JP2013168862A - Communication control server, communication control system, communication control method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To manage the communication state of a registration destination SIP server from a network side in registration of the SIP server for communicating with an IMS terminal.SOLUTION: A communication control server comprises: a state determination unit which determines whether the communication state of a pre-selected first SIP server is normal or not referring to a SIP server communication state table to store information indicating respective communication states of a plurality of SIP servers; a communication unit which transmits the IP address of the first SIP server to a request source if the state determination unit has determined that the communication state of the first SIP server is normal; and a selection unit which selects a second SIP server different than the first SIP server as the SIP server for determining a communication state if the state determination unit has determined that the communication state of the first SIP server is not normal.

Description

  The present invention relates to a communication control server, a communication control system, a communication control method, and a program.

As a method for selecting a SIP server from an IMS terminal, a method of notifying from the network side at the time of attachment, a method of setting the IMS terminal in advance, and the like are known. However, when a failure or congestion occurs in the communication state in the SIP server, the SIP server cannot process the registration signal from the IMS terminal. Thereby, the registration process of the IMS terminal is hindered.
To solve this problem, there is a method of notifying a plurality of SIP server candidates to the IMS terminal and selecting another SIP server when a failure or congestion occurs in the communication state of one SIP server.

For example, a plurality of SIP servers detect whether or not congestion has occurred in the communication state of the own device, and when congestion is detected, a transfer request for performing communication control in place of the own device is sent to another SIP server. (For example, refer to Patent Document 1).
In addition, there is a communication system in which a DHCP server dynamically selects a SIP server according to the state information of the SIP server (see, for example, Patent Document 2).
Further, there is a system that changes a SIP server already registered by a terminal to another SIP server in the IMS network (see, for example, Patent Document 3).
Furthermore, there is a system that selects a server such as a P-CSCF for communication connection (see, for example, Patent Document 4).

JP 2008-271501 A JP 2009-171104 A JP 2011-166737 A JP 2010-527520 A

  However, when a plurality of SIP server candidates are notified to the IMS terminal and a failure or congestion occurs in the communication state of one SIP server, the method of selecting another SIP server takes time to register, There is a problem that the communication state of the SIP server of the registration destination cannot be managed from the network side.

  It is an object of the present invention to provide a communication control server, a communication control system, a communication control method, and a program that can solve the above problems.

  The present invention has been made to solve the above-described problems, and a communication control server according to an aspect of the present invention refers to a SIP server communication state table storing information indicating communication states of a plurality of SIP servers. Determining whether the communication state of the first SIP server selected in advance is normal, and determining that the communication state of the first SIP server is normal by the state determination unit. If the communication state of the first SIP server is determined to be not normal by the communication unit that transmits the IP address of the first SIP server to the request source and the state determination unit, the first SIP server A selection unit that selects the SIP server that determines a communication state of a second SIP server that is different from the SIP server.

  Moreover, this invention was made | formed in order to solve the subject mentioned above, The communication control system by 1 aspect of this invention WHEREIN: The above-mentioned communication control server, The said some SIP server arrange | positioned in an IMS network, An IMS terminal connected to the SIP server via the IMS network.

  In addition, the present invention has been made to solve the above-described problems, and a communication control method according to an aspect of the present invention includes a SIP server communication state table that stores information indicating the communication states of a plurality of SIP servers. Referring to the step of determining whether or not the communication state of the first SIP server selected in advance is normal, and when the communication state of the first SIP server is determined to be normal, A step of transmitting the IP address of the first SIP server to the request source, and a communication of a second SIP server different from the first SIP server when it is determined that the communication state of the first SIP server is not normal Selecting the SIP server to determine the state.

  In addition, the present invention has been made to solve the above-described problems, and a program according to an aspect of the present invention is a SIP server communication state table that stores information indicating communication states of a plurality of SIP servers. Referring to FIG. 5, the state determination means for determining whether or not the communication state of the first SIP server selected in advance is normal, and the communication state of the first SIP server is normal by the state determination means If it is determined that the communication state of the first SIP server is not normal by the communication means that transmits the IP address of the first SIP server to the request source, and the state determination means determines that the first SIP server A selection means for selecting the SIP server for determining a communication state of a second SIP server different from the SIP server of It is a lamb.

