JP4574225B2 - Call control method, IP telephone system, router and call control program in IP telephone network - Google Patents

Description

  The present invention relates to a call control technology for a transfer system composed of routers, switches and the like in an IP (Internet Protocol) telephone network.

  Conventionally, voice communication is established using a call control protocol in a configuration in which an IP network such as the Internet is connected to a public switched telephone network (PSTN) network that is a public switched telephone network, and voice data is transmitted and received as IP packets. Thus, a service that enables voice communication is provided. FIG. 1 is a schematic diagram showing a configuration of a general IP telephone system using SIP (Session Initiation Protocol) as a call control protocol. This IP telephone system 20 includes a subscriber A telephone 17 provided in the subscriber's home 5, an MG (Media Gateway / media gateway) or FW (Fire Wall / firewall) 14 connected to the subscriber A telephone 17, an MG15. , Routers 19-1 to 19-6 (hereinafter collectively referred to as 19), CA (GW) (Call Agent / call agent gateway server) 11, CA (SS) (CA SIP server) 12, address information server 13 The network includes a NE (Network Element / Network Element) 16 and a PSTN telephone 18 provided in the PSTN network 1. The IP network 2 includes a call control system 3, a transfer system 4, and MGs 14 and 15. The call control system 3 includes a CA (GW) 11, a CA (SS) 12, and an address information server 13. The transfer system 4 includes a router 19 that exchanges IP packets according to an IP address, a label, or a table. Yes.

  The CA (GW) 11 and CA (SS) 12 of the call control system 3 perform call control according to requests from the PSTN telephone 18 connected to the PSTN network 1 and the subscriber A telephone 17 connected to the IP network 2. To translate phone numbers and set routing. The CA (GW) 11 interworkes an ISUP (ISDN User Part) signal between the IP network 2 as its own network and the PSTN network 1 as another network, and has a firewall function. Further, the address information server 13 stores a subscriber's telephone number, IP address, address, and the like used for call routing and setting by the CA (GW) 11 and CA (SS) 12.

  FIG. 2 is an operation flowchart of call control in the IP telephone system 20 shown in FIG. This operation flowchart specifically shows call control among the subscriber A telephone set 17, the CA (SS) 12, the CA (GW) 11 and the NE 16. As shown in FIG. 2, in the conventional IP telephone system 20, the CA (SS) 12 and the CA (GW) 11 perform call control by recognizing the INVITE signal of the call packet from the subscriber A telephone 17. Start. On the other hand, the router 19 of the transfer system 4 does not recognize a call by a call packet, but merely transfers a packet by a routing protocol such as IP or MPLS (Multiprotocol Label Switching).

  FIG. 3 is a schematic diagram showing a configuration of a general IP telephone system using MEGACO (Media Gateway Control Protocol) as a call control protocol. This IP telephone system 70 includes a subscriber A telephone 67 provided in a subscriber's home 55, an RGW (Residential Gateway / Residential Gateway) 64, a TGW (Trunking Gateway / Trunking Gateway) connected to the Subscriber A telephone 67. 65, routers 69-1 to 69-6 (hereinafter collectively referred to as 69), MGC (Media Gateway Controller / media gateway controller) 61, NE66 and PSTN telephone 68 provided in the PSTN network 51. The IP network 52 includes a call control system 53, a transfer system 54, an RGW 64, and a TGW 65. The call control system 53 includes an MGC 61, and the transfer system 54 includes a router 69 that exchanges IP packets according to an IP address, a label, or a table.

  FIG. 4 is an operation flowchart of call control in IP telephone system 70 shown in FIG. This operation flowchart specifically shows call control among the subscriber A telephone 67, RGW 64, MGC 61, TGW 65, NE 66, and PSTN telephone 68. As shown in FIG. 4, in the conventional IP telephone system 70, the MGC 61 recognizes the Notify signal of the call packet from the subscriber A telephone 67 and starts call control. On the other hand, the router 69 of the transfer system 54 does not recognize the call by the call packet and merely transfers the packet by a routing protocol such as IP or MPLS.

