JP2007181079A - Communication route control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a communication route control system in which scalability can be improved by easily parallelizing a plurality of gateway devices. <P>SOLUTION: Based on operating states of a plurality of gateway devices 13, 14, a communication route control apparatus 12 recognizes the remaining quantity of resources. If it is recognized as a result that the remaining quantity of resources of any one gateway device is little and the remaining quantity of resources of the other gateway device is much, terminal of a processing target is changed so that, among terminals defined as processing targets by the gateway device with the little remaining quantity of resources, a terminal being not under communicating becomes a processing target of the gateway device with the much remaining quantity of resources. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a communication path control system for controlling a gateway device used when communicating between terminals of different communication methods.

  In general, in order to perform multimedia communication between multimedia terminals connected to different networks or having different communication methods, it is necessary to go through a gateway device that is a device for converting the network or communication method. However, the processing capacity of the gateway device and the number of physical lines that the gateway device has are limited, and there is a limit to the number of communications that can be converted simultaneously by one gateway device.

  Therefore, in order to solve such a limitation, a technique has been developed in which a plurality of devices are prepared and an appropriate packet is allocated to each of them to perform parallel processing (see, for example, Patent Document 1).

International Publication No. WO03 / 007160

  In the communication method as described above, for example, when considering that an IP switching network and a circuit switching network which are different networks are interconnected, it is used when communication is performed between multimedia terminals connected to each other. A circuit switching network and an IP switching network are connected to the gateway device as physical lines. Then, when considering such interconnection between the IP switching network and the circuit switching network using the SIP URI (Session Initiation Protocol Uniform Resource Identifier), the gateway device includes the SIP URI and the telephone number in the inside. It is necessary to have a table that performs mutual conversion.

  In such a configuration, in order to simultaneously convert many communications at the same time, a plurality of gateway devices may be used. However, each gateway device has a table for performing mutual conversion between SIP URIs and telephone numbers having different contents. Therefore, there is a possibility that communication is concentrated only on a specific gateway device, and it cannot be said that the merits of parallelization are fully utilized.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a communication path control system capable of easily parallelizing a plurality of gateway devices and improving scalability.

  The communication path control system according to the present invention recognizes that the remaining resources of any one of the plurality of gateway devices are low based on the operating states of the plurality of gateway devices, and When it is recognized that there are many remaining resources, among the circuit-switched terminals and IP-switched terminals that are processed by the gateway device that has few remaining resources, the non-communication terminal is the processing target of the gateway device that has many remaining resources. In this way, a communication path control device that changes a terminal to be processed is provided.

  In the communication path control system according to the present invention, when the remaining resources of any one of the gateway devices are small, the processing target terminal is changed to the gateway device with a large remaining resources, so that a plurality of gateway devices can be easily parallelized. In addition, scalability can be improved.

Embodiment 1 FIG.
In the first embodiment, the SIP URI and the telephone in the gateway device that are recognized to have few resources according to the number of remaining resources that are transmitted from the gateway device and received from the operation state of the gateway device received by the communication path control device One or more pieces of terminal information described in a table for performing mutual conversion of numbers are moved to another gateway device, and a REGISTER message having contents corresponding to the information is transmitted to the SIP server, so that a plurality of SIP calls can be transmitted. It is configured to allocate appropriately according to the state of the gateway device.

FIG. 1 is a configuration diagram showing the communication path control system of the present embodiment.
The illustrated communication path control system includes a gateway system 1, an IP switching network 2 and IP switching multimedia terminals 3 and 4 connected thereto, a circuit switching network 5 and circuit switching multimedia terminals 6 and 7 connected thereto. Has been.

  The gateway system 1 includes a SIP server 11, a communication path control device 12, gateway devices 13 and 14, and a LAN 15. The SIP server 11 is a route control server that uses a SIP URI as identification information in the IP exchange network and performs route control between the IP exchange multimedia terminals 3 and 4 and the gateway devices 13 and 14 based on the SIP URI. That is, the SIP server 11 is a server having functions of registration of IP exchange multimedia terminals 3 and 4, address resolution, and call routing.

FIG. 2 is a configuration diagram showing details of the gateway device 13.
The gateway device 13 includes an IP switching network interface 13a, a circuit switching network interface unit 13b, a media data conversion unit 13c, a call control conversion unit 13d, a SIP URI telephone number correspondence table 13e, a telephone number SIP URI correspondence table 13f, and a table information control unit. 13g.

