JP2013153296A - Congestion control system and congestion control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To increase the completion ratio of calls originated from a seriously suffered area.SOLUTION: A communication network comprises session control devices 30 which are connected to external terminals located in prescribed areas, and process originating calls from these external terminals. A congestion control system 20 controls the communication network. The congestion control system 20 comprises: an originating call count information correction and summing-up unit 27 for collecting information on the number of originating calls Cx to each session control device 30 at a concerned cycle; a total amount distribution determination unit 23 which preferentially distributes the total control amount Ct of originating calls of this communication network to a session control device 30 associated with a seriously suffered prescribed area, and distributes the remaining control amount Cd to other session control devices 30; and a control instruction information determination unit 24 and a control instruction unit 26 which indicate respective session control devices 30 to regulate call originating with a distributed control amount Mx.

Description

  The present invention relates to a congestion control system and a congestion control method for controlling traffic in real time as a C-plane congestion countermeasure for performing a communication service via a network.

In recent years, the occurrence of disaster-type congestion due to earthquakes and the like has become a problem in public switched telephone networks. In an area severely affected by a disaster, a person located in the area makes a call to inform his / her safety. Furthermore, a family member or an acquaintance calls a person located in a severely affected area to confirm safety. These calls generate a lot of traffic to the area, and disaster-type congestion occurs.
In order to suppress congestion collapse, the session control device of the public switched telephone network has a predetermined traffic control amount that can be processed. Since the session control device regulates traffic exceeding the total control amount, it is difficult to establish communication.

  In Patent Document 1 (Japanese Patent No. 2794659), in a public switched telephone network (PSTN), the exchange becomes difficult to communicate due to concentration of incoming calls, or the communication becomes difficult. A method for controlling outgoing calls to a region is described. In this control method, the total number of calls communicated to the ground (total number of calls) is allocated to each exchange on the calling side, and then the number of outgoing calls exceeding the allocation value is regulated in each exchange to distribute the total traffic. Optimized. Patent Document 1 further describes that the distribution value is calculated by (number of calls that can be connected) × (number of outgoing calls in the transmission area) / (total number of calls).

  Patent Document 2 (Japanese Patent No. 3715604) discloses a method for detecting congestion that may cause a C-plane soft switch to stop functioning in an IP telephone system that performs telephone communication via an IP (Internet Protocol) network. Is described. The detection method disclosed in Patent Document 2 monitors the number of calls, and determines that it is congested if the number of monitored calls is greater than a predetermined number of calls. Patent Document 2 also describes a method for controlling the number of call connections based on the call density, which is the allowable number of call connections per unit time, and further includes an INVITE signal in SIP (Session Initiation Protocol). A method for controlling call density is also described.

(Configuration and operation of comparative example)
FIGS. 7A and 7B are diagrams showing the total amount distribution operation when congestion occurs in the comparative example.
FIG. 7A is a diagram showing an operation of collecting outgoing call number information.

  The congestion control system 20 includes a control total amount determination unit 21 and is connected to the session control devices 30-1 to 30-6 via a network (C-plane). The total control amount Ct in the network is set to 1000 call per unit time. The session control devices 30-1 and 30-2 are connected to the session control device 30-5. The session control devices 30-3 to 30-5 are connected to the session control device 30-6. The session control device 30-6 is further connected to another network 100. Each of the session control devices 30-1 to 30-4 is connected to a plurality of user terminals 40, and the number Cx of outgoing calls from these user terminals 40 is indicated by the number of calls. Hereinafter, when the session control devices 30-1 to 30-6 are not particularly distinguished, they are simply referred to as the session control device 30. Hereinafter, the number of outgoing calls of the session control device 30-x may be represented by the number of outgoing calls Cx.

In the upper part of each session control device 30, the number Cx of outgoing calls in the current period (the period) of the connected user terminal 40 is described. Here, the number C1 of outgoing calls of the session control device 30-1 is 200call. The number C2 of outgoing calls of the session control device 30-2 is 500call. The number C3 of outgoing calls of the session control device 30-3 is 1000call. The number C4 of outgoing calls of the session control device 30-4 is 300call. The information on the number Cx of outgoing calls can be collected by the congestion control system 20 via the network. In each session control device 30, "# 1" to "# 6" indicating the number of the session control device 30 are shown.
Also, a radial icon is superimposed on the session control device 30-1 in FIG. 7A, indicating that congestion has occurred.

FIG. 7B is a diagram showing an operation of total amount allocation for the next period of FIG.
The total control amount determination unit 21 of the congestion control system 20 sets the total control amount Ct = 1000 call of the outgoing call of the communication network according to the outgoing call amount of the session control device 30 in the current cycle. To the control amount Mx. The session control device 30 regulates outgoing calls that exceed the control amount Mx. Hereinafter, outgoing call restrictions may be referred to as outgoing call restrictions.

  At the top of each session control device 30, an icon with a horizontal line drawn in a circle is shown, indicating that the call is restricted by the control amount Mx. Furthermore, the control amount Mx in the next period of the connected user terminal 40 is indicated by a number at the upper part of each session control device 30. Hereinafter, the call restriction of the session control device 30-n may be represented by a control amount Mn (n is a natural number).

  The control amount M1 of the next period of the session control device 30-1 is 100call. The control amount M2 of the next period of the session control device 30-2 is 250 call. The control amount M3 of the next period of the session control device 30-3 is 500call. The control amount M4 of the next period of the session control device 30-4 is 150call. In the session control apparatus 30-1 in FIG. 7B, radial icons are displayed in a superimposed manner, indicating that congestion has occurred.

