JP2005136844A - SIP TELEPHONE SET AND VoIP SYSTEM USING THE SAME - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an SIP (Session Initiation Protocol) telephone set which can shorten the period of time taken for a call control and can make a telephone call, even when communication with a proxy server cannot be conducted. <P>SOLUTION: The VoIP (Voice over Internet Protocol) system 10 is provided with SIP telephones 18 to 22; an NAT 17 which connects the SIP telephones 18 to 22 to the Internet network 13; first and second proxy servers 14, 15 connected to the Internet network 13; and an emergency gateway 23 which connects the SIP telephones 18 to 22 to a public telephone network 16. When the call is established, the SIP telephones 18 to 22 transmit requests, in order of the first and second proxy servers, and when the communication cannot be conducted with both proxy servers, establish the call by transmitting the requests to the emergency gateway 23 and shorten the timeout time for response, by arbitrarily setting timers built in the SIP telephones 18 to 22. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an electronic device having a removable memory security function.

  Currently, a VoIP (Voice over Internet Protocol) system (see Non-Patent Document 1), a so-called Internet telephone, is becoming widespread. As a typical call control protocol of this VoIP system, there is SIP (Session Initiation Protocol).

  SIP is based on the Internet specification. For example, a URI (Universal Resource Identifier) can be used in addition to a telephone number to specify a partner, and a call-response exchange is similar to a request-response type similar to Web access. It makes good use of existing Internet technology. When calling the other party, the confirmation work is performed only between the SIP telephone and the SIP server.

  FIG. 3 is a block diagram showing a configuration of a conventional VoIP system. The VoIP system 100 is one of SIP servers that provide various services to the in-house LANs 110 and 120, the Internet network 130 that connects the in-house LANs 110 and 120, and the in-house LANs 110 and 120. The first and second proxy servers 140 and 150 are configured.

  The internal LAN 110 includes a NAT (Network Address Translation) 170 connected to the Internet network 130 and SIP telephones A180 to E220 connected to the NAT 170. Similarly, the internal LAN 120 includes a NAT 240 and SIP telephones F250 to SIP. And a telephone J290.

The call establishment procedure uses a method similar to DNS (domain name system) common in the Internet. For example, when making a call from the SIP telephone A180 to the SIP telephone F250, first, the SIP telephone A180 sends an “INVITE” message to the first or second proxy server 140, 150 to request connection with the SIP telephone F250. The first or second proxy server 140, 150 sends an “INVITE” message to the SIP telephone F250. In response, SIP telephone F250 returns a “200 OK” message, and SIP telephone A180 responds with an ACK (acknowledgement) for this message.
Nikkei NETWORK (2002.6 p.51-p.69)

  In the establishment of the above call, the SIP phone A180 first tries to connect to the proxy server connected last time. Here, when some trouble occurs in the communication path and communication with the proxy server connected last time is impossible, communication with the other proxy server is attempted. If there is a failure in the NAT 170 or the like, it is impossible to communicate with both the proxy servers 140 and 150, so that a call cannot be made.

  The timeout of the INVITE transaction to each proxy server is defined as 32 seconds in RFC3261. Therefore, if there is no response from one proxy server and communication is made with Fail over to the next proxy server, it takes 32 to 64 seconds, which is inconvenient for a telephone set for daily use.

  An object of the present invention is to provide a SIP telephone that can reduce the time required for call control and can make a call even when communication with a proxy server is not possible. It is another object of the present invention to provide a SIP telephone that can preferentially select a communication path that can reduce a call charge. It is another object of the present invention to provide a VoIP system using these SIP telephones.

  In order to achieve the above object, the present invention provides one or more SIP telephones, a NAT connecting the SIP telephone and the Internet network, a plurality of proxy servers connected to the Internet network, the SIP telephone and the public telephone network. VoIP system including one or more emergency gateways that connect to each other, and when establishing a call, the SIP telephone transmits a request in the order of a predetermined proxy server, and cannot communicate with all proxy servers In this case, the requests are transmitted in the order of predetermined emergency gateways.

  With this configuration, even when communication with the proxy server is impossible due to some failure, a call can be made from the emergency gateway to the other party via the public telephone network. Further, by setting the priority order of communication lines to be used in the order of the Internet network and the public telephone network, the call charge can be reduced.

  In the above VoIP system, the SIP telephone has a timer in which a response waiting time from each proxy server and gateway is set, and a setting value of the timer can be arbitrarily set.

  With this configuration, the time required for call control can be reduced by setting the timer value to be shorter than that of RFC3261.