  ADVANTAGE OF THE INVENTION According to this invention, in the registration of the SIP server which communicates with an IMS terminal, the communication state of the registration destination SIP server can be managed from the network side.

It is a block diagram which shows the structural example of the communication control system which concerns on one Embodiment of this invention. It is a figure which shows the relationship between the communication control server which concerns on one Embodiment of this invention, and a SIP server. It is a figure which shows an example of the SIP server communication state table of the communication control server which concerns on one Embodiment of this invention. It is a figure which shows the relationship between the communication control server which concerns on one Embodiment of this invention, and GW. It is a block diagram which shows the structural example of the communication control server which concerns on one Embodiment of this invention. It is a flowchart which shows an example of the communication control method which concerns on one Embodiment of this invention. It is a flowchart which shows an example of the registration method which concerns on one Embodiment of this invention. It is a figure which shows the minimum structure of the communication control server which concerns on one Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the communication system 1 according to the present embodiment includes an IMS (Information Management System) terminal 10, a plurality of GWs (Gateway) 20 {20_1, 20_2,..., 20_m}, and a communication control server 30. And a plurality of SIP (Session Initiation Protocol) servers 40 {40_1, 40_2, 40_3..., 40_n}.
Each of the plurality of GWs 20 is arranged in an IP access network, is a gateway server with the IMS network, and assigns an IP address to the IMS terminal 10. Each of the plurality of GWs 20 notifies the IMS terminal 10 of the IP address of the SIP server 40 accessed by the IMS terminal 10 simultaneously with the process of assigning the IP address to the IMS terminal 10.
The SIP server 40 controls setting of a session which is a communication path between users or between a user and various servers based on the SIP, and the user directly accesses the SIP server 40. The SIP server 40 is a P-CSCF (Proxy-Call Session Control Function), and operates as a proxy server for the IMS terminal 10. Therefore, the SIP message transmitted from the IMS terminal 10 and the SIP message transmitted to the IMS terminal 10 all pass through the SIP server 40 which is a P-CSCF.

As shown in FIG. 2, the communication control server 30 is connected to a plurality of SIP servers 40 {40_1, 40_2, 40_3..., 40_n}, and performs fault monitoring of each SIP server 40. Further, the communication control server 30 simultaneously manages the congestion state of each SIP server 40 {40_1, 40_2, 40_3..., 40_n}.
More specifically, the communication control server 30 periodically connects communication with each SIP server 40 {40_1, 40_2, 40_3..., 40_n}, and each SIP server 40 {40_1, 40_2, 40_3. .., 40_n} to determine whether a failure has occurred in the communication state or congestion has occurred.
The communication control server 30 writes the determination result in the SIP server communication state table as shown in FIG.

FIG. 3 is a diagram showing an example of the SIP server communication state table according to the present embodiment.
As shown in FIG. 3, the SIP server communication state table includes information indicating the communication state, information indicating the priority, and presence / absence of a selection flag for each of the SIP servers 40 {40_1, 40_2, 40_3... 40_n}. Is a table for associating information indicating the
Information indicating the communication state includes information indicating whether a failure has occurred in the communication state of each SIP server 40 {40_1, 40_2, 40_3..., 40_n}, and whether or not congestion has occurred. Information.
The information indicating the priority is information indicating the priority indicating the order of selection among the plurality of SIP servers 40 {40_1, 40_2, 40_3..., 40_n}.
The selection flag indicates that the SIP server is selected by the communication control server 30. When “1” is written in this selection flag, it indicates that the SIP server is selected. In the present embodiment, the number of SIP servers 40 selected by the communication control server 30 is one.

  As illustrated in FIG. 4, the communication control server 30 connects to a plurality of GWs 20 and performs a process of returning an appropriate IP address of the SIP server 40 in response to an inquiry from the GW 20.

Next, a configuration example of the communication control server 30 according to the present embodiment will be described with reference to FIG. FIG. 5 is a block diagram illustrating a configuration example of the communication control server 30 according to the present embodiment.
As illustrated in FIG. 5, the communication control server 30 includes a communication unit 301, a storage unit 302, a state determination unit 303, and a selection unit 304.
The communication unit 301 is connected to a plurality of GWs 20 {20_1, 20_2,..., 20_m} and a plurality of SIP servers 40 {40_1, 40_2, 40_3. When it is determined that the communication state of the SIP server 40_n selected by the state determination unit 303 is normal, the communication unit 301 transmits the IP address of the SIP server 40_n to the requesting IMS terminal 10. Although a detailed description is omitted, the IMS terminal 10 that has received the IP address of the SIP server 40_n from the communication control server 30 can execute a registration procedure based on the IP address.

