the amount of communication.

  In addition to the inter-terminal communication amount, the measuring unit 11 measures the generated communication amount generated from the outside. Thus, in this embodiment, as will be described later, when controlling the value of the communication amount between terminals, the generated communication amount is not reduced below.

  The determination unit 12 of the communication control device 10 plays a role of determining whether or not the accumulated communication amount accumulated by the measurement unit 11 has reached a predetermined threshold before the predetermined period expires.

  As an example, the predetermined period is one month. Further, the integrated communication amount is set to 216 MB as a predetermined threshold. For example, when the integrated communication amount on the first day of the month is set to 0 MB, it is determined whether or not the integrated communication amount has reached 216 MB.

  When the determination unit 12 determines that the predetermined threshold has been reached, the control unit 13 of the communication control apparatus 10 sets the communication amount between terminals at this time and the generated communication amount generated from the outside as upper and lower limits, and generates generated communication. The value of the amount of communication between terminals is controlled so as not to fall below the amount.

  Note that the inter-terminal communication amount and the generated communication amount are the upper and lower limits, but the inter-terminal communication amount may be the upper limit value and the generated communication amount may be the lower limit value, or vice versa. Also, the reason why the generated communication volume is not reduced is that when the generated communication volume exceeds the inter-terminal communication volume, the value of the inter-terminal communication volume is controlled so that it does not fall below this generated communication volume. is there.

  That is, when the generated communication volume is the upper limit value and the inter-terminal communication volume is the lower limit value, since the control is performed with a value that does not fall below the generated communication volume, the inter-terminal communication volume is controlled with the upper limit value. . Further, when the communication amount between terminals is the upper limit value and the generated communication amount is the lower limit value, the communication amount between terminals is controlled between the upper limit value and the lower limit value.

  As described above, the communication control apparatus 10 according to the present embodiment determines whether or not the predetermined threshold has been reached before reaching the integrated communication amount that triggers the shift to the low-speed communication. And when the communication control apparatus 10 reaches | attains a predetermined threshold value, it becomes possible to control the transition to low-speed communication beforehand by controlling the value of the communication amount between terminals.

  Therefore, according to the communication control apparatus 10 of the present embodiment, it is possible to perform data communication within a certain time by suppressing the shift to the low speed communication in advance.

(Communication control system)
Next, the communication control system of this embodiment will be described using FIG. FIG. 2 is a system configuration diagram showing a system configuration of the communication control system in the present embodiment (first embodiment).

  As illustrated in FIG. 2, in the present embodiment, the communication control system includes a communication control device 10. Since the communication control device 10 has been described above with reference to FIG. 1, the description thereof is omitted here.

  As described above, the communication control system according to the present embodiment determines whether or not the predetermined threshold has been reached before reaching the integrated communication amount that triggers the transition to low-speed communication, and has reached the predetermined threshold. In this case, the value of the communication amount between terminals is controlled.

  Thereby, in the communication control system of this embodiment, it becomes possible to suppress the transition to low-speed communication in advance. Therefore, according to the communication control system of the present embodiment, it is possible to perform data communication within a certain period of time by suppressing the shift to low-speed communication in advance.

(Communication control method)
Next, the communication control method of this embodiment will be described using FIG. FIG. 3 is a flowchart of the communication frequency control process according to the present embodiment (first embodiment).

  In this communication frequency control process, the inter-terminal communication amount communicated between the first communication terminal 8 and the second communication terminal 9 is continuously accumulated for a predetermined period, and until the predetermined period expires. Then, it is determined whether or not the integrated integrated communication amount has reached a predetermined threshold value. If it is determined that the accumulated communication amount has reached a predetermined threshold, the inter-terminal communication amount at this time and the externally generated communication amount are set as upper and lower limits, and the inter-terminal communication amount is set so as not to fall below the generated communication amount. Is controlling.

  In step S10, the communication control apparatus 10 measures the traffic. Specifically, in this process, the communication control apparatus 10 measures the amount of communication communicated between the first communication terminal 8 and the second communication terminal 9 by the measurement unit 11.

  In step S20, the communication control apparatus 10 determines whether or not the communication amount has reached a predetermined threshold value. Specifically, in this process, the communication control apparatus 10 determines whether or not the communication amount measured in step S <b> 10 has reached a predetermined threshold value by the determination unit 12.

  If the communication control apparatus 10 determines that the communication amount has reached a predetermined threshold, the communication control apparatus 10 moves the process to step S30. On the other hand, in this process, if the communication control apparatus 10 determines that the communication amount has not reached the predetermined threshold, the process returns to step S10.