  The IP switching network interface unit 13 a is an interface that performs communication control with the IP switching network 2, and the circuit switching network interface unit 13 b is an interface that performs communication control with the circuit switching network 5. The media data conversion unit 13c is a functional unit that converts media data between the IP exchange multimedia terminals 3 and 4 and the circuit exchange multimedia terminals 6 and 7. The call control conversion unit 13d is a functional unit that performs call control conversion using the SIP URI telephone number correspondence table 13e and the telephone number SIP URI correspondence table 13f.

  The SIP URI telephone number correspondence table 13e shows the correspondence between the telephone number in the circuit switched network 5 of the circuit switched multimedia terminals 6 and 7 and the SIP URI in the IP switched network 2 of the circuit switched multimedia terminals 6 and 7. It is a first identification information correspondence table indicating whether or not the circuit-switched multimedia terminals 6 and 7 are not communicating. Further, the telephone number SIP URI correspondence table 13f shows the correspondence between the SIP URI of the IP exchange multimedia terminals 3 and 4 in the IP exchange network 2 and the telephone number in the circuit exchange network 5 of the IP exchange multimedia terminals 3 and 4. FIG. 10 is a second identification information correspondence table indicating whether or not the IP exchange multimedia terminals 3 and 4 are not communicating.

The table information control unit 13g adds information to the SIP URI telephone number correspondence table 13e and the telephone number SIP URI correspondence table 13f based on an instruction to add or delete a terminal to be processed from the communication path control device 12. This is a functional unit that performs deletion.
In FIG. 2, the internal configuration of the gateway device 13 is shown as an example of the gateway devices 13 and 14, but the internal configuration of the gateway device 14 is the same as that of the gateway device 13.

  The IP exchange multimedia terminals 3 and 4 and the circuit exchange multimedia terminals 6 and 7 connected to the gateway system 1 have telephone numbers and SIP URIs in advance in the SIP URI telephone number correspondence table or telephone in the gateway devices 13 and 14. It is necessary to register in the number SIP URI correspondence table. Next, these tables will be described.

FIG. 3 is an explanatory diagram showing an example of the contents of the SIP URI telephone number correspondence table 13e that the gateway device 13 has inside.
The SIP URI telephone number correspondence table 13e is used to obtain the telephone number of the other party from the SIP URI when a call is made from the IP exchange multimedia terminals 3 and 4 to the circuit exchange multimedia terminals 6 and 7 via the gateway device 13. The table used. The SIP URI in the SIP URI telephone number correspondence table 13e is a SIP URI registered in the SIP server 11 together with the IP addresses of the gateway devices 13 and 14, and the telephone number is a circuit-switched multimedia terminal connected to the gateway system 1. 6 and 7 phone numbers.

  Further, the SIP URI telephone number correspondence table 13e shows the originating URI to be notified to the IP exchange multimedia terminals 3 and 4 when making a call from the circuit exchange multimedia terminals 6 and 7 to the IP exchange multimedia terminals 3 and 4. It is also used to obtain from the called telephone number and the called subaddress.

FIG. 4 is an explanatory diagram showing an example of the contents of the telephone number SIP URI correspondence table 13f that the gateway apparatus 13 has inside.
The telephone number SIP URI correspondence table 13f indicates the number and the destination subaddress of the gateway apparatus 13 when a call is made from the circuit switched multimedia terminals 6 and 7 to the IP switched multimedia terminals 3 and 4 via the gateway apparatus 13. Is a table used to obtain the SIP URI of the other party from The telephone number in the telephone number SIP URI correspondence table 13f is the telephone number of the circuit switching network 5 connected to the gateway apparatus 13, and the SIP URI is the SIP of the IP exchange multimedia terminals 3 and 4 connected to the gateway apparatus 13. URI.

  The telephone number SIP URI correspondence table 13f shows the calling number to be notified to the circuit-switched multimedia terminals 6 and 7 when making a call from the IP-switched multimedia terminals 3 and 4 to the circuit-switched multimedia terminals 6 and 7. Also used to get from FROM URI.

FIG. 5 is an explanatory diagram showing an example of the content of the SIP URI telephone number correspondence table that the gateway device 14 has inside.
FIG. 6 is an explanatory diagram showing an example of the contents of a telephone number SIP URI correspondence table included in the gateway device 14.
As shown, the SIP URI telephone number correspondence table shown in FIG. 5 corresponds to the SIP URI telephone number correspondence table 13e of the gateway apparatus 13 shown in FIG. 3, and the telephone number SIP URI correspondence table shown in FIG. Correspond to the telephone number SIP URI correspondence table of the gateway device 13 shown in FIG. However, the contents of these tables do not overlap with the tables of the gateway device 13.