The storage unit 302 stores a SIP server communication state table 321 as shown in FIG.
The state determination unit 303 refers to the SIP server communication state table 321 to determine whether or not the communication state of the selected SIP server 40_n is normal. Specifically, the state determination unit 303 recognizes the SIP server 40_n in which “1” is written in the selection flag in the SIP server communication state table 321 as the selected SIP server 40_n. The state determination unit 303 refers to the information indicating the communication state associated with the selected SIP server 40_n, and at least one of “failure” and “congestion” occurs in the communication state It is determined that the communication state is abnormal. On the other hand, referring to the information indicating the communication state, if neither “failure” nor “congestion” has occurred in the communication state, the state determination unit 303 determines that the communication state is normal.

When it is determined that the communication state of the SIP server 40_n selected by the state determination unit 303 is not normal, the selection unit 304 selects a SIP server 40_n + 1 that is different from the SIP server 40_n as the SIP server 40 that determines the communication state. In the present embodiment, the selection unit 304 refers to the SIP server communication state table 321 and selects the SIP server 40_n + 1 in the order corresponding to the priority. More specifically, when the SIP server 40_2 having the priority “2” is selected, the SIP server 40_3 having the next highest priority “3” after the priority “2” is selected. When selecting the SIP server 40_n + 1, the selection unit 304 writes “1” in the selection flag column associated with the SIP server 40_n + 1 in the SIP server communication state table 321. Note that “1” in the selection flag column associated with the SIP server 40_n is deleted.
When the communication unit 301 transmits an IP address to the IMS terminal 10 that is a request source of the IP address of the SIP server 40_n + 1, the selection unit 304 selects a SIP server_n + 2 that is different from the SIP server 40_n + 1. In the present embodiment, the selection unit 304 refers to the SIP server communication state table 321 and selects the SIP server 40_n + 2 in the order corresponding to the priority.

An example of the SIP server selection processing method performed by the communication control server 30 will be described using the flowchart shown in FIG.
(Step ST1)
When the state determination unit 303 of the communication control server 30 receives a server selection request message from another device (for example, GW 20_1), the state of the SIP server 40_n for which the selection flag is set is referred to the SIP server communication state table 321. Check if it is “Fault”. Specifically, the state determination unit 303 determines whether or not “failure” exists as information indicating the communication state of the SIP server 40_2 in which “1” is written in the selection flag column in the SIP server communication state table 321. Check the information written in the column shown.
(Step ST2)
Then, the state determination unit 303 determines whether “present” is written in the column indicating the presence / absence of “failure” as information indicating the communication state of the SIP server 40_2. That is, the state determination unit 303 determines whether or not a “failure” has occurred in the communication state of the SIP server 40_2 for which the selection flag is set.
(Step ST3)
When the “failure” column associated with the SIP server 40_2 is not “present”, the state determination unit 303 displays information indicating the communication state of the SIP server 40_2 in a column indicating the presence / absence of “congestion”. It is determined whether “Yes” is written. That is, the state determination unit 303 determines whether “congestion” has occurred in the communication state of the SIP server 40_2 for which the selection flag is set.

(Step ST4)
When the “congestion” column associated with the SIP server 40_2 is “present”, the state determination unit 303 moves the selection flag to another server. In other words, the state determination unit 303 sets a selection flag on the SIP server 40_3 in the row immediately below the SIP server 40_2 on which the selection flag is set in the SIP server communication state table 321. Specifically, the state determination unit 303 deletes “1” in the selection flag column corresponding to the SIP server 40_2 and writes “1” in the selection flag column corresponding to the SIP server 40_3.
Then, the state determination unit 303 returns to step ST1 and refers to the SIP server communication state table 321 so that “failure” has occurred in the communication state of the SIP server 40_3 or “congestion” has occurred. It is determined whether or not. That is, the state determination unit 303 confirms whether the _n + 1 state of the SIP server 40 that has moved again is “failure”. If it is determined that there is no “failure”, it is next checked whether the state of the SIP server 40_n + 1 of the selection flag is “congested”. If it is determined that the state is “congestion”, the selection flag is moved to another SIP server 40_n + x, and it is confirmed whether the moved server state is a failure.