  In this process, the predetermined threshold value can be set as appropriate, and is not particularly limited. For example, the predetermined threshold value may be set according to the current total communication amount and the remaining number of days.

  In step S30, the communication control apparatus 10 controls the communication frequency. Specifically, in this process, the communication control device 10 controls the communication frequency by the control unit 13 when it is determined in step S20 that the communication amount has reached a predetermined threshold value.

  In this process, when the communication control device 10 determines that the communication amount has reached a predetermined threshold value, the communication control device 10 performs control to shift to a preset communication frequency. When it arrives, the communication frequency may be set according to the remaining number of days. That is, it can be predicted whether or not the total communication amount is reached according to the remaining days.

  As described above, according to the communication control method of the present embodiment, it is determined whether or not the predetermined threshold is reached before reaching the total communication amount that triggers the shift to the low-speed communication. Controls the communication frequency.

  Therefore, according to the communication control method of the present embodiment, it is possible to perform data communication within a certain period of time by suppressing the transition to low-speed communication in advance.

(Second Embodiment)
Another embodiment (second embodiment) of the present invention will be described with reference to FIGS. First, the configuration of the communication control apparatus 120 according to the present embodiment (second embodiment) and the system configuration of a communication control system including the communication control apparatus 120 will be described with reference to FIG.

  FIG. 4 is a configuration diagram showing a configuration of the communication control device 120 of the present embodiment (second embodiment) and a system configuration of a communication control system including the communication control device 120.

  Here, in the communication control device and the communication control system provided with the communication control device, the number of users is increasing due to the recent development of network technology, so the shortage of network communication capability (bandwidth) becomes a problem. Yes.

  In order to solve this problem, for example, band expansion can be assumed, but in order to expand the band, there is a possibility of increasing costs such as a network configuration change or a device setting change.

  Therefore, in a communication control device and a communication control system including this communication control device, it is desired to realize a network environment that can be satisfied to some extent within a limited bandwidth, and bandwidth control is performed. As the bandwidth control, for example, when the total data communication amount within a predetermined period between communication terminals reaches a predetermined threshold, the communication speed is controlled.

  However, when the communication speed is controlled, a new problem occurs. As an example, when the communication speed is switched to low speed communication, the data communication time increases, and there is a possibility that data cannot be transmitted within a certain time.

  On the other hand, the communication control device 120 according to the present embodiment determines whether or not the predetermined threshold is reached before reaching the total data communication amount that triggers the low-speed communication, and reaches the predetermined threshold. Then, the subsequent communication volume is limited so that the communication volume is at least smaller than the previous communication volume. That is, the communication control device 120 controls the communication frequency.

  Specifically, with reference to FIG. 4, in this embodiment, the communication control system performs data communication between the first communication terminal 101 and the second communication terminal 102, so that the gateway 110 and A communication control device 120 is provided.

  The first communication terminal 101 is accommodated in the radio base station 150. The second communication terminal 102 is connected to the Internet 140. The gateway 110 is located between the mobile network 130 and the Internet 140. That is, data communication between the first communication terminal 101 and the second communication terminal 102 is performed via the gateway 110.

  As described above, the gateway 110 is located between the mobile network 130 and the Internet 140, and mainly serves to relay the mobile network 130 and the Internet 140. Since this relay means is a well-known technique, its description is omitted.

  In the present embodiment, the gateway 110 serves to notify the communication control apparatus 120 of the results of data communication communicated between the first communication terminal 101 and the second communication terminal 102.

  Further, as described above, the gateway 110 notifies the communication control device 120 of the data communication performance. When the gateway 110 receives a bandwidth control instruction from the communication control device 120, the gateway 110 and the second communication terminal Band control of data communication with the communication terminal 102 is performed.

  The communication control device 120 owns the communication policy information shown in FIG. 5, and controls the bandwidth of data communication between the first communication terminal 101 and the second communication terminal 102 to the gateway 110 according to the communication policy information. I am instructing.

  Specifically, the communication control device 120 counts the results of data communication between the first communication terminal 101 and the second communication terminal 102 notified from the gateway 110. Then, the communication control apparatus 120 instructs the gateway 110 to perform bandwidth control according to the communication policy information shown in FIG.

  In other words, the communication control device 120 is configured so that the first communication terminal 101 and the second communication terminal are based on the actual amount of data communication performed between the first communication terminal 101 and the second communication terminal 102. It can be said that the communication frequency with 102 is determined.

  Moreover, it can be said that the communication control apparatus 120 has instruct | indicated the communication frequency to the 1st communication terminal 101 and the 2nd communication terminal 102 via the internet 140 based on the determined communication frequency.