FIG. 8 is a flowchart showing the total amount distribution method in the comparative example.
When the processing of the total amount distribution method is started, in step S10, the congestion control system 20 collects information on the number Cx of outgoing calls of each session control device 30 in the period.
In steps S20 to S27, the congestion control system 20 repeats the process for each session control device 30.

In step S <b> 21 </ b> A, the total control amount determining unit 21 distributes the total control amount Ct of outgoing calls of the communication network to the control amount Mx of the next period of the session control device 30. The distributed control amount Mx is calculated so as to be proportional to the number of outgoing calls Cx in the period and the total sum of the control amounts Mx becomes the control total amount Ct, as shown in Equation 1 below.
Mx = Ct × Cx / (ΣCx) (Formula 1)

  In step S22A, the congestion control system 20 determines control instruction information including the allocated control amount Mx, and transmits the instruction to the session control apparatus 30.

In step S27, the congestion control system 20 determines whether or not the process has been repeated for all the session control devices 30. The congestion control system 20 returns to the process of step S20 if the condition is not satisfied, and returns to the process of step S10 if the condition is satisfied.
With the processing illustrated in FIG. 8, the congestion control system 20 can distribute the total control amount Ct to each session control device 30.

  In the total amount allocation method in the comparative example, the session control device 30 effectively uses the control amount Mx that is the allocated network resource in the period when the failure caused by the outside of the network such as a wide area power failure occurs. There are cases where it is not possible.

FIGS. 9A and 9B are diagrams showing the total amount distribution operation (part 1) at the time of wide-area power failure in the comparative example.
FIG. 9A shows a cycle in which a wide-area power failure occurs.
A radial icon is superimposed on the session control device 30-1 to indicate that congestion has occurred. Many of the user terminals 40 connected to the session control device 30-1 have stopped operating due to wide area power outages.

The upper part of each session control device 30 indicates that the control amount Mx is displayed numerically by an icon with a horizontal line in the circle. At the top of each session control device 30, two call numbers are shown separated by diagonal lines.
The number of calls shown in the upper part is the number of outgoing calls Cx of the user terminal 40 in the period. The lower number of calls divided by diagonal lines is the control amount Mx of the user terminal 40 in the period.

The number C1 of outgoing calls related to the session control device 30-1 is 10call, and the control amount M1 is 100call.
The number C2 of outgoing calls related to the session control device 30-2 is 250 call, and the control amount M2 is 250 call.
The number C3 of outgoing calls related to the session control device 30-3 is 500call, and the control amount M3 is 500call.
The number C4 of outgoing calls related to the session control device 30-4 is 150 call, and the control amount M4 is 150 call.

  In this period, most of the user terminals 40 accommodated by the session control device 30-1 have failed due to a wide area power outage. As described above, the session control device 30 may not be able to effectively use the control amount M1 to which the total amount is distributed.

FIG. 9B shows the total amount distribution operation to the power failure area (severely affected area), which is the next cycle of FIG. 9A.
The total control amount determining unit 21 distributes the total control amount Ct = 1000call of outgoing calls of the communication network to the control amount Mx of the session control device 30 in the next period. In the following, calculation is performed by rounding off to the first digit.
The control amount M1 allocated to the next period related to the session control device 30-1 is 10call.
The control amount M2 allocated to the next period related to the session control device 30-2 is 280call.
The control amount M3 allocated to the next period related to the session control device 30-3 is 540call.
The control amount M4 allocated to the next period related to the session control device 30-4 is 170call.

  As described above, since the control amount Mx to be allocated becomes very small due to a decrease in the number of transmissions due to continued failure, transmission from a severely affected area may be more difficult to communicate. Outgoing calls from severely afflicted areas are highly important and are required to be equal to or higher than the completion rate of outgoing calls in other areas.

FIGS. 10C and 10D are diagrams showing the total amount distribution operation (part 2) at the time of wide-area power failure in the comparative example.
FIG.10 (c) has shown the said period when the wide area power failure recovered | restored and the number of transmissions increased.
The number C1 of outgoing calls related to the session control device 30-1 is 10call, and the control amount M1 is 100call.
The number C2 of outgoing calls related to the session control device 30-2 is 250 call, and the control amount M2 is 250 call.
The number C3 of outgoing calls related to the session control device 30-3 is 500call, and the control amount M3 is 500call.
The number C4 of outgoing calls related to the session control device 30-4 is 150 call, and the control amount M4 is 150 call.

  As described above, in a cycle in which a failure caused by the outside of the network such as a wide-area power failure occurs, the session control device 30 may not be able to effectively use the control amount Mx that is the allocated network resource.

FIG. 10D shows the period after FIG. 10C and the period of the normal state.
The number C1 of outgoing calls related to the session control device 30-1 is 100call, and the control amount M1 is 100call.
The number C2 of outgoing calls related to the session control device 30-2 is 250 call, and the control amount M2 is 250 call.
The number C3 of outgoing calls related to the session control device 30-3 is 500call, and the control amount M3 is 500call.
The number C4 of outgoing calls related to the session control device 30-4 is 150 call, and the control amount M4 is 150 call.

  As described above, the number Cx of outgoing calls and the control amount Mx of the session control device 30 are balanced in the period of the normal state.