  The SIP server 11 includes all SIP URIs described in the SIP URI telephone number correspondence table and the telephone number SIP URI correspondence table included in each gateway device 13, 14, and the gateway devices 13, 14 IP address combinations are registered.

FIG. 7 shows the internal configuration of the communication path control device 12.
The communication path control device 12 recognizes that the remaining resources of one of the gateway devices 13 (14) are small based on the operation state of the gateway devices 13 and 14, and the remaining gateway device 14 (13) remains. When it is recognized that there are many resources, the gateway device 13 (14) with few remaining resources is out of communication among the circuit-switched multimedia terminals 6 and 7 and the IP-switched multimedia terminals 3 and 4 to be processed. The terminal has a function of changing the processing target terminal so that the terminal becomes a processing target of the gateway device 14 (13) with a large remaining resource.

  As shown in FIG. 7, the communication path control device 12 includes a gateway management unit 12a, a REGISTER message transmission unit 12b, and an IP exchange network interface 12c. The gateway management unit 12a receives the operation state from each of the gateway devices 13 and 14, and in accordance with the information, the contents of the internal SIP URI telephone number correspondence table and the telephone number SIP URI correspondence table in each gateway device 13 and 14 are displayed. It has a function of transmitting instructions for making appropriate changes. The REGISTER message transmission unit 12 b has a function of transmitting a REGISTER message to the SIP server 11. The IP exchange network interface 12 c is an interface for performing communication control with the IP exchange network 2 via the LAN 15.

  In FIG. 1, an IP exchange network 2 is an IP exchange network that performs communication based on IP (Internet Protocol), and IP exchange multimedia terminals 3 and 4 are terminals connected to the IP exchange network 2. is there. Further, the circuit switching network 5 is a circuit switching network for performing communication by circuit switching, and the circuit switching multimedia terminals 6 and 7 are terminals connected to the circuit switching network 5.

Next, the operation of the communication path control system according to the first embodiment will be described.
First, a case where a call is made from the IP switched multimedia terminal 3 to the circuit switched multimedia terminal 6 will be described.
FIG. 8 is an explanatory diagram showing an operation when a call is made from the IP exchange multimedia terminal 3 to the circuit exchange multimedia terminal 6.
1. From the IP switched multimedia terminal 3 (SIP URI: I0002@ΔΔΔ.co.jp) to the SIP URI (C0003@ΔΔΔ.co.jp) in the IP switched network 2 of the circuit switched multimedia terminal 6 A call is made by SIP (INVITE message transmission).
2. The SIP server 11 includes C0003 @ ΔΔΔ. co. Since jp is registered as the IP address of the gateway device 13, the INVITE message from the IP exchange multimedia terminal 3 reaches the gateway device 13 via the SIP server 11.
3. The gateway apparatus 13 knows from the SIP URI telephone number correspondence table 13e that the telephone number of the circuit-switched multimedia terminal 6 is XX-XXXX-0003.
4). Further, the gateway device 13 knows from the telephone number SIP URI correspondence table 13f that the telephone number of the IP exchange multimedia terminal 3 is YY-YYYY-0001 # 0002.
5. The gateway device 13 makes a call with the calling number as YY-YYYY-0001 # 0002 and the called number as XX-XXXX-0003.

Next, a case where a call is made from the circuit switched multimedia terminal 6 to the IP switched multimedia terminal 3 will be described.
FIG. 9 is an explanatory diagram showing an operation when a call is made from the circuit-switched multimedia terminal 6 to the IP-switched multimedia terminal 3.
1. A call is made from the circuit-switched multimedia terminal 6 (telephone number: XX-XXXX-0003) to the telephone number (YY-YYYY-0001 # 0002) in the circuit-switched network of the IP-switched multimedia terminal 3.
2. In the gateway device 13, the SIP URI of the IP exchange multimedia terminal 3 is I0002 @ ΔΔΔ. co. Know that it is jp.
3. Further, the gateway device 13 uses the SIP URI telephone number correspondence table 13e to determine that the SIP URI of the circuit-switched multimedia terminal 6 is C003 @ ΔΔΔ. co. Know that it is jp.
4). The gateway device 13 changes the FROM URI to C003 @ ΔΔΔ. co. jp, TO URI is set to I0002 @ △△△. co. A call is made by SIP as an jp (INVITE message transmission).
5. The INVITE message reaches the IP exchange multimedia terminal 3 via the SIP server 1.