In other words, the selection unit 304 selects the SIP server 40_n for which the selection flag is set among the plurality of SIP servers 40 when the communication state is neither “failure” nor “congestion”. Do not change the flag. On the other hand, when the SIP server 40_n for which the selection flag is set is “failure” or “congestion”, the selection unit 304 selects another SIP server 40_n + 1. Then, the state determination unit 303 searches for the SIP server 40_n + x that is not “failure” and is not “congested” in order from the SIP server 40_n + 1 selected by the selection unit 304.
In the present embodiment, the selection unit 304 refers to the information indicating the priority associated with the SIP server communication state table 321, and in descending order of priority from the SIP server 40_n in which the selection flag is set. The SIP server 40_n + 1 that is not “failure” and not “congestion” is selected.

Specifically, the state determination unit 303 determines whether the “failure” column associated with the SIP server 40_3 is “present”. Since the “failure” field associated with the SIP server 40_3 is “none”, the state determination unit 303 further includes a “congestion” field associated with the SIP server 40_3. It is determined whether or not.
That is, the state determination unit 303 determines whether information indicating that there is “congestion” is associated with the SIP server 40_3 for which the selection flag is set.

(Step ST5)
If the state determination unit 303 determines that the failure is neither “failure” nor “congestion”, the communication unit 301 sets the IP of the SIP server 40_n + x for which the selection flag is set in the SIP server communication state table 321. The address is transmitted to the requesting IMS terminal 10_1 via the GW 20_1.
(Step ST6)
Next, the communication unit 301 moves the selection flag downward in the SIP server communication state table 321 and ends the process. In other words, in the SIP server communication state table 321, the communication unit 301 sets the SIP server 40_4 in the row immediately below the SIP server 40_3 of the IP address transmitted to the request source (the selection flag is currently set). Set a selection flag. Specifically, the communication unit 301 deletes “1” in the selection flag column corresponding to the SIP server 40_3 and writes “1” in the selection flag column corresponding to the SIP server 40_4. The communication unit 301 refers to the information indicating the priority associated with the SIP server communication state table 321 and has a priority one lower than the priority of the SIP server 40_n + x for which the selection flag is set. A selection flag is set for the SIP server 40_n + x-1.

Next, an example of processing in which the IMS terminal 10 finds the SIP server 40_n free from “failure” and “congestion” and performs location registration will be described with reference to a sequence diagram shown in FIG.
As a precondition for this processing example, as shown in the SIP server communication state table 321, the SIP server 40_1 is in a “failure state” and the SIP server 40_2 is in a “congestion state”. Note that the communication control server 30 detects a communication state failure and congestion in each of the SIP servers 40 {40_1, 40_2, 40_3..., 40_n} and has been registered in the SIP server communication state table 321 in advance. Assume.

(Step ST21)
For example, the IMS terminal 10 attaches to the IP network for the GW 20_1. When the attach procedure is completed, the IMS terminal 10 is permitted to use the IP network.
(Step ST22)
Thereafter, the IMS terminal 10 performs a process called a PDP context activation procedure on the GW 20_1. The main purpose of this procedure is to set the IP address of the IMS terminal 10, but it is also possible to know the IP address of the P-CSCF at the same time.
(Step ST23)
The GW 20_1 that has received the PDP context activation request transmits an IP address request to the communication control server 30 in order to acquire the IP address of the SIP server 40_n.
The communication control server 30 that has received the request executes the process shown in FIG. 6, selects the SIP server 40_n, and returns the IP address.

(Step ST24)
The GW 20 notifies the IMS terminal 10 of the received IP address of the SIP server 40_n on the PDP context response.
(Step ST25)
The IMS terminal 10 performs an IMS registration procedure on the received IP address of the SIP server 40.