Japanese Patent No. 2749659 Japanese Patent No. 3715604

  In the methods of Patent Documents 1 and 2, only the information related to the exchanges and soft switches (= session control devices) in the network network is handled in the total amount distribution at the time of congestion control. However, it is necessary to determine whether or not the communication is completed by End-To-End. In other words, the methods disclosed in Patent Documents 1 and 2 have a problem that a defect in the section from the soft switch to the terminal at the end is not considered. Therefore, even if the call processing resource can be utilized to the maximum in the network section, there may be a deviation in the correlation with the number of completed calls of the outgoing call.

  The case where such a deviation occurs is assumed to occur remarkably especially during a large-scale disaster (for example, an earthquake disaster, etc.). One of the typical cases is that IP telephone terminals operating with local power supply become unavailable at the same time due to a wide area power outage.

A common requirement in large-scale disasters is to maintain a high rate of outgoing calls from severely affected areas. However, in the methods of Patent Documents 1 and 2, the number of completed calls is low with respect to the control amount allocated to the total amount, and the outgoing call from the severely affected area is more than the incoming call from the outside to the severely affected area. The completion rate may be low.
Therefore, an object of the present invention is to provide a congestion control system that can increase the completion rate of outgoing calls from a severely affected area.

  In order to solve the above problems, the congestion control system of the present invention is configured as follows.

  In the invention according to claim 1, a congestion control system for a communication network including a session control device that is connected to an external terminal located in a predetermined area and processes an outgoing call of the external terminal is provided for each current period. The outgoing call number collecting means for collecting the outgoing call number to the session control device and the total control amount of outgoing calls of the communication network are preferentially distributed to the session control device in the predetermined area severely affected. A total amount distribution unit that distributes the remaining control amount to other session control devices, and an instruction unit that instructs each session control device to regulate outgoing calls with the allocated control amount. The congestion control system is characterized by this.

  In the invention according to claim 8, a congestion control system for a communication network, which is connected to an external terminal located in a predetermined area and includes a session control device for processing an outgoing call of the external terminal, The number of outgoing calls collecting step for collecting the number of outgoing calls to the session control device, and the total control amount of outgoing calls of the communication network is preferentially distributed to the session control device in the predetermined area severely affected. A total amount allocating step for allocating the remaining control amount to other session control devices, and an instruction step for instructing each session control device to regulate outgoing calls with the allocated control amount. The congestion control method is characterized by:

  By doing in this way, the completion rate of the outgoing call from the severely affected area can be increased.

  In the invention according to claim 2, the total amount distribution unit distributes the control total amount to the session control device related to the predetermined area severely damaged, and is determined in advance to the distributed control amount. The congestion control system according to claim 1, wherein a coefficient related to the predetermined area is multiplied.

  By doing so, the control amount can be increased according to a predetermined coefficient related to the predetermined area, so that the completion rate of outgoing calls from the severely affected area can be increased.

  In the invention according to claim 3, the total amount allocating means determines the completion rate of the outgoing call of the entire communication network based on the outgoing call of the external terminal connected to the session control device in the predetermined area severely affected. The completion rate divided by the completion rate is calculated, the total control amount is distributed to the session control device, and the distributed control amount is multiplied by the completion rate. Congestion control system.

  By doing in this way, a higher completion rate is calculated, so that the completion rate of the said session control apparatus concerning the said predetermined area severely affected is low. As a result, the lower the completion rate, the more control amount can be distributed.

  The invention according to claim 4 is characterized in that the total amount distribution means distributes a predetermined control amount to the predetermined area to the session control device related to the predetermined area severely affected. The congestion control system according to claim 1 is provided.

  In this way, since a predetermined control amount can be distributed to the area related to the session control apparatus, congestion control according to the importance of the area can be performed.

  In the invention according to claim 5, the total amount distribution means distributes the number of outgoing calls of the session control device in the cycle to the session control device in the predetermined area severely affected. The congestion control system according to claim 1, wherein:

  By doing this, the number of outgoing calls in the period is distributed as the next control amount, so even if the number of outgoing calls fluctuates, the number of outgoing calls is distributed as the control amount in the next period. can do.

  In the invention according to claim 6, the congestion control system of the communication network, which is connected to an external terminal located in a predetermined area and includes a session control device for processing outgoing calls of the external terminal, has the current period. Call number collection means for collecting the number of outgoing calls to each of the session control devices, and a predicted number of outgoing calls for the next period related to the session control device in the predetermined area severely affected, In consideration of the number of outgoing calls, the total amount distribution means for allocating the total control amount of outgoing calls of the communication network to other session control devices and the outgoing call to the session control device in the predetermined area severely affected The congestion control system is characterized by comprising instruction means for instructing that other calls are not restricted, and for instructing other session control devices to restrict outgoing calls with the allocated control amount.

  By doing so, the congestion control system does not control the outgoing call to the session control device in the predetermined area that has been severely affected, and thus the completion rate of the outgoing call can be increased. Furthermore, since the congestion control system controls outgoing calls of other session control devices based on the predicted number of outgoing calls in the next period of the session control device, the control total amount of outgoing calls of the communication network is constant, Network congestion collapse can be prevented.