Next, a notification operation from the gateway devices 13 and 14 to the communication path control device 12 will be described.
FIG. 10 is an explanatory diagram showing this notification operation.
As shown in the figure, each gateway device 13, 14 responds to the communication path control device 12 when a specific event occurs, such as when a certain call is received or when a new call is accepted or when a call is terminated. Then, the operation status of the gateway device itself is notified. This operation state includes the state of the module inside the apparatus, the number of calls being converted, the load factor of the arithmetic unit of the apparatus, and the like.

FIG. 11 is a flowchart showing the operation of the communication path control device 12.
The gateway management unit 12a of the communication path control device 12 waits for reception of the operation state from each gateway device 13 and 14 (step ST1). In such a state, when the operation state is input from any one of the gateway devices 13 and 14 to the gateway management unit 12a via the IP switched network interface 12c, the gateway management unit 12a determines each gateway device 13 from the received operation state. , 14 are obtained (step ST2). As a criterion for determining this remaining resource, for example, the remaining resource is decreased as the number of non-communication lines increases, or the remaining resource is decreased as the processing load of the arithmetic device is increased.

  For example, if the number of remaining resources of the gateway device 13 is small in step ST3 and the number of remaining resources of the gateway device 14 is large in step ST4, in order to prevent a new call using the gateway device 13 from being started, The terminal information in communication is moved to the gateway device 14 (steps ST5 and ST6). As a mobile terminal, a terminal that has used the gateway device 13 so far (number of calls), a terminal that has a long conversation time, or a terminal that has a high utilization rate in that time zone is preferentially selected.

  Specifically, as shown in FIG. 12, first, a table element deletion instruction is issued to the gateway device 13 (step ST5). This table element deletion instruction enters the table information control unit 13g via the IP exchange interface unit 13a of the gateway device 13. The table information control unit 13g deletes the non-communication terminal information C001, C003, I002, and I004 in the table from the SIP URI telephone number correspondence table 13e and the telephone number SIP URI correspondence table 13f. Next, the gateway management unit 12a gives the terminal information C001, C003, I002, and I004 deleted from the gateway device 13 by issuing a table element addition instruction to the gateway device 14 via the IP switched network interface 12c. 14 (step ST6).

  As a result, the contents of the SIP URI telephone number correspondence table 13e of the gateway device 13 are as shown in FIG. 13, and the contents of the telephone number SIP URI correspondence table 13f are as shown in FIG. On the other hand, the contents of the SIP URI telephone number correspondence table of the gateway device 14 are as shown in FIG. 15, and the contents of the telephone number SIP URI correspondence table are as shown in FIG.

  As shown in these figures, the terminal information C001, C003 in the SIP URI telephone number correspondence table 13e of the gateway device 13 moves to the SIP URI telephone number correspondence table of the gateway device 14, and the telephone number SIP URI correspondence table of the gateway device 13 is shown. The terminal information I002 and I004 in 13f has been moved to the telephone number SIP URI correspondence table of the gateway device 14.

  Furthermore, the communication path control device 12 transmits a REGISTER message from the REGISTER message transmission unit 12b to the SIP server 11 via the IP switched network interface 12c (step ST7). In the REGISTER message, the correspondence between the SIP URI of all the IP exchange multimedia terminals 3 and 4 changed in the SIP URI telephone number correspondence table and the telephone number SIP URI correspondence table and the IP addresses of the gateway devices 13 and 14 is shown. include. As a result, C001 @ ΔΔΔ. co. jp or C003 @ △△△. co. Calls destined for jp are transferred to the gateway device 14.

  Up to now, the gateway devices 13 and 14 have been described as two, but the number of gateway devices 13 and 14 may be three or more. When there are three or more gateway devices in this way, the gateway device that is the destination from the gateway device with the small remaining amount of resources is the gateway device with the most remaining resources among the gateway devices with the large remaining amount of resources. Prioritized control may be performed, or distribution may be made to a plurality of gateway devices according to the value of the remaining resource.

  Similarly, two multimedia terminals connected to the circuit switching network 5 or the IP switching network 2 have been described, but it is clear that the same effect can be obtained even if the number of terminals increases. .