  Thus, when the first communication terminal 101 or the second communication terminal 102 receives a communication frequency instruction from the communication control device 120 via the Internet 140, the first communication terminal 101 or the second communication terminal 102 controls the data communication frequency according to the communication frequency. .

(Communication policy information)
Next, communication policy information will be described with reference to FIG. FIG. 5 is a diagram showing communication policy information related to the communication control device 120 of the present embodiment (second embodiment).

  As illustrated in FIG. 5, the communication policy information of the communication control device 120 is restricted when the total data communication amount exceeds 1 GB per month between the first communication terminal 101 and the second communication terminal 102. Is set.

  Further, the communication policy information of the communication control device 120 is set to shift the communication speed from 8 Mbps to 2 Kbps when a restriction is applied. That is, in the present embodiment, it is set that the communication speed shifts from high-speed communication to low-speed communication when restriction is applied.

  The gateway 110 performs bandwidth control so that data communication is possible at 8 Mbps in accordance with an instruction from the communication control device 120. That is, the gateway 110 performs bandwidth control of data communication between the first communication terminal 101 on the mobile network 130 side and the second communication terminal 102 on the Internet 140 side.

  Here, the first communication terminal 101 connects to the mobile network 130 via the radio base station 150 when performing communication with the second communication terminal 102. Thereby, the mobile network 130 connects to the gateway 110 in order to communicate with the second communication terminal 102 located on the Internet 140.

  At this time, the gateway 110 sequentially notifies the communication control device 120 of the data communication amount between the first communication terminal 101 and the second communication terminal 102. The communication control device 120 can know the total data performance amount of the first communication terminal 101 and the second communication terminal 102 by receiving the notification of the data communication amount from the gateway 110.

  Next, as a communication premise between the first communication terminal 101 and the second communication terminal 102, the amount of one data communication from the first communication terminal 101 to the second communication terminal 102 is set to 1 MB. Is set. In the present embodiment, the communication premise is the communication frequency of data communication performed between the first communication terminal 101 and the second communication terminal 102 at the time of initial movement (in the present embodiment, the beginning of the month). Is defined.

  In addition, as a communication premise between the first communication terminal 101 and the second communication terminal 102, a setting is made to perform 1 MB data communication from the first communication terminal 101 to the second communication terminal 102 every 20 minutes. doing.

  Next, as a result of the communication policy information and the communication premise, the daily data communication amount is 72 MB. Here, if data communication of 1 MB is continued every 20 minutes, communication is possible at 8 Mbps from the first day of the month to the 13th day until the total data communication amount becomes 1 GB.

  That is, as a result of the communication policy information and the communication premise, if data communication of 1 MB is continued every 20 minutes, it takes 66 minutes to transmit 1 MB after the 14th day. As a result, the communication speed shifts to 2 Kbps, and 1 MB data communication cannot be performed every 20 minutes.

  On the other hand, in this embodiment, it becomes possible to suppress the shift to low-speed communication in advance, and data communication can be performed within a certain time. Hereinafter, a communication frequency control process capable of suppressing the shift to low speed communication in advance will be described.

(Communication frequency control processing)
Next, the communication frequency control process will be described with reference to FIG. FIG. 6 is a flowchart of the communication frequency control process in the present embodiment (second embodiment).

  In step S110, the communication control apparatus 120 performs data communication for 1 MB every 20 minutes in accordance with the communication policy information. Therefore, during this period, the daily data communication amount is 72 MB. Assuming that the daily data communication amount is 72 MB, when 3 days have elapsed from the first day of the month, the amount reaches 216 MB.

  In step S120, the communication control apparatus 120 determines whether or not the total data communication amount has reached 216 MB. In this process, if the communication control apparatus 120 determines that the total data communication amount has reached 216 MB, the process proceeds to step S130.

  On the other hand, in this process, if the communication control apparatus 120 determines that the total data communication amount has not reached 216 MB, the process returns to step S110. That is, in this process, when the communication control device 120 determines that the total data communication amount has not reached 216 MB, it continues to perform data communication for 1 MB every 20 minutes.

  In step S130, the communication control apparatus 120 performs data communication for 1 MB every 45 minutes. Therefore, during this period, the daily data communication amount is 32 MB. Then, after 17 days from the fourth day, that is, when 20 days have passed from the first day of the month, 760 MB is reached.

  In step S140, the communication control apparatus 120 determines whether or not the total data communication amount has reached 760 MB. In this process, when the communication control apparatus 120 determines that the total data communication amount has reached 760 MB, the process proceeds to step S150.