  In the invention according to claim 7, the congestion control system according to any one of claims 1 to 6 further acquires the number of external terminals that can be discriminated by each of the session control devices, and the number of external terminals. If the rate of decrease in the number of external terminals related to the session control device is greater than or equal to a predetermined threshold, a severe disaster has occurred in the predetermined area related to the session control device. A congestion control system comprising: a severe affliction determining means for determining that there is.

  By doing so, the congestion control system can determine by itself that a severe disaster has occurred in the predetermined area related to the session control device.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to provide the congestion control system which can make the completion rate of the outgoing call from a severely affected area high.

It is a schematic block diagram which shows the congestion control system in 1st Embodiment. It is a figure which shows each part structure of the congestion control system in 1st Embodiment. It is a figure which shows the area and total amount distribution method in 1st Embodiment. It is a flowchart which shows the total amount allocation method in 1st Embodiment. It is a figure which shows each part structure of the congestion control system in 2nd Embodiment. It is a flowchart which shows the total amount distribution method in 2nd Embodiment. It is a figure which shows the total amount distribution operation | movement at the time of congestion generation in a comparative example. It is a flowchart which shows the total amount distribution method in a comparative example. It is a figure which shows the total amount distribution operation | movement at the time of the wide area power failure in the comparative example (the 1). It is a figure which shows the total amount distribution operation | movement at the time of the wide area power failure in the comparative example (the 2).

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.
(Configuration of the first embodiment)
FIG. 1 is a schematic configuration diagram showing a congestion control system according to the first embodiment.

The congestion control system 20 includes a control total amount determination unit 21 and is connected to the session control devices 30-1 to 30-6 via a C-plane (control plane) of the network. The total control amount Ct in the network (communication network) is set to 1000 call per unit time (cycle). The session control devices 30-1 and 30-2 are connected to the session control device 30-5. The session control devices 30-3 to 30-5 are connected to the session control device 30-6. The session control device 30-6 is further connected to another network 100. Each of the session control devices 30-1 to 30-4 is connected to a plurality of user terminals 40. In addition, in order to identify each, the session control apparatuses 30-1 to 30-6 are shown by "# 1 to # 6" in FIG.
The congestion control system 20 performs control so as to suppress the congestion of the entire network.
The user terminal 40 is, for example, an IP phone or a fixed phone, and performs communication by an outgoing call from the user terminal 40 to another terminal and an incoming call from the other terminal to the user terminal 40.
The session control device 30 is a so-called soft switch, and controls to connect a new connection request transmitted from the accommodated user terminal 40 to a target destination.
The congestion control system 20 performs control for restricting outgoing calls of the session control device 30 and suppresses congestion of the network.

FIG. 2 is a diagram illustrating a configuration of each part of the congestion control system and the like according to the first embodiment.
The congestion control system 20 is connected to a congestion session control device 30-m and outgoing call restriction session control devices 30-1 to 30-n. In FIG. 2, the display is limited to the congestion control system 20 and the session control device 30 which is a soft switch.
The congestion session control device 30-m accommodates, for example, an external terminal located in the affected area, and congestion occurs.

The outgoing call control session control devices 30-1 to 30-n are session control devices 30 that perform outgoing call control according to the allocated control amount Mx, and are located either inside or outside the affected area.
The congestion session control device 30-m and the outgoing call restriction session control devices 30-1 to 30-n have the same configuration. In FIG. 2, the congestion session control device 30-m mainly shows a part related to congestion monitoring and a call restriction request. In the outgoing call restriction session control devices 30-1 to 30-n, parts related to outgoing call restriction are shown.

<< Configuration of Congestion Control System 20 >>
The congestion control system 20 includes a control total amount determination unit 21, a DB (Database) unit 25, a control instruction unit 26, and an outgoing call number information collection / aggregation unit 27.

The total control amount determining unit 21 determines how to distribute the specified total control amount Ct (constant) to the call restriction session control devices 30-1 to 30-n. The total control amount determination unit 21 includes a calculation unit 22, a total amount distribution determination unit 23, and a control instruction information determination unit 24. The total control amount determining unit 21 is connected to a call restriction requesting unit 34 of the session control device 30 described later.
The calculation unit 22 performs various calculations related to the distribution of the control total amount Ct.

  The total amount distribution determination unit 23 (total amount distribution means) determines a control amount Mx to be distributed to each session control device 30. That is, the total amount allocation determining unit 23 determines whether each session control device 30 is associated with a severely affected area, and proportionally calculates the control amount Mx by a calculation method according to a “level” preset in the area. To distribute. The total amount allocation determining unit 23 preferentially distributes the control total amount Ct of the outgoing call of the network to the session control device 30 related to the severely affected predetermined area, and distributes the remaining control amount to the other session control devices 30. To distribute.

  The control instruction information determination unit 24 (instruction means) determines detailed instruction contents (such as a destination device and a target telephone number) including the control amount Mx, and makes an instructionable state. That is, the control instruction information determination unit 24 determines the session control device 30 related to the control amount Mx in the instruction content including the control amount Mx distributed by the total amount distribution determination unit 23 and transmits the session control device 30 to the session control device 30. Create communication packets.

  The DB unit 25 is a storage unit that stores a database. The database stores, for example, the number section of each area, the city station number, the city station number, and the “level” that defines the content for calculating the control amount Mx in the event of a severe disaster. Furthermore, the DB unit 25 stores data necessary for congestion control, such as information related to the network configuration (for example, the number and location information of the session control devices 30).