  According to the above procedure, even when communication concentrates on the gateway device 13 and there are not enough remaining resources, the terminal information is moved to the gateway device 14 that has sufficient remaining resources, and the SIP server is moved to match the movement. In this case, the call from the terminal registered in the gateway device 13 is not rejected. In this way, it is possible to easily construct a gateway system having high scalability by connecting a plurality of gateway devices.

  As described above, according to the communication path control system of the first embodiment, each is connected to the circuit switching network and is assigned to the processing target, and is connected to the IP switching network. The remaining resources of any one of the plurality of gateway devices based on the operation state of the plurality of gateway devices that perform mutual communication connection with the assigned IP exchange terminal and the plurality of gateway devices may be small When it is recognized and it is recognized that the remaining resources of other gateway devices are large, among the circuit-switched terminals and IP-switched terminals to be processed by the gateway devices with a small remaining resources, A communication path control device that changes the processing target terminal so that it becomes the processing target of the gateway device with many remaining resources. Since with the door, it is possible to prevent such calls are concentrated on a particular gateway device, easily parallelized multiple gateway devices, and it is possible to improve the scalability.

  Further, according to the communication path control system of the first embodiment, the operation state of the gateway apparatus includes the number of lines that are not communicating with the gateway apparatus or the processing load amount of the gateway apparatus. Since it is determined that the larger the number of non-communication lines or the larger the processing load, the fewer the resources of the gateway device, the resources of the plurality of gateway devices can be made more equal. .

  Further, according to the communication path control system of the first embodiment, the communication path control apparatus is a terminal that changes from a gateway apparatus with a small remaining resource to a gateway apparatus with a large remaining resource, as a terminal with a large number of calls until that point, Alternatively, since terminals with a long talk time are preferentially targeted, communication connection between terminals can be more reliably performed, and scalability can be further improved.

  In addition, according to the communication path control system of the first embodiment, each gateway device includes the correspondence between the identification information in the circuit switching network of the circuit switching terminal and the identification information in the IP switching network of the circuit switching terminal, Correspondence relationship between the first identification information correspondence table indicating whether or not the switching terminal is not communicating, the identification information in the IP switching network of the IP switching terminal, the identification information in the circuit switching network of the IP switching terminal, and the IP switching A second identification information correspondence table indicating whether or not the terminal is not communicating, and using the identification information of the first identification information correspondence table and the second identification information correspondence table, the circuit switching terminal and the IP The communication path control device performs mutual communication connection with the switching terminal, and the communication path control device has information on the circuit switching terminal that is not communicating in the first identification information correspondence table of the gateway device that is the change source. The information of the IP exchange terminal that is moved to the first identification information correspondence table of the gateway device that is the change destination and is not communicating in the second identification information correspondence table of the gateway device that is the change source Since the terminal to be processed is moved by moving to the second identification information correspondence table possessed by the gateway device to be changed, processing is easily performed from the gateway device with few resources to the gateway device with many resources. The target terminal can be changed.

  Further, according to the communication path control system of the first embodiment, the path control server that performs path control between the IP switching terminal and the gateway device that accommodates the circuit switching terminal based on the identification information in the IP switching network. When the processing target of the gateway device is changed, the communication route control device notifies the change content to the route control server, so that the change content can be reliably reflected to the route control server. As a result, communication connection between terminals can be more reliably performed.

  According to the communication path control system of the first embodiment, the identification information in the IP switching network associated with the circuit switching terminal described in the first identification information correspondence table is processed by the circuit switching terminal. Since the identification information registered in the routing control server is used together with the identification information of the assigned gateway device in the IP switching network, calls from the circuit switching terminal to the IP switching network and incoming calls from the IP switching network are more accurate. Can be controlled.

  Further, according to the communication path control system of the first embodiment, the identification information in the circuit switching network associated with the IP switching terminal described in the second identification information correspondence table is processed by the IP switching terminal. Since the telephone number in the circuit switching network connected to the assigned gateway device is used, it is possible to more accurately control the outgoing call from the IP switching terminal to the circuit switching network and the incoming call from the circuit switching network.

Embodiment 2. FIG.
In the second embodiment, the state of the gateway device obtained from the operation state of the gateway device transmitted from the gateway device and received by the communication route control device is abnormal, or the operation state does not reach the communication route control device from the gateway device. If the gateway device recognizes that a failure has occurred in the gateway device, add the same terminal information registered in the gateway device in which the failure has occurred to another non-failed gateway device, By sending a REGISTER message with the appropriate content to the SIP server, the SIP call is allocated only to the gateway device in which no failure has occurred.