  In the above VoIP system, after transmitting a request to a predetermined emergency gateway that cannot communicate with all the proxy servers, the request is transmitted in the order of the predetermined proxy servers when the next request is transmitted. If communication with the proxy server is not possible, the requests are transmitted in the order of predetermined emergency gateways.

  With this configuration, communication with the proxy server can be restored even with SIP that is not notified of restoration of communication with the proxy server.

  Further, the present invention is a SIP telephone connected to a plurality of proxy servers via NAT and the Internet network and connected to the public telephone network via one or more emergency gateways when establishing a call The requests are transmitted in the order of a predetermined proxy server, and when communication is not possible with all proxy servers, the requests are transmitted in the order of a predetermined emergency gateway.

  Thus, the present invention can be realized by providing an emergency gateway in the conventional system and changing the setting of the SIP telephone.

  The SIP telephone set described above preferably has a timer for setting a response waiting time from each proxy server and gateway, and the setting value of the timer can be arbitrarily set.

  In the above SIP phone, after transmitting a request to a predetermined emergency gateway that cannot communicate with all the proxy servers, the request is transmitted in the order of the predetermined proxy servers when the next request is transmitted. When communication with the proxy server is not possible, it is desirable to send the requests in the order of predetermined emergency gateways.

  According to the present invention, by providing an emergency gateway, a call can be made even if the SIP telephone cannot communicate with the proxy server. In SIP, the restoration of communication with the proxy server is not notified, but the communication with the proxy server is restored without this notification. Also, by setting the SIP telephone timer short, the time required for call control can be shortened. Furthermore, by setting the communication line selection order in the order of the Internet network and the public telephone network, it is possible to preferentially select a communication path that can reduce the call charge.

  FIG. 1 is a block diagram showing the configuration of the VoIP system of the present invention. The VoIP system 10 is one of SIP servers that provide various services to the in-house LANs 11 and 12, the in-house LANs 11 and 12, such as the relationship between the head office and the branch, the Internet network 13 that connects the in-house LANs 11 and 12, The first and second proxy servers 14 and 15 and a public telephone network 16 for connecting the company LANs 11 and 12 are configured.

  For example, a VPN (Virtual Private Network) can be used between the in-house LANs 11 and 12.

  The in-house LAN 11 includes a NAT 17 connected to the Internet network 13, a SIP telephone a18 to a SIP telephone e22 connected to the NAT 17, and an emergency gateway 23 that connects the SIP telephone a18 to the SIP telephone e22 and the public telephone network. Similarly, the in-house LAN 12 includes a NAT 24, a SIP telephone f25 to a SIP telephone j29, and an emergency gateway 30.

  The NAT 17 can be supported by a router, firewall software, or the like.

  Each of the SIP telephones a18 to j29 has a timer in which a response waiting time from the first or second proxy server 14, 15 or the emergency gateway 23, 30 is set. It can be set.

  The call establishment procedure uses a technique similar to DNS, which is common on the Internet. For example, when making a call from the SIP telephone a18 to the SIP telephone f25, first, the SIP telephone a18 sends an “INVITE” message to the first proxy server 14 to request connection with the SIP telephone f25. The first proxy server 14 sends an “INVITE” message to the SIP telephone f25. If the SIP telephone f25 returns a “200 OK” message and the SIP telephone a18 responds with an ACK to the message, the telephone call starts. If there is no failure in the communication path, the call is immediately started in this way.

  In the case of an outside line call that is not a SIP telephone, the SIP telephone a18 is connected to the other party via the emergency gateway 23 and the public telephone network 16.

  When a failure occurs in the NAT 17 or the like, a call from the SIP telephone a18 to the SIP telephone f25 can be performed via the emergency gateway 23, the public telephone network 16, and the emergency gateway 30. Hereinafter, call control for performing such a connection will be described.

  FIG. 2 is a flowchart showing control at the time of outgoing call of the SIP telephone. For example, when making a call from the SIP telephone a18 to the SIP telephone f25, in step S10, the SIP telephone a18 transmits a request to the first proxy server 14, and proceeds to step S11 to start a timer set in advance for a predetermined time. . The set value of the timer is preferably 3 to 7 seconds, and most preferably 5 seconds.

  Next, it progresses to step S12 and the presence or absence of the response from the 1st proxy server 14 is discriminate | determined. If there is a response in step S12, the process proceeds to step S23 to establish a call. On the other hand, if there is no response in step S12, the process proceeds to step S13 to determine whether or not the timer has timed out. If the time-out has not yet occurred in step S13, the process returns to step S12 to confirm the presence of a response again. On the other hand, if a time-out occurs in step S13, it is determined that there is a failure with the first proxy server 14 and communication is not possible, and the process proceeds to step S14.

  In step S14, the SIP telephone