As described above, the communication control server 30 according to the present embodiment detects the communication state of each of the SIP servers 40 {40_1, 40_2, 40_3..., 40_n} in advance, and displays the detection result in the SIP server communication state table. 321 is registered. When the IMS terminal 10 requests assignment of the IP address of the SIP server 40, the communication state of the selected SIP server 40 is normal with reference to the SIP server communication state table 321 (that is, the communication state). It is determined whether or not “failure” and “congestion” have occurred. When it is determined that the communication state is normal, the communication control server 30 transmits the IP address of the SIP server 40 to the IMS terminal 10 via the GW 20.
In other words, in a network in which a plurality of IMS terminals 10 and a plurality of GWs 20 are arranged at the gateway between the IP access network and the IMS network, the operation state of the plurality of SIP servers 40 arranged in the IMS network is managed, and failures and congestion are prevented. Can be managed. The communication control server 30 inquired from the device that notifies the IMS terminal 10 such as the GW arranged in the IP access network of the IP address of the SIP server 40 sets the SIP server 40 free from failure and congestion in consideration of load distribution. select.
Thereby, in the registration of the SIP server 40 that communicates with the IMS terminal 10, the communication state of the registration destination SIP server 40 can be managed from the network side.
In addition, if the SIP server discovery procedure according to the present embodiment is used, the communication control server 30 performs the selection in consideration of the failure and congestion of the SIP server 40, so that the normal SIP server 40 is notified to the IMS terminal 10. Therefore, it is possible to prevent IMS registration delay and registration incomplete due to semi-normality.

In the above-described embodiment, the GW 20 is described as an apparatus that notifies the IMS terminal 10 of the IP address delivery of the IP network and the IP address of the SIP server 40. However, the present invention is not limited to this. For example, a SIP server discovery procedure based on a DHCP server may be used.
In addition, as a method for discovering the P-CSCF of IMS, a method of discovering as a part of the connection procedure to the IP access network (a method included in the PDP context procedure), a method of discovering by an individual method after setting the connection to the IP access network (Method by DHCP). Since the P-CSCF assigned to the IMS terminal 10 needs to be in a normal state and the assigned P-CSCF does not change frequently, it is required to assign an appropriate P-CSCF to the IMS terminal 10.

Note that the communication control system, the communication control server 30, the IMS terminal 10, the GW 20, and the SIP server 40 according to the present embodiment have a computer system therein. The process of operation is stored in a computer-readable recording medium in the form of a program, and the above-described processing is performed by the computer system reading and executing this program. The “computer system” herein includes a CPU, various memories, an OS, and hardware such as peripheral devices.
Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.

In addition, a program for realizing each step is recorded on a computer-readable recording medium, and a program for realizing this function is recorded on a computer-readable recording medium and recorded on the recording medium. Each process may be performed by causing the computer system to read and execute the program.
The “computer-readable recording medium” means a flexible disk, a magneto-optical disk, a ROM, a writable nonvolatile memory such as a flash memory, a portable medium such as a CD-ROM, a hard disk built in a computer system, etc. This is a storage device.

Further, the “computer-readable recording medium” means a volatile memory (for example, DRAM (Dynamic DRAM) in a computer system that becomes a server or a client when a program is transmitted through a network such as the Internet or a communication line such as a telephone line. Random Access Memory)), etc., which hold programs for a certain period of time.
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

  The minimum component of the communication control server according to the present invention is the first SIP selected in advance by referring to the SIP server communication state table storing information indicating the communication states of the plurality of SIP servers. A state determination unit 303 that determines whether or not the communication state of the server is normal; and when the state determination unit 303 determines that the communication state of the first SIP server is normal, the first SIP A communication unit 301 that transmits the IP address of the server to the request source, and a second SIP different from the first SIP server when the state determination unit determines that the communication state of the first SIP server is not normal. And a selection unit 304 that selects a server as the SIP server that determines a communication state. This configuration is shown in FIG.

  A part or all of the above embodiments can be described as in the following supplementary notes, but is not limited thereto.

  (Supplementary Note 1) Referring to the SIP server communication state table that stores information indicating the communication state of each of the plurality of SIP servers, whether or not the communication state of the first SIP server selected in advance is normal is determined. A state determination unit to determine, and a communication unit that transmits the IP address of the first SIP server to a request source when the state determination unit determines that the communication state of the first SIP server is normal; When the state determination unit determines that the communication state of the first SIP server is not normal, the selection unit selects as the SIP server which determines the communication state of a second SIP server different from the first SIP server And a communication control server.

  (Supplementary Note 2) The state determination unit determines whether or not the state of the selected second SIP server is normal, and the communication unit determines the state of the second SIP server by the state determination unit. The communication control server according to appendix 1, wherein the IP address of the second SIP server is transmitted to the request source when it is determined that the server is normal.