FIG. 17 is an explanatory diagram illustrating the operation of the communication path control system according to the second embodiment, and the configuration thereof will be described with the aid of this diagram.
The second embodiment differs from the first embodiment in the function of the communication path control device 16.
When the communication path control device 16 according to the second embodiment is unable to receive an operation state notification periodically transmitted from each gateway device 13 or 14, or when there is an operation state notification indicating an abnormality, It is determined that a failure has occurred in the gateway device, and the SIP URI telephone number correspondence table and the telephone number SIP URI correspondence table possessed by the gateway device that has recognized that the failure has occurred are configured to move to another gateway device. . The elements on the drawing of the internal configuration of the communication path control device 16 are the same as those in FIG. 7, and will be described below with the aid of the configuration shown in FIG. Further, in the second embodiment, the other configuration of the communication path control system is the same as that of the first embodiment, and thus the description thereof is omitted here.

Next, the operation of the second embodiment will be described.
The gateway devices 13 and 14 operate to the communication path control device 16 when the gateway device 13 or 14 receives a specific event such as when a certain call is received or when a new call is received or when a call is terminated. Notify the status. This operation state includes the state of the module inside the apparatus, the number of calls being converted, the load factor of the arithmetic unit of the apparatus, and the like. Here, as shown in FIG. 17, a case will be described in which the operation state from the gateway device 13 indicates an abnormality, or the notification of the operation state itself does not come to the communication path control device 16.

FIG. 18 is a flowchart showing the operation of the communication path control device 16.
As in the first embodiment, the gateway management unit 12a of the communication path control device 16 waits for reception of the operation state from each of the gateway devices 13 and 14 (step ST1). In such a state, when the gateway management unit 12a recognizes that the contents of the received operation state of each gateway device indicate an abnormality or that the operation state itself is no longer notified, the gateway device It is assumed that a failure has occurred (steps ST11 and ST12).

  When the notification of the operation state from the gateway device 13 is not received in step ST11, or when the operation state of the gateway device 13 indicates an abnormality in step ST12, the gateway management unit 12a sends the notification to the gateway device 13. Determine that a failure has occurred. In this case, it is checked whether there is a surplus in the remaining resource of the gateway device 14 (step ST13). If there is room in step ST13, as shown in FIG. 19, the SIP URI telephone number correspondence table 13e and the telephone number SIP URI of the gateway apparatus 13 are provided to the gateway apparatus 14 via the IP exchange network interface 12c. A table element addition instruction for all terminal information related to the correspondence table 13f is issued (step ST14). As a result, all terminal information C001 to C064 and I001 to I064 registered in the gateway device 13 are added to the SIP URI telephone number correspondence table and the telephone number SIP URI correspondence table of the gateway device 14. In step ST13, if there is no room in the resources of the gateway device 14, the process is terminated as it is.

  As a result, the contents of the SIP URI telephone number correspondence table of the gateway device 14 are as shown in FIG. 20, and the contents of the telephone number SIP URI correspondence table are as shown in FIG.

  Further, as shown in FIG. 19, the communication path control device 16 transmits a REGISTER message from the internal REGISTER message transmission unit 12b to the SIP server 11 via the IP exchange network interface 12c (step ST15). This REGISTER message includes the correspondence between the SIP URIs of the SIP URI telephone number correspondence table and the SIP number of all IP exchange multimedia terminals 3 and 4 added to the telephone number SIP URI correspondence table and the IP addresses of the gateway devices 13 and 14. It is. As a result, C001 @ ΔΔΔ. co. jp to C064 @ △△△. co. Calls destined for jp are transferred to the gateway device 14.

  In the flowchart of FIG. 18, if there is no abnormality in the information reception of the gateway device 13 in step ST11 and the operation state in step ST12, the process proceeds to step ST2 and subsequent steps. Subsequent operations of step ST2 to step ST7 are the same as the operations of the first embodiment shown in FIG. 11, and a description thereof will be omitted here.

So far, in the second embodiment, the gateway devices 13 and 14 have been described as two units, but may be three or more units. When the number of gateway devices 13 and 14 is three or more, when it is determined in step ST13 described above whether or not there is a remaining resource remaining in another gateway device, the resources of the plurality of gateway devices are the highest. Control such as selecting an item with a sufficient remaining amount or control such as distributing terminals to be processed according to the remaining amount of resources in a plurality of gateway devices may be performed.
Similarly, two multimedia terminals connected to the circuit switching network 5 or the IP switching network 2 have been described, but it is obvious that the same effect can be obtained even if the number of terminals increases. .