  On the other hand, in this process, if the communication control apparatus 120 determines that the total data communication amount has not reached 760 MB, the process returns to step S130. That is, in this process, when the communication control device 120 determines that the total data communication amount has not reached 760 MB, it continues to perform data communication for 1 MB every 45 minutes.

  In step S150, the communication control device 120 performs data communication for 1 MB every 60 minutes. Therefore, during this period, the daily data communication amount is 24 MB. Then, after 10 days from the 21st day, that is, 30 days from the first day of the month, 1 GB is reached.

  Thus, in the present embodiment, when the threshold is reached, the communication frequency is controlled. Moreover, in this embodiment, it has a some threshold value, and the subsequent communication frequency when it reaches | attains a 1st threshold value and the subsequent communication frequency when it reaches | attains a 2nd threshold value are set as different communication frequencies. Yes.

  Therefore, in this embodiment, it can be said that it is possible to perform data communication within a certain period of time by suppressing the shift to low-speed communication in advance.

(Third embodiment)
Another embodiment (third embodiment) of the present invention will be described with reference to FIGS. Note that this embodiment is different from the above-described second embodiment in that the amount of communication with the server 260 is controlled.

  Further, in the present embodiment, the third communication terminal 203 and the fourth communication terminal 204 are accommodated in the radio base station 150, and the amount of communication with the third communication terminal 203 and the fourth communication terminal 204 is controlled. The point is different.

  On the other hand, other points are the same as or correspond to the second embodiment described above. Therefore, parts that are the same as or correspond to those in the above-described second embodiment are given the same or corresponding reference numerals, and descriptions thereof are omitted.

  First, the configuration of the communication control apparatus 120 according to the present embodiment and the system configuration of a communication control system including the communication control apparatus 120 will be described with reference to FIG. FIG. 7 is a system configuration diagram showing the system configuration of the communication control system of the present embodiment.

  As illustrated in FIG. 7, in addition to the second communication terminal 102, a server 260 is connected to the Internet 140. In addition to the first communication terminal 101, the radio base station 150 accommodates a third communication terminal 203 and a fourth communication terminal 204.

  The gateway 110 is located between the mobile network 130 and the Internet 140. That is, data communication between the third communication terminal 203 and the server 260 or the second communication terminal 102 is performed via the gateway 110. Similarly, data communication between the fourth communication terminal 204 and the server 260 or the second communication terminal 102 is also performed via the gateway 110.

  Therefore, in this embodiment, for example, it can be said that the communication control apparatus 120 is notified of the results of data communication performed between the third communication terminal 203 and the server 260.

  The gateway 110 notifies the communication control device 120 of the data communication performance. When receiving the bandwidth control instruction from the communication control device 120, the gateway 110 performs bandwidth control between the third communication terminal 203 and the server 260. ing.

(Communication policy information)
Next, communication policy information according to the present embodiment will be described with reference to FIG. FIG. 8 is a diagram illustrating communication policy information related to the communication control apparatus 120 of the present embodiment (third embodiment).

  As illustrated in FIG. 8, the communication control device 120 has communication policy information for data communication between the first communication terminal 101 and the server 260. This communication policy information is a setting to reduce the communication speed from 8 Mbps to 2 Kbps when the total data communication volume exceeds 8 GB in one month in data communication between each communication terminal.

  Next, as a communication premise between terminals, it is set that 1 MB data communication is performed every 20 minutes from the first communication terminal 101 to the server 260 or the second communication terminal 102. It is set that 1 MB data communication is performed every 20 minutes from the server 260 or the second communication terminal 102 to the first communication terminal 101.

  It is set that 2 MB data communication is performed every 10 minutes from the third communication terminal 203 to the server 260 or the second communication terminal 102. It is set that 1 MB data communication is performed every 30 minutes from the server 260 to the third communication terminal 203. In addition, it is set to perform 1 MB data communication from the second communication terminal 102 to the third communication terminal 203 every 20 minutes.

  It is set that data communication of 1 MB is performed from the fourth communication terminal 204 to the server 260 every 30 minutes. It is set that 1 MB data communication is performed every 20 minutes from the fourth communication terminal 204 to the second communication terminal 102. The server 260 or the second communication terminal 102 is set to perform the 2 MB data communication every 20 minutes from the fourth communication terminal 204.

  As a result of the communication policy information and the communication assumption, if the daily data communication amount is 816 MB, communication is possible at 8 Mbps for 9 days until the total data communication amount of 8 GB.

  Therefore, after 10 days, communication restriction is imposed, and data communication within a certain time cannot be performed.