  The control instruction unit 26 (instruction means) transmits an instruction to each session control device 30. That is, the control instruction unit 26 transmits the instruction content determined by the control instruction information determination unit 24 to the session control device 30 related to the instruction content. The control instruction unit 26 is connected to the call restriction unit 31 of each session control device 30. The control instruction information determination unit 24 and the control instruction unit 26 are instruction units that instruct the session control device 30 to restrict outgoing calls with the allocated control amount Mx.

  The outgoing call number information collection / aggregation unit 27 (outgoing call number collection means) is connected to the outgoing call number information collection / aggregation unit 33 of each session control device 30. The outgoing call number information collection / aggregation unit 27 collects information on the outgoing call number information Cx in the period from the outgoing call number information collection / aggregation unit 33 of each session control device 30, and further, for the entire communication network. The sum of the number of outgoing calls Ct in the period = Σ (Cx) is totaled.

<< Configuration of Session Control Device 30 >>
The session control device 30 includes a call restriction unit 31, a connection request processing unit 32, an outgoing call number information collection / aggregation unit 33, a call restriction request unit 34, and a resource monitoring unit 35. Further, the resource monitoring unit 35 includes a CPU (Central Processing Unit) usage rate measuring unit 36. Here, the session control device 30 is both the call restriction session control devices 30-1 to 30-n and the congestion session control device 30-m.

<< Configuration of Call Control Session Control Apparatuses 30-1 to 30-n >>
The call restriction unit 31 receives the instruction content transmitted by the control instruction unit 26 of the congestion control system 20, and restricts the outgoing call in the next cycle with the control amount Mx based on the instruction content. The outgoing call restriction unit 31 does not restrict outgoing calls to areas other than the congestion area.

  The connection request processing unit 32 is a part that processes a connection request (outgoing call) of the user terminal 40 connected to the session control device 30. Furthermore, the connection request processing unit 32 receives a connection request transmitted from a subscriber accommodated by the session control device 30 itself and a connection transmitted from the other session control device 30 in the network to the session control device 30. It handles both requests.

The outgoing call number information collection / aggregation unit 33 collects and aggregates information on the outgoing call number Cx in the period of the session control device 30, and sends it to the outgoing call number information collection / aggregation unit 27 of the congestion control system 20. To be sent.
The congestion session control device 30-m also includes a call restriction unit 31 (not shown), a connection request processing unit 32, and an outgoing call number information collection / aggregation unit 33 (not shown).

<< Configuration of Congestion Session Control Device 30-m >>
The call regulation request unit 34 is a part that requests the congestion control system 20 to regulate the call of the communication network when the session control device 30 detects congestion.
The resource monitoring unit 35 is a part that monitors the resources (memory, storage capacity, CPU, communication bandwidth, etc.) of the session control device 30, and detects congestion by monitoring the resources. The resource monitoring unit 35 includes a CPU usage rate measuring unit 36.
The CPU usage rate measuring unit 36 is a part that measures the usage rate of the CPU included in the session control device 30 and detects congestion by detecting that the CPU usage rate exceeds a predetermined value. is there.

FIGS. 3A and 3B are diagrams showing a region and a total amount distribution method in the first embodiment.
FIG. 3A is a diagram showing the relationship between the area and the total amount distribution method.

A database indicating the relationship between the region and the total amount distribution method is stored in the DB unit 25 (FIG. 2). This database is composed of a plurality of records composed of a plurality of items.
The “number section” item is an item for storing the name of the area related to the record.
The “area code” item is an item for storing an area code related to the record.
The “level” item is an item that defines a numerical value corresponding to a method for calculating the control amount Mx of the area related to the record in the case of a severe disaster.
The “Multiple” item is an item that defines a weighted multiple for calculating the control amount Mx of the area related to the record in the case of a severe disaster.
The “control amount” item is an item that defines the control amount Mx of the area related to the record in the case of a severe disaster.

FIG. 3B is a diagram illustrating the relationship between the level and the control amount.
The total amount distribution method of the control total amount Ct for the session control device 30 that accommodates the telephone number band of the severely affected area is performed by any of the following levels 1 to 4.

  In the “Level 1” area, an arbitrary multiple is weighted to the number Cx of outgoing calls of the session control device 30 in the severely affected area, and proportional distribution is performed based on the number Cx of outgoing calls in the period. The calculation of the control amount Mx of the next period is described. This “arbitrary multiple” is described in the “multiple” item described above.

  In the “level 2” area, it is described that an arbitrary control amount Mx is assigned to the next period for the session control apparatus 30 related to the severely affected area. This arbitrary control amount Mx is described in the item “control amount”.

  In the “level 3” area, it is described that the number Cx of outgoing calls in the period is directly assigned to the control amount Mx in the next period for the session control apparatus 30 in the severely affected area.

  In the “level 4” area, it is described that the session control apparatus 30 related to the severely affected area is instructed not to control the number of outgoing calls Cx (not to restrict outgoing calls).

  Even in the “level 4” region, the session control device 30 continues to count the number of outgoing calls Cx. The congestion control system 20 subtracts the number Cx of outgoing calls of the session control device 30 that is the severely affected device from the total control amount Ct, and distributes it to the other session control devices 30. Here, the severely affected device refers to the session control device 30 that accommodates the user terminal 40 located in the severely affected area.

(Operation of the first embodiment)
The operation of the session control apparatus 30 according to the first embodiment will be described with reference to FIGS. 1 to 3 as appropriate.