  As described above, in the conventional IP telephone systems 20 and 70, the CA (GW) 11, the CA (SS) 12, and the MGC 61 recognize the call by various signaling such as the SIP, MEGACO, and MGCP (Media Gateway Control Protocol) described above. Then, call control is started. In this case, the transfer systems 4 and 54 do not have a function of recognizing a call (see Non-Patent Document 1).

Yasuaki Chimura, 1 outside, “IDG Information Communication Series SIP Textbook”, IDG Japan, May 2, 2003, p. 33-35

  That is, in the conventional IP telephone systems 20 and 70, the CA (GW) 11, the CA (SS) 12, and the MGC 61 recognize the call of the call packet. Therefore, until the INVITE signal arrives at CA (GW) 11 and CA (SS) 12 after subscriber A telephones 17 and 67 request communication by IP telephone, or until the Notify signal arrives at MGC 61 In the meantime, the routers 19 and 69 cannot perform the state control for recognizing the call, and even if a call to be prioritized is received, a routing process equivalent to that for other calls must be performed. It was. For example, even when a large number of calls occur, the routers 19 and 69 have to perform uniform packet transfer in the communication network between the CA (GW) 11, the CA (SS) 12, or the MGC 61. There wasn't.

  On the other hand, the routers 19 and 69 perform packet transmission priority control using Diffserv (Differential Services) or the like. FIG. 5 is a schematic diagram for explaining priority control in the routers 19 and 69. This priority control is control performed by referring to an IP address in a packet, a ToS (Type of Service) value in an IP header, and the like, and distinguishes between priority and non-priority for each packet. Further, the priority defined in the IP telephone service is not associated with the ToS value indicating the service type of the packet. For this reason, it is impossible for the routers 19 and 69 to perform priority control on a call basis.

  Therefore, the present invention has been made to solve the above-mentioned problems, and its purpose is to realize quality control according to the quality conditions of the IP telephone service in a transfer system composed of routers and switches. Another object of the present invention is to provide a call control method, an IP telephone system, a router, and a call control program in an IP telephone network that can maintain voice quality without discarding packets being communicated.

The call control method according to the present invention provides voice information using VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. Call control method by the router in the system for transferring IP and realizing the IP phone, the step of receiving a packet of a signal by a call control protocol, and recognizing the call by the signal of the received packet at the time of congestion Analyzing the call, and based on the result of the analysis, data in a table in which a priority is assigned to each caller and callee, and a priority is assigned to each combination of caller and callee and table data, the table of priority for each signal type is assigned, its priority is the highest priority BYE signal, the priority of the INVITE signal to the next And data to be shall, generating a priority of the call the call by referring to the database data determining table is stored priority by the priority of the option unit in the INVITE signal, based on the priority Transferring the call packet.
The analyzing step is based on at least one of the following information: signal type information of the received packet, number information for specifying the source and destination, Call ID, and call urgency information. Preferably, the step of analyzing the call.
The IP network includes a communication device different from a call control server, a router, and a switch, and the other communication device includes the packet reception, call call analysis, priority generation, and packet transfer. It is preferable that at least one is performed and the router and another communication device cooperate with each other.

The IP telephone system of the present invention uses VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. In a system for transferring voice information to realize an IP phone, the router recognizes a call by a receiving unit that receives a packet of a signal according to a call control protocol, and receives the call by recognizing the received packet signal in a congestion state. Analyzing unit for analysis, data in a table assigned a priority for each sender and receiver, data in a table assigned a priority for each combination of sender and receiver, and for each signal type Table priority is assigned, its priority is the highest priority BYE signal, the data is assumed to prioritize INVITE signal to the next, INVITE signal A database in which data of a table for determining priority according to the priority of the option unit is stored, a priority generation unit that generates the priority of the call by referring to the database based on the analysis result, And a transfer unit that transfers the packet of the telephone call based on priority.