  On the other hand, in this embodiment, it becomes possible to suppress the shift to low-speed communication in advance, and data communication can be performed within a certain time.

(Communication frequency control processing)
The communication frequency control process will be described with reference to FIG. FIG. 9 is a diagram illustrating a control pattern for controlling the communication frequency according to the present embodiment (third embodiment).

  As illustrated in FIG. 9, the communication control device 120 instructs the communication frequency of each communication terminal via the Internet 140 based on the total data communication amount notified from the gateway 110.

  When an example is shown using item number 1 shown in FIG. 9, it is set as a communication premise that the amount of one data communication from the first communication terminal 101 to the server 260 is 1 MB. In addition, it is set to perform 1 MB data communication from the first communication terminal 101 to the server 260 every 20 minutes.

  That is, under this communication premise, the daily data communication amount is 72 MB. Therefore, if the data communication is performed for one month (30 days) under this communication premise, it becomes 2160 MB. The communication preconditions are similarly set in other item numbers.

  For this reason, under this communication premise, the total data communication volume will be exceeded before one month elapses, and then the communication speed will shift to 2 Kbps. The result is not possible.

  On the other hand, in this embodiment, in item No. 1, 1 MB data communication is performed every 20 minutes from the first day to the second day, but 1 MB every 40 minutes from the third day to the fourth day. Set to perform data communication. That is, from the third day, the daily data communication amount is 36 MB. Thereby, the total data communication amount from the first day to the fourth day becomes 216 MB.

  In addition, from the fifth day to the fourteenth day, 1 MB data communication is set every 50 minutes. That is, from the fifth day, the daily data communication amount is 29 MB. Thereby, the total data communication volume from the first day to the 14th day becomes 506 MB.

  In addition, from the fifteenth day to the thirtieth day, 1 MB data communication is set every 60 minutes. That is, from the fifteenth day, the daily data communication amount is 24 MB. As a result, the total data communication volume from the first day to the 30th day becomes 890 MB.

  Therefore, in the present embodiment, the total data communication volume for one month is 2160 MB under the communication premise, but the communication speed is set to 890 MB by controlling the communication frequency. It can be said that this regulation can be suppressed.

  As a result, in the present embodiment, communication of data within a predetermined time is possible without restricting the communication speed within a predetermined period.

  Therefore, according to the present embodiment, it is possible to perform data communication within a certain period of time by suppressing the shift to low-speed communication in advance.

8 First communication terminal 9 Second communication terminal 10 Communication control device 11 Measuring unit (communication amount integrating means)
12. Determination unit (communication amount determination means)
13 Control unit (communication amount control means)

Claims (6)

A communication amount integrating means for continuously integrating the communication amount between terminals communicated between communication terminals for a predetermined period;
A communication amount determination unit that determines whether or not the accumulated communication amount accumulated by the communication amount accumulation unit has reached a predetermined threshold before the predetermined period expires;
When it is determined by the communication amount determination means that the integrated communication amount has reached a predetermined threshold, the inter-terminal communication amount at this point and the generated communication amount generated from the outside are set as upper and lower limits, and the occurrence Communication amount control means for controlling the value of the communication amount between terminals so as not to fall below the communication amount,
A communication control device. The communication amount determination means includes
The predetermined threshold has a plurality of thresholds,
The traffic control means
The accumulated traffic amount reaches a second threshold value that is greater than the first threshold value than when the accumulated traffic amount is determined to have reached the first threshold value among the plurality of threshold values. If it is determined that the communication amount between terminals is controlled to a smaller value,
The communication control device according to claim 1. The traffic control means
When it is determined by the communication amount determination means that the integrated communication amount has not reached a predetermined threshold, the value of the inter-terminal communication amount is maintained.
The communication control device according to claim 1 or 2. The traffic control means
When the generated communication traffic exceeds the communication traffic between the terminals, the value of the communication traffic between the terminals is controlled so that the communication traffic between the terminals exceeds the generated communication traffic;
The communication control apparatus according to any one of claims 1 to 3, wherein Comprising the communication control device according to any one of claims 1 to 4,
A communication control system characterized by that. Continuously accumulate the amount of communication between terminals communicated between communication terminals for a predetermined period,
Before the predetermined period expires, determine whether or not the accumulated integrated communication amount has reached a predetermined threshold,
When it is determined that the integrated communication amount has reached the predetermined threshold, the inter-terminal communication amount at this time and the generated communication amount generated from the outside are set as upper and lower limits, so as not to fall below the generated communication amount. Control the amount of communication between terminals,
A communication control method characterized by the above.

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