  The session control device 30 (soft switch) controls the connection request processing unit 32 (FIG. 2) to connect a new connection request transmitted from the user terminal 40 to a target destination.

  When congestion occurs, the session control device 30 (soft switch) that has received a control instruction from the congestion control system 20 (FIG. 2) becomes the congestion control session control devices 30-1 to 30-n (FIG. 2). The connection request to the session control device 30-m (FIG. 2) is regulated.

  The congestion control system 20 (FIG. 2) of the present embodiment pays attention to the fact that the accommodation station number has regional characteristics, and when a large-scale disaster occurs, call processing is preferentially performed for outgoing calls from severely affected areas. Allocate other resources to control traffic. Thereby, the congestion control system 20 can raise the completion rate of the outgoing call of the user terminal 40 in a severely affected area as much as possible.

  Specifically, the congestion control system 20 (FIG. 2) is a session control device that accommodates telephone number bands related to a severely affected area when performing traffic control for a plurality of telephone number bands due to the occurrence of a disaster or the like. The total control amount Ct is preferentially allocated to 30 (soft switch) (FIG. 2).

As an example, the basic operation of the congestion control system 20 when a predetermined session control device 30 is congested will be described below.
Process (1): The congestion control system 20 starts traffic control designating a plurality of telephone number bands when a disaster occurs.
Process (2): The congestion control system 20 continues the traffic control and collects information on the number Cx of outgoing calls related to the specified station number information from the session control devices 30-1 to 30-n that regulate outgoing calls.
Process (3): The congestion control system 20 acquires a telephone number band related to a severely affected area.
Process (4): The congestion control system 20 performs traffic control by a total amount allocation method (FIG. 4) in consideration of a severely affected area.
Process (5): The congestion control system 20 returns to the process (4) repeatedly until the congestion is calmed down based on the result of the traffic control.
In the present embodiment, in the process (3), the administrator of the congestion control system 20 sets information on a severely affected area in the congestion control system 20. The information on the severely afflicted area is set by, for example, a number section (telephone number band) related to the severely afflicted area.
The congestion control system 20 performs traffic control by the total amount allocation method considering the severely affected area based on the information on the severely affected area and a database (FIG. 3) showing the relationship between the area and the total amount allocation method.

FIG. 4 is a flowchart showing the total amount distribution method according to the first embodiment.
When the processing of the total amount distribution method is started, in step S10, the congestion control system 20 collects information on the number Cx of outgoing calls of each session control device 30 in the period.
In steps S20 to S27, the congestion control system 20 repeats the process for each session control device 30.

  In step S21, the total control amount determination unit 21 of the congestion control system 20 determines whether or not the telephone number band accommodated by the session control device 30 belongs to the severely affected area. If the condition is satisfied (Yes), the congestion control system 20 performs the process of step S22. If the condition is not satisfied (No), the congestion control system 20 performs the process of step S27.

  In step S22, the total control amount determination unit 21 of the congestion control system 20 determines the level of the area based on the area of the telephone number band accommodated by the session control apparatus 30 and the database shown in FIG. If the area is level 1 to level 3, the congestion control system 20 performs step S23. If the area is level 4, the congestion control system 20 performs step S25.

  In step S23, the total control amount determination unit 21 of the congestion control system 20 preferentially distributes the actual control amount Mx to the session control device 30 by the calculation method of each level based on the level of the region.

  In step S24, the control instruction information determination unit 24 of the congestion control system 20 determines control instruction information including the actual control amount Mx, and the control instruction unit 26 transmits the instruction to the session control device 30. . The congestion control system 20 performs the process of step S27 when the process of step S24 is completed.

In step S <b> 25, the control instruction information determination unit 24 of the congestion control system 20 determines control instruction information that calls are not restricted, and the control instruction unit 26 transmits the instruction to the session control device 30.
In step S26, the outgoing call number information collection / aggregation unit 27 of the congestion control system 20 determines (calculates) the predicted outgoing call number Cy in the next period. In level 4 of the present embodiment, the number Cx of outgoing calls in the current period is applied as it is as the predicted number of outgoing calls Cy in the next period.

  In step S27, the congestion control system 20 determines whether or not the process has been repeated for all the session control devices 30. If the condition is satisfied, the congestion control system 20 performs the process of step S30. If the condition is not satisfied, the congestion control system 20 returns to the process of step S20.

In step S30, the outgoing call number information collection / aggregation unit 27 of the congestion control system 20 calculates the total sum (ΣMx) of the control amount Mx in the severely affected area from the total control amount Ct of outgoing calls of the communication network and the predicted outgoing call. A control amount Cd obtained by subtracting the total sum (ΣCy) of the number of calls Cy is calculated.
In step S31, the total amount distribution determining unit 23 of the congestion control system 20 distributes the subtracted control amount Cd to the control amount Mx of each session control device 30 outside the severely affected area.

  In step S32, the control instruction information determination unit 24 of the congestion control system 20 determines control instruction information including the allocated control amount Mx for each session control device 30 outside the severely affected area, and the control instruction unit 26 transmits the instruction. When the process of step S32 ends, the congestion control system 20 returns to the process of step S10.

(Effects of the first embodiment)
The first embodiment described above has the following effects (A) to (F).

(A) The completion rate in the severely affected area can be increased as much as possible by using the total amount allocation method that takes into account the reduction in the number of extremely completed calls due to damage outside the large-scale network section.