In addition, the router of the present invention provides voice information using VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. A router in a system for transferring IP and realizing an IP phone, which receives a packet of a signal according to a call control protocol, and recognizes the call by the received packet signal during congestion and analyzes the call Analysis unit, table data assigned a priority for each sender and receiver, table data assigned a priority for each combination of sender and receiver, and priority for each signal type in table degrees is assigned, its priority is the highest priority a BYE signal, the data is assumed to prioritize INVITE signal to the next, put the INVITE signal A database in which data of a table for determining the priority according to the priority of the option unit is stored; a priority generation unit that generates the priority of the call by referring to the database based on the analysis result; And a transfer unit that transfers the packet of the telephone call based on the rank.
The analysis unit is configured to perform the call call based on at least one of signal type information of a received packet, number information for identifying a transmission source and a destination, a Call ID, and call urgency information. Is preferably analyzed.
The IP network includes a communication device different from the call control server, the router, and the switch, and the other communication device is at least one of the reception unit, the analysis unit, the priority generation unit, and the transfer unit. It is preferable to cooperate with other communication apparatuses.

The call control program of the present invention uses VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. A call control program to be executed by a computer constituting the router in a system for transferring voice information to realize an IP phone, wherein the computer receives a packet of a signal according to a call control protocol, and a signal of the received packet at the time of congestion The process of recognizing a call and analyzing the call, according to the analysis result, data in a table in which a priority is assigned to each caller and callee, and a combination of the caller and callee and table data priority is assigned to each, at the table where the priority for each signal type is assigned, the priority highest priority a BYE signal And then, generates the data shall take precedence with INVITE signal to the next, the priority of the call the call by referring to the database data determining table is stored priority by the priority of the option unit in the INVITE signal And a process of transferring a packet of the call call based on the priority order.

  As described above, according to the present invention, a transfer system receives a packet of a signal according to a call control protocol, analyzes the signal, generates a priority, and transfers the packet based on the priority. Therefore, quality control according to the quality condition of the IP telephone service can be realized, and the voice quality can be maintained without discarding the packet during communication.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 6 is a schematic diagram showing the configuration of the IP telephone system according to the embodiment of the present invention when SIP is used. The IP telephone system 120 includes a subscriber A telephone 117 provided in the subscriber's home 105, MGs 114 and 115 connected to the subscriber A telephone 117, and routers 119-1 to 119 constituting the transfer system 104. -6 (hereinafter collectively referred to as 119), CA (GW) 111, CA (SS) 112 and address information server 13 constituting the call control system 103, NE 116 and PSTN telephone 118 provided in the PSTN network 101 And. The IP network 102 includes a call control system 103, a transfer system 104, and MGs or FWs 114 and 115. The IP telephone system 120 is configured in the same way as the IP telephone system 20 shown in FIG. 1, but the router 119 realizes the call call recognition of the present invention and realizes call control using the call call recognition. 1 is different from the router 19 shown in FIG. Other devices have equivalent functions.

  The router 119 recognizes a call based on the SIP protocol, the MEGACO protocol, etc., analyzes the call, a database 130-1 to 130-4 storing various data used for analyzing the call, A routing processing unit for performing a call routing process, a discarding process, and the like according to the priority (priority). As shown in FIG. 6, the router 119-1 recognizes a signal based on the SIP protocol such as an INVITE signal, and distributes the call according to parameters in the signal and databases 130-1 to 130-4. During normal times, all calls are allowed to pass, but during congestion, if the received call is a priority call, it is allowed to pass, and if it is a non-priority call, the call is discarded. The same control is possible when the REGISTER signal or BYE signal is recognized.

  Specifically, the signal analysis function unit of the router 119 recognizes signals such as INVITE, REGISTER, and BYE, and in the case of an INVITE signal, calculates a calling number and a called number from the signal. Then, the signal analysis function unit refers to the data stored in the databases 130-1 to 130-4 based on the transmission number, the incoming number, the signal type, the Call ID, and various parameters in the signal, and the priority The priority call parameters are determined and classified into priority calls that should be given priority and general calls that should not be given priority. For example, a plurality of priorities are provided so that calls such as 110 and 119 are given the highest priority. As described above, the signal analysis function unit performs prioritization by referring to the databases 130-1 to 130-4 using the signal type and various parameters in the signal by signal analysis.

  FIG. 7 is a diagram for explaining the databases 130-1 to 130-4 included in the router 119-1 illustrated in FIG. The database 130-1 is a table in which a priority is assigned to each caller and callee. The caller's address and priority (0 to 3) and the callee's address and priority (0, 1) are defined correspondingly. The database 130-2 is a table in which a priority is assigned to each combination of a caller and a callee. The priority class (EF, AF1, AF2, BE) is determined using the priority assigned to each sender and receiver by the database 130-1. The database 130-3 is a table in which a priority is assigned for each signal type. For example, when the signal type is BYE, the priority is defined to be increased by one. The database 130-4 is a table for determining the priority based on the priority of the option part in the INVITE signal. For example, when the priority is emergency, the priority class is EF. The signal analysis function unit refers to these databases 130-1 to 13-4, and determines the priority by comprehensively judging. For example, when the signal analysis function unit determines that the priority is BE, the routing process discards the call packet.

  FIG. 8 is a schematic diagram showing the configuration of the IP telephone system according to the embodiment of the present invention when MEGACO is used. The IP telephone system 170 includes a subscriber A telephone 167 provided in the subscriber's home 155, an RGW 164 connected to the subscriber A telephone 167, and routers 169-1 to 169-6 that constitute the transfer system 154. (Hereinafter collectively referred to as 169), an MGC 161 constituting the call control system 153, an NE 166 and a PSTN telephone 168 provided in the PSTN network 151, and a TGW 165 connected to the NE 166. The IP network 152 includes a call control system 153, a transfer system 154, an RGW 164, and a TGW 165. The IP telephone system 170 is configured in the same manner as the IP telephone system 70 shown in FIG. 3, but the router 169 realizes the call call recognition of the present invention and realizes call control using the call call recognition. 3 is different from the router 69 shown in FIG. Other devices have equivalent functions.

  The router 169 recognizes a call according to the MEGACO protocol, analyzes the call, a signal analysis function unit, databases 180-1 and 180-2 storing various data used for call analysis, and calls according to priority. And a routing processing unit for performing routing processing and disposal processing. As shown in FIG. 8, the router 169-1 recognizes a signal of the MEGACO protocol such as a Notify signal, and distributes the call according to the parameters in the signal and the databases 180-1 and 180-2. During normal times, all calls are allowed to pass, but during congestion, if the received call is a priority call, it is allowed to pass, and if it is a non-priority call, the call is discarded. The same applies to the case where the Subtract signal is recognized.

  Specifically, the signal analysis function unit of the router 169 recognizes a signal such as Notify, Subtract, etc., and in the case of a Notify signal, calculates the calling number and the called number from the signal. Then, the signal analysis function unit refers to the data stored in the databases 180-1 and 180-2 on the basis of these number numbers, signal types, parameters in the signals, and the like, and the priority call parameter which is the priority Are classified into priority calls that should be prioritized and general calls that should not be prioritized.

  FIG. 9 is a diagram illustrating the databases 180-1 and 180-2 provided in the router 169-1 illustrated in FIG. The database 180-1 is a table in which a priority is assigned to each caller and callee. The caller's telephone number and priority (0 to 3) and the callee's telephone number and priority (0, 1) are defined correspondingly. The database 180-2 is a table in which a priority is assigned to each combination of a caller and a callee. The priority class (EF, AF1, AF2, BE) is determined using the priority assigned to each sender and receiver by the database 180-1. The signal analysis function unit refers to these databases 180-1 and 180-2 and determines the priority based on a comprehensive judgment.

Next, call control procedures of the IP telephone system 120 shown in FIG. 6 and the IP telephone system 170 shown in FIG. 8 will be described.
1) When the subscriber A telephones 117 and 167 as calling terminals make a call, the subscriber A telephones 117 and 167 give a signal based on the SIP or MEGACO call control protocol. In this case, a PBX or a relay device (not shown) between the subscriber A telephone 117 and the MG 114 or between the subscriber A telephone 167 and the RGW 164 may give a signal according to the call control protocol.
2) When the routers 119-1 and 169-1 receive the call packet, the signal analysis function unit recognizes the signal type (INVITE signal, BYE signal, etc.) of the call packet, and the signal type is the call signal ( It is determined whether the signal is an INVITE signal or a notify signal.

If it is determined that the call signal is a call signal, processing is executed according to the following procedure.
3) The signal analysis function unit determines the caller address and the callee address or the caller ID and the callee number from the call signal, analyzes the signal type and contents, and registers the databases 130-1 to 130 in advance. -4, or the data in the databases 180-1 and 180-2 are collated to obtain the priority. This priority is set as a priority call parameter in the traffic class (ToS value indicating the service type) of the IP header of the call signal.
4) When the routers 119-1 and 169-1 determine that the routers 119-1 and 169-1 are in a congested state based on their own device status and line usage status, and other methods cause congestion from related devices such as the CA (SS) 112, MG 114, and FW. When receiving the notification of the state, the routing processing unit discards a call packet of a call that is determined as a general call or a newly registered call by the signal analysis function unit.

Then, the call packet is transferred from the routers 119-1 and 169-1 to the CA (SS) 112 and the CA (GW) 111 or the MGC 161.
5) Upon receiving the call packet, the CA (SS) 112 or MGC 161 performs signal analysis and service analysis, refers to the address information stored in the address information server 13, sets an IP address, and sets a predetermined destination. Send a call packet to.
6) The routers 119 and 169 route the outgoing packet to the destination according to the set IP address and priority call parameters.
7) When the call packet is transferred to the routers 119-6 and 169-6 on the PSTN telephones 118 and 168 that are the destinations, the routers 119-6 and 169-6 remove the priority call parameters and inform the user. A call connection request is made to the PSTN telephones 118 and 168 which are receiving terminals. In this case, since the priority call parameter set in the call packet is information handled only in the IP networks 102 and 152, the devices in the PSTN networks 101 and 151 cannot be crafted with respect to the priority call parameter. When a predetermined mechanism can be applied, it is not necessary to remove priority call parameters.
8) When the PSTN telephone 118 serving as the receiving terminal receives the call connection request signal, transmission / reception of the U-plane signal is started.
9) When the routers 119 and 169 receive the U-plane signal transmitted from the subscriber A telephones 117 and 167 and the PSTN telephones 118 and 168, which are transmitting / receiving terminals, the priority call parameters are similarly set in the packet of the signal. Set and transfer.
10) When a ringing tone is transmitted, subscriber A telephones 117 and 167 which are calling terminals receive the ringing tone, and PSTN telephones 118 and 168 which are receiving terminals raise the handset, communication is in progress.
11) In the subscriber A telephones 117 and 167 and the PSTN telephones 118 and 168, when the handset is lowered and the call is terminated, the routers 119 and 169 preferentially transfer the disconnection signal, and the CA (SS) 112 and CA ( GW) 111 and MGC 161 terminate the call connection. This completes the call.

  As described above, according to the embodiment of the present invention, the call control systems 103 and 153 including the CA (GW) 111, the CA (SS) 112, and the MGC 161, and the transfer system including the routers 119 and 169 and the switch. In IP networks 102 and 152 that transfer voice information using VoIP (Voice over IP) by 104, 154, etc., routers 119, 169 receive the packet, recognize the call, analyze the call, Referring to the databases 130-1 to 130-4, 180-1, and 180-2, priority call parameters that define the priority order are obtained, and processing such as discarding the packet is performed based on the priority parameter values. I made it. Thereby, since the transfer system 104, 154 recognizes the call and performs the transfer process, the quality control according to the quality condition of the IP telephone service can be realized. Conventionally, in the transfer system 4, 54, the packet is discarded according to the priority with respect to the packet. Therefore, the priority of the packet does not necessarily match the priority of the IP telephone service, and the packet during voice communication is also included. The voice quality was degraded because it was a target for disposal. According to the embodiment of the present invention, it is possible to control in accordance with the priority in the IP telephone, so that it is possible to maintain voice quality without discarding packets during voice communication.

  The present invention has been described with reference to the embodiment. However, the above description is intended to help understanding of the present invention and does not limit the scope of the claims of the present invention. Accordingly, various modifications can be made without departing from the gist of the present invention, and can be appropriately changed within the scope of achieving the object of the present invention and producing effects.

  In the above embodiment, the router 119 recognizes the SIP among a plurality of protocols as the call control protocol, and the router 169 recognizes the MEGACO among the plurality of protocols. Depending on the network to be operated, only one of SIP and MEGACO may be recognized, or both may be recognized.

  In the above embodiment, the routers 119 and 169 are provided with the signal analysis function unit. However, the signal analysis function unit may be provided in an external server of the routers 119 and 169. , 169 may be attached to a device closer to the subscriber A telephone 117, 167. Further, at least one of the signal analysis function unit, the databases 130-1 to 130-4, 180-1, 180-2, and the routing processing unit (part of the processing executed by the signal analysis function unit, a plurality of database Some of them may be provided in an external server. In this case, the routers 119 and 169 and the external server perform control in cooperation.

  Also, the signal analysis function unit of the routers 119 and 169 analyzes various priority parameters (for example, priority header in the case of SIP) and other parameters in the signal based on the SIP or MEGACO protocol, and the calling number, called number, etc. A call analysis may be performed by combining with the above.

  In the above procedure 5), the CA (SS) 112 or MGC 161 receives a signal packet according to the call control protocol, performs signal analysis and service analysis, changes priority, and sets a new priority parameter. The packet may be transmitted.

  In addition, the signal analysis function unit of the routers 119 and 169 sets the determined priority as a priority parameter in the packet traffic class (ToS value), but defines a new parameter for determining the priority in the IP layer. The call traffic may be newly defined and set on the SIP or MEGACO protocol.

  The routers 119 and 169 include a CPU, a volatile storage medium such as a RAM, a nonvolatile storage medium such as a ROM, an input device such as a keyboard and a pointing device, a monitor device that displays images and data, and an external device. You may make it each be comprised by the computer apparatus provided with the interface for communicating with an apparatus. In this case, each function of the signal analysis function unit and the routing processing unit included in the routers 119 and 169 is realized by causing the CPU to execute a program describing the functions. These programs can also be stored and distributed in a storage medium such as a magnetic disk (floppy disk, hard disk, etc.), optical disk (CD-ROM, DVD, etc.), semiconductor memory, or the like.

It is the schematic which shows the structure of the IP telephone system using the conventional SIP. FIG. 2 is an operation flowchart of call control in the IP telephone system of FIG. 1. It is the schematic which shows the structure of the IP telephone system using the conventional MEGACO. FIG. 4 is an operation flowchart of call control in the IP telephone system of FIG. 3. It is the schematic explaining the priority control in the conventional router. It is the schematic which shows the structure of the IP telephone system using SIP which concerns on embodiment of this invention. It is a figure explaining the database with which the router of the IP telephone system of FIG. 6 was equipped. It is the schematic which shows the structure of the IP telephone system using MEGACO which concerns on embodiment of this invention. It is a figure explaining the database with which the router of the IP telephone system of FIG. 8 was equipped.

Explanation of symbols

1, 51, 101, 151 PSTN network 2, 52, 102, 152 IP network 3, 53, 103, 153 Call control system 4, 54, 104, 154 Transfer system 5, 55, 105, 155 Subscriber house 11 , 111 CA (GW)
12,112 CA (SS)
13, 113 Address information server 14, 15, 114, 115 MG
16, 66, 116, 166 NE
17, 67, 117, 167 Subscriber A telephone 18, 68, 118, 168 PSTN telephone 19, 19-1 to 19-6, 69, 69-1 to 69-6, 119, 119-1 to 119-6 169, 169-1 to 169-6 Router 20, 70, 120, 170 IP telephone system 61, 161 MGC
64,164 RGW
65,165 TGW
130, 130-1 to 130-4, 180, 180-1, 180-2 database

Claims (8)

An IP telephone is realized by transferring voice information using VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. A call control method by the router in a system,
Receiving a packet of a signal according to a call control protocol; recognizing a call by the received packet signal during congestion; and analyzing the call; and a caller and a callee based on the analysis result and table data priority is assigned to each, and the data of the table calling and called parties combinations priority for each of the are assigned, in the table the priority for each signal type is assigned, the The priority is determined by referring to a database storing data in which the BYE signal is given the highest priority and the INVITE signal is given the next priority and the table data for determining the priority based on the priority of the option part in the INVITE signal is stored. Generating a call priority, and transferring the call packet based on the priority. A call control method by the router to. The call control method according to claim 1, wherein
The step of analyzing is based on at least one of information on the type of signal of the received packet, number information for specifying a source and destination, Call ID, and call urgency information. A call control method comprising the step of analyzing a call. The call control method according to claim 1 or 2,
The IP network includes a communication device other than a call control server, a router, and a switch,
The other communication device performs at least one of reception of the packet, analysis of a call, generation of priority, and packet transfer, and the router and another communication device cooperate with each other. Call control method by router and other communication device. An IP telephone is realized by transferring voice information using VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. In the system,
The router includes a receiving unit that receives a packet of a signal according to a call control protocol, an analysis unit that recognizes a call by the received packet signal and analyzes the call, and a caller and a callee a data table that priority is assigned, a data table which the calling and called parties combinations priority for each of the are assigned, in the table the priority for each signal type is assigned, its priority Is a database storing data in which the BYE signal is given the highest priority and the INVITE signal is given the next priority, the data of the table for determining the priority based on the priority of the option part in the INVITE signal, and the result of the analysis. A priority generation unit that generates a priority of the call by referring to the database, and the call based on the priority IP telephone system is characterized in that a transfer unit for transferring the packet. An IP telephone is realized by transferring voice information using VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. Said router in the system,
A receiving unit that receives a packet of a signal according to a call control protocol, an analysis unit that recognizes a call by the received packet signal and analyzes the call when congestion occurs, and a priority is assigned to each caller and callee Data in a table, a table in which a priority is assigned to each combination of a caller and a receiver, and a table in which a priority is assigned to each signal type . The priority is a BYE signal. A database in which data that is given the highest priority and in which the INVITE signal is given priority next, data in a table for determining priority based on the priority of the option part in the INVITE signal, and the database based on the analysis result And a priority generation unit for generating the priority of the call, and a packet of the call based on the priority Router and a transfer unit for feeding. The router according to claim 5, wherein
The analysis unit is configured to perform the call call based on at least one of signal type information of a received packet, number information for identifying a transmission source and a destination, a Call ID, and call urgency information. A router characterized by analyzing. In the router according to claim 5 or 6,
The IP network includes a call control server, another communication device different from the router and the switch,
The other communication device includes at least one of the reception unit, the analysis unit, the priority generation unit, and the transfer unit, and cooperates with another communication device. An IP telephone is realized by transferring voice information using VoIP under an IP network including a call control system including a call control server for establishing voice communication and a transfer system including a router and a switch. In the system, a call control program to be executed by a computer constituting the router,
A process for receiving a packet of a signal according to a call control protocol, a process for recognizing a call by the received packet signal during congestion and analyzing the call, and a caller and a callee based on the analysis result and table data priority is assigned to each, and the data of the table calling and called parties combinations priority for each of the are assigned, in the table the priority for each signal type is assigned, the The priority is determined by referring to a database storing data in which the BYE signal is given the highest priority and the INVITE signal is given the next priority and the table data for determining the priority based on the priority of the option part in the INVITE signal is stored. A process of generating a priority of a call and a process of transferring a packet of the call based on the priority. Call control program to butterflies.

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