  (Additional remark 3) When the said IP address is transmitted to the request origin by the said communication part, the said selection part selects the other 3rd SIP server different from the said SIP server of the transmitted said IP address, The communication control server according to appendix 1 or 2.

  (Supplementary note 4) Any one of Supplementary notes 1 to 3, wherein the selection unit selects the second SIP server or the third SIP server in an order according to a predetermined priority. The communication control server according to claim 1.

  (Supplementary note 5) Any one of Supplementary notes 1 to 3, wherein the state determination unit determines that the state of the SIP server is abnormal when the state of the SIP server corresponds to at least one of a failure and a congestion. The communication control server according to one item.

  (Supplementary note 6) The communication control server according to any one of Supplementary notes 1 to 5, the plurality of SIP servers arranged in an IMS network, and an IMS terminal connected to the SIP server via the IMS network A communication control system comprising:

  (Additional remark 7) With reference to the SIP server communication state table which memorize | stores the information which shows each communication state of several SIP server, it is determined whether the communication state of the 1st SIP server selected beforehand is normal. A step of determining, a step of transmitting an IP address of the first SIP server to a request source when it is determined that a communication state of the first SIP server is normal, and a communication of the first SIP server Selecting a SIP server that determines a communication state of a second SIP server different from the first SIP server when it is determined that the state is not normal.

  (Supplementary Note 8) Whether the communication state of the first SIP server selected in advance is normal with reference to the SIP server communication state table storing information indicating the communication state of each of the plurality of SIP servers. State determining means for determining whether or not the communication means for transmitting the IP address of the first SIP server to the request source when the state determining means determines that the communication state of the first SIP server is normal When the state determination means determines that the communication state of the first SIP server is not normal, the selection to select as the SIP server that determines the communication state of a second SIP server different from the first SIP server Program to function as a means.

10 IMS terminal 20 GW
30 communication control server 40 SIP server 301 communication unit 302 storage unit 303 state determination unit 304 selection unit 321 SIP server communication state table

Claims (8)

State determination for determining whether or not the communication state of the first SIP server selected in advance is normal with reference to the SIP server communication state table storing information indicating the communication state of each of the plurality of SIP servers And
A communication unit that transmits the IP address of the first SIP server to a request source when the state determination unit determines that the communication state of the first SIP server is normal;
When the state determination unit determines that the communication state of the first SIP server is not normal, the selection unit selects as the SIP server which determines the communication state of a second SIP server different from the first SIP server When,
A communication control server comprising: The state determination unit
Determining whether the state of the selected second SIP server is normal;
The communication unit is
The communication according to claim 1, wherein when the state determination unit determines that the state of the second SIP server is normal, the IP address of the second SIP server is transmitted to the request source. Control server. The selection unit includes:
3. The third SIP server different from the SIP server of the transmitted IP address is selected when the IP address is transmitted to the request source by the communication unit. Communication control server. The selection unit includes:
The communication control according to any one of claims 1 to 3, wherein the second SIP server or the third SIP server is selected in an order according to a predetermined priority. server. The state determination unit
The communication control server according to any one of claims 1 to 3, wherein when the state of the SIP server corresponds to at least one of a failure and a congestion, it is determined to be abnormal. The communication control server according to any one of claims 1 to 5;
The plurality of SIP servers arranged in the IMS network;
An IMS terminal connected to the SIP server via an IMS network;
A communication control system comprising: Determining whether or not the communication state of the first SIP server selected in advance is normal with reference to the SIP server communication state table storing information indicating the communication state of each of the plurality of SIP servers; ,
When it is determined that the communication state of the first SIP server is normal, the step of transmitting the IP address of the first SIP server to the request source;
If it is determined that the communication state of the first SIP server is not normal, selecting as the SIP server for determining the communication state of a second SIP server different from the first SIP server;
A communication control method comprising: Computer
State determination for determining whether or not the communication state of the first SIP server selected in advance is normal with reference to the SIP server communication state table storing information indicating the communication state of each of the plurality of SIP servers means,
A communication unit that transmits the IP address of the first SIP server to a request source when the state determination unit determines that the communication state of the first SIP server is normal;
Selection means for selecting the SIP server to determine the communication state of a second SIP server different from the first SIP server when the state determination means determines that the communication state of the first SIP server is not normal ,
Program to function as.

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