(B) The congestion control system 20 prescribes the detailed processing contents of the total amount allocation method in advance in the session control device 30 related to each region (telephone number band). Thereby, the congestion control system 20 can perform the total amount distribution method of the appropriate level according to the importance of the area.

(C) The total amount allocation determination unit 23 of the congestion control system 20 weights an arbitrary multiple of the number of outgoing calls Cx of the session control device 30 in the severely affected area in the “level 1” area. Then, proportional distribution based on the number of outgoing calls Cx in the period is performed to calculate the control amount Mx in the next period. The congestion control system 20 can allocate an appropriate control amount Mx according to the importance of the region by using an arbitrary multiple.

(D) The total amount allocation determination unit 23 of the congestion control system 20 assigns an arbitrary control amount Mx to the next cycle for the session control device 30 in the severely affected area in the “level 2” region. Yes. Thereby, the congestion control system 20 can allocate an appropriate control amount Mx according to the importance of the area.

(E) The total amount allocation determining unit 23 of the congestion control system 20 continues the number Cx of outgoing calls in the period to the session control device 30 in the severely affected area in the “level 3” area. It is assigned to the control amount Mx of the cycle. Thereby, the congestion control system 20 can allocate the control amount Mx corresponding to the number Cx of outgoing calls in the area.

(F) The total amount allocation determination unit 23 of the congestion control system 20 does not control the number Cx of outgoing calls to the session control device 30 in the severely affected area in the “level 4” area (call restriction) Do not). The congestion control system 20 further subtracts the predicted number of outgoing calls Cy of the session control device 30 from the total control amount Ct, and distributes it proportionally to the control amount Mx of the other session control devices 30. Thereby, the congestion control system 20 can suppress the collapse of the congestion by making the sum of the control amount Mx of the entire communication network constant even if the communication network includes the session control device 30 that does not restrict outgoing calls.

(Configuration of Second Embodiment)
FIG. 5 is a diagram illustrating the configuration of each part of the congestion control system and the like according to the second embodiment.
The congestion control system 20A according to the second embodiment has a configuration similar to that of the congestion control system 20 (FIG. 2) according to the first embodiment, a terminal decrease rate calculation unit 28, and a severe damage determination unit 29. And.

  The call restriction session control devices 30A-1 to 30A-n in the second embodiment have the same configuration as the call restriction session control devices 30-1 to 30-n (FIG. 2) of the first embodiment. In addition, a terminal number information totaling unit 37 is provided. Note that when the call restriction session control devices 30A-1 to 30A-n are not particularly distinguished, they are simply described as session control devices 30A.

The terminal decrease rate calculation unit 28 (terminal decrease rate calculation means) is connected to the terminal number information totaling unit 37 of each session control device 30A described later, and acquires the number of connected terminals Nx that can be determined by each session control device 30A. The decrease rate of the number of connected terminals Nx is calculated.
The severely afflicted judgment unit 29 (severely afflicted judgment means) judges whether or not each session control device 30A is a severely afflicted device. If the decrease rate of the number of connected terminals Nx related to the session control apparatus 30 is equal to or greater than a predetermined threshold, the severe damage determination unit 29 determines that a severe damage has occurred in the area related to the session control apparatus 30. That is, the severe affliction determination unit 29 determines that the session control device 30 is a severe affliction device.
The terminal number information totaling unit 37 (terminal number information totaling means) counts the number of user terminals 40 connected to the session control apparatus 30A and transmits the total number to the congestion control system 20A.

(Operation of Second Embodiment)
FIG. 6 is a flowchart showing a total amount distribution method according to the second embodiment.
After starting the process of the total amount distribution method, the process of step S10 is the same as the process of step S10 of the total amount distribution method of the first embodiment.
In step S11, the congestion control system 20A collects information on the number of connectable terminals Nx that can be detected from each session control device 30A.

The process of step S20 is the same as the process of step S20 of the total amount distribution method of the first embodiment. When the process of step S20 ends, the congestion control system 20A performs the process of step S28.
In step S28, the congestion control system 20A calculates the decrease rate of the connected terminals from the history of the number of connectable terminals Nx that can be detected. The reduction rate of the connected terminals can be obtained, for example, by subtracting the current connected terminal number Nx from the connected terminal number Ny one day ago and dividing this subtracted value by the connected terminal number Ny.

In step S29, the congestion control system 20A determines whether or not the reduction rate of the connected terminal exceeds a threshold value. The congestion control system 20A performs the process of step S22 if the condition is satisfied (Yes), and performs the process of step S27 if the condition is not satisfied (No).
The process of steps S22 to S27 is the same as the process of steps S22 to S27 of the total amount distribution method of the first embodiment.
The processing of steps S30 to S32 is the same as the processing of steps S30 to S32 of the total amount distribution method of the first embodiment.

(Effect of 2nd Embodiment)
The second embodiment described above has the following effect (G).

(G) The congestion control system 20A collects information on the number of connectable terminals Nx that can be detected from each session control device 30A, calculates the decrease rate of the connected terminals, and the decrease rate of the number of connected terminals Nx exceeds the threshold value If so, the session control device 30A is determined to be a severely affected device. Thereby, the congestion control system 20A can automatically determine a severely affected device.

(Modification)
The present invention is not limited to the above embodiment, and can be modified without departing from the spirit of the present invention. For example, the following forms (a) to (d) are used as the usage form and the modified examples.