  According to the above procedure, even when a failure occurs in the gateway device 13, the terminal information is moved to the gateway device 14 that has sufficient remaining resources, and the registration to the SIP server 11 is performed again so as to be consistent with the movement. Thus, a call from a terminal registered in the gateway device 13 is not rejected. In this way, it is possible to easily construct a gateway system having high scalability by connecting a plurality of gateway devices.

  As described above, according to the communication path control system of the second embodiment, when the communication path control apparatus recognizes that a failure has occurred in any one of the gateway apparatuses, the first of the gateway apparatus in which the failure has occurred. Since the processing target terminal indicated in the identification information correspondence table and the second identification information correspondence table is moved to one of the gateway devices, the system is not stopped even if a failure occurs in the gateway device. Processing can be continued. For this reason, it becomes possible to easily parallelize a plurality of gateway devices and improve scalability.

  In addition, according to the communication path control system of the second embodiment, the communication path control device can no longer receive the notification of the operation state periodically transmitted from any gateway device, or the received operation state When there is a content indicating an abnormality in the contents of the gateway device, it is determined that a failure has occurred. Therefore, even if a failure occurs in any of the gateway devices, the system is not stopped. , Can improve the reliability more.

  In addition, according to the communication path control system of the first and second embodiments, since the identification information in the IP exchange network is the SIP URI, calls are concentrated on a specific gateway device even when the SIP protocol is used. Can be prevented, a plurality of gateway devices can be easily arranged in parallel, and scalability can be improved.

  In each of the above embodiments, the SIP URI is used as identification information in the IP exchange network. However, this information may be used as long as the information has an equivalent function.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the communication path control system by Embodiment 1 of this invention. It is a block diagram which shows the detail of the gateway apparatus of the communication path control system by Embodiment 1 of this invention. It is explanatory drawing which shows the SIP URI telephone number corresponding | compatible table of the gateway apparatus with few remaining resources according to Embodiment 1 of this invention. It is explanatory drawing which shows the telephone number SIP URI corresponding | compatible table of the gateway apparatus with few remaining resources by Embodiment 1 of this invention. It is explanatory drawing which shows the SIP URI telephone number corresponding | compatible table of the gateway apparatus with many remaining resources by Embodiment 1 of this invention. It is explanatory drawing which shows the telephone number SIP URI corresponding | compatible table of the gateway apparatus with many remaining resources by Embodiment 1 of this invention. It is a block diagram which shows the communication path control apparatus of the communication path control system by Embodiment 1 of this invention. It is explanatory drawing which shows the operation | movement in the case of making a call from the IP switching multimedia terminal of the communication path control system by Embodiment 1 of this invention to a circuit switching multimedia terminal. It is explanatory drawing which shows operation | movement at the time of making a call from the circuit switching multimedia terminal of the communication path control system by Embodiment 1 of this invention to an IP switching multimedia terminal. It is explanatory drawing which shows the notification operation | movement from the gateway apparatus of the communication path control system by Embodiment 1 of this invention to a communication path control apparatus. It is a flowchart which shows operation | movement of the communication path control apparatus of the communication path control system by Embodiment 1 of this invention. It is explanatory drawing which shows operation | movement of the communication path control apparatus of the communication path control system by Embodiment 1 of this invention. It is explanatory drawing which shows the SIP URI telephone number corresponding | compatible table after a change of the gateway apparatus with few remaining resources by Embodiment 1 of this invention. It is explanatory drawing which shows the telephone number SIP URI corresponding | compatible table after a change of the gateway apparatus with few remaining resources by Embodiment 1 of this invention. It is explanatory drawing which shows the SIP URI telephone number corresponding | compatible table after the change of the gateway apparatus with much remaining resources by Embodiment 1 of this invention. It is explanatory drawing which shows the telephone number SIP URI correspondence table after the change of the gateway apparatus with many remaining resources according to Embodiment 1 of this invention. It is explanatory drawing which shows operation | movement of the communication path control system by Embodiment 2 of this invention. It is a flowchart which shows operation | movement of the communication path control system by Embodiment 2 of this invention. It is explanatory drawing which shows operation | movement of the communication path control apparatus of the communication path control system by Embodiment 2 of this invention. It is explanatory drawing which shows the SIP URI telephone number corresponding | compatible table of the change destination gateway apparatus by Embodiment 2 of this invention. It is explanatory drawing which shows the telephone number SIP URI corresponding | compatible table of the change destination gateway apparatus by Embodiment 2 of this invention.

Explanation of symbols

  2 IP switching network (IP switching network), 3, 4 IP switching multimedia terminal (IP switching terminal), 5 Circuit switching network (circuit switching network), 6, 7 Circuit switching multimedia terminal (circuit switching terminal), 11 SIP Server (route control server), 12, 16 communication route control device, 13, 14 gateway device, 13e SIP URI phone number correspondence table (first identification information correspondence table), 13f phone number SIP URI correspondence table (second identification) Information correspondence table).

Claims (10)

A plurality of gateway devices that are connected to a circuit switching network and each of which is connected to a circuit switching terminal and is connected to the IP switching network and performs an intercommunication connection with the IP switching terminal that is allocated to the processing object When,
Based on the operating state of the plurality of gateway devices, it is recognized that the remaining resources of any one of the plurality of gateway devices are small, and the remaining resources of other gateway devices are recognized to be large. Of the circuit switching terminal and the IP switching terminal to be processed by the gateway device with a small amount of remaining resources, so that a non-communication terminal is a processing target of the gateway device with a large amount of remaining resources. A communication path control system comprising a communication path control device for changing a terminal. The operating state of the gateway device includes the number of lines that are not communicating with the gateway device or the processing load of the gateway device,
2. The communication path according to claim 1, wherein the communication path control device determines that the resources of the gateway device are less as the number of non-communication lines is larger or the processing load is larger. Control system. The communication path control device
The terminal that changes from a gateway device with a small remaining resource to a gateway device with a large remaining resource is preferentially targeted to a terminal having a large number of calls up to that point or a terminal having a long call time. The communication path control system according to claim 1 or 2. Each gateway device
A correspondence relationship between the identification information of the circuit switching terminal in the circuit switching network and the identification information of the circuit switching terminal in the IP switching network, and a first identification information correspondence table indicating whether or not the circuit switching terminal is not communicating; The second identification information correspondence table indicating the correspondence between the identification information in the IP switching network of the IP switching terminal and the identification information in the circuit switching network of the IP switching terminal, and whether or not the IP switching terminal is not communicating And using the identification information in the first identification information correspondence table and the second identification information correspondence table to perform mutual communication connection between the circuit switching terminal and the IP switching terminal,
The communication path control device
Move the information of the circuit switching terminal that is not communicating in the first identification information correspondence table of the gateway device as the change source to the first identification information correspondence table of the gateway device as the change destination, In addition, the information on the IP exchange terminal that is not communicating in the second identification information correspondence table included in the gateway device as the change source is moved to the second identification information correspondence table included in the gateway device as the change destination. The communication path control system according to any one of claims 1 to 3, wherein the terminal to be processed is moved by the operation. A path control server that performs path control between the IP switching terminal and the gateway device accommodating the circuit switching terminal based on the identification information in the IP switching network;
The communication path control system according to claim 4, wherein when the processing target of the gateway apparatus is changed, the communication path control apparatus notifies the change content to the path control server.   The identification information in the IP switching network associated with the circuit switching terminal described in the first identification information correspondence table is together with the identification information in the IP switching network of the gateway device to which the circuit switching terminal is assigned as the processing target. 6. The communication path control system according to claim 5, wherein the communication path control system is identification information registered in the path control server.   The identification information in the circuit switching network associated with the IP switching terminal described in the second identification information correspondence table is the circuit switching network in which the IP switching terminal is connected to the gateway device allocated to the processing target. The communication path control system according to any one of claims 4 to 6, wherein the communication number is a telephone number. The communication path control device
When recognizing that a failure has occurred in any of the gateway devices, the processing target terminal indicated by the first identification information correspondence table and the second identification information correspondence table of the gateway device in which the failure has occurred, The communication path control system according to any one of claims 4 to 7, wherein the communication path control system is moved to any one of the gateway devices. The communication path control device
A failure occurs in the gateway device when it is no longer possible to receive the notification of the operation status periodically transmitted from any gateway device, or when there is an abnormality in the received operation status. The communication path control system according to claim 8, wherein the communication path control system is determined.   The communication path control system according to any one of claims 1 to 9, wherein the identification information in the IP exchange network is a SIP URI.

Images