(A) The total amount allocation determination unit 23 according to the first embodiment determines whether each session control device 30 relates to a severely affected area, and calculates according to a “level” preset in the area Thus, the control amount Mx is proportionally distributed. However, the present invention is not limited to this, and the total amount distribution determining unit 23 may equally distribute the control amount Mx uniformly to the session control device 30.

(B) “Arbitrary multiple” of the weighting to the number Cx of outgoing calls of the session control device 30 in the “level 1” area of the first embodiment is described in the above “multiple” item. . However, the present invention is not limited to this, and the “arbitrary multiple” may be designated by the judgment of the administrator. Further, a coefficient with the numerator of the completion rate of the outgoing call of the session control device 30 as a numerator is obtained using the completion rate of the outgoing call of the session control device 30 as a severely affected device, and the coefficient exceeds 100%. If so, this may be an “arbitrary multiple”.

(C) In the first embodiment, the administrator of the congestion control system 20 sets area information on a severely affected area in the congestion control system 20. However, the present invention is not limited to this, and the congestion control system 20 may automatically detect that the area is a severely affected area and set the area information by itself. For example, when the number Cx of outgoing calls is equal to or less than a predetermined value in a telephone number band that is equal to or greater than a predetermined number of incoming calls at a predetermined time, the congestion control system 20 detects the area related to the telephone number band as a severely affected area. May be.

(D) In the first embodiment, an example is shown in which a call cannot be made from the user terminal 40 due to a wide area power failure. However, the present invention is not limited to this, and the present invention can also be applied to a case where a call cannot be made from the user terminal 40 due to a communication line failure or a relay device failure.

20, 20A Congestion control system 21 Control total amount determination unit 22 Calculation unit 23 Total amount distribution determination unit (total amount distribution means)
24 Control instruction information determination unit (instruction means)
25 DB section (storage means)
26 Control instruction part (instruction means)
27 Outgoing Call Number Information Collection / Total Section (Outgoing Call Number Collection Means)
28 Terminal decrease rate calculation unit (terminal decrease rate calculation means)
29 Severely Affected Judgment Department (Severely Affected Judgment Means)
30, 30A Session control device 31 Call restriction unit 32 Connection request processing unit 33 Outgoing call number information collection / aggregation unit 34 Call restriction request unit 35 Resource monitoring unit 36 CPU usage rate measurement unit 37 Terminal number information aggregation unit (number of terminals) Information aggregation means)
40 User terminal

Claims (8)

A congestion control system for a communication network, which is connected to an external terminal located in a predetermined area and includes a session control device for processing outgoing calls of the external terminal,
Outgoing call number collection means for collecting the number of outgoing calls to each session control device in a current cycle;
Total amount distribution for preferentially allocating the total amount of outgoing call control of the communication network to the session control device in the predetermined area severely affected, and allocating the remaining control amount to other session control devices Means,
Instructing means for instructing each of the session control devices to regulate outgoing calls with the allocated control amount,
A congestion control system comprising: The total amount distribution means is:
Allocating the total control amount to the session control device related to the predetermined region severely affected, and multiplying the allocated control amount by a predetermined coefficient related to the predetermined region;
The congestion control system according to claim 1. The total amount distribution means is:
Calculate the completion rate by dividing the call completion rate of the entire communication network by the call completion rate of the external terminal connected to the session control device in the predetermined area severely affected,
Allocating the total control amount to the session control device, and multiplying the allocated control amount by the completion rate;
The congestion control system according to claim 1. The total amount distribution means is:
A predetermined control amount is allocated to the predetermined area for the session control device related to the predetermined area severely affected;
The congestion control system according to claim 1. The total amount distribution means is:
Distributing the number of outgoing calls of the session control device in the cycle to the session control device in the predetermined area severely affected;
The congestion control system according to claim 1. A congestion control system for a communication network, which is connected to an external terminal located in a predetermined area and includes a session control device for processing outgoing calls of the external terminal,
Outgoing call number collection means for collecting the number of outgoing calls to each session control device in the current period,
Calculate the predicted number of outgoing calls for the next period related to the session control device in the predetermined area severely affected, and consider the predicted number of outgoing calls to determine the total control amount of outgoing calls of the communication network by other session control Total amount distribution means to distribute to the device;
An instruction means for instructing the session control device related to the predetermined area severely affected not to restrict outgoing calls, and instructing other session control devices to restrict outgoing calls with the allocated control amount;
A congestion control system comprising: The congestion control system according to any one of claims 1 to 6, further comprising:
A terminal decrease rate calculating means for acquiring the number of external terminals that can be discriminated by each of the session control devices, and calculating a decrease rate of the number of external terminals;
If the rate of decrease in the number of external terminals related to the session control device is equal to or greater than a predetermined threshold value, severe damage determination means for determining that a severe damage has occurred in the predetermined area related to the session control device;
A congestion control system comprising: A congestion control system for a communication network, which is connected to an external terminal located in a predetermined area and includes a session control device for processing outgoing calls of the external terminal,
An outgoing call number collecting step for collecting outgoing call numbers to each of the session control devices in a current period;
Total amount distribution for preferentially allocating the total amount of outgoing call control of the communication network to the session control device in the predetermined area severely affected, and allocating the remaining control amount to other session control devices Steps,
An instruction step for instructing each of the session control devices to regulate outgoing calls with the allocated control amount;
The congestion control method characterized by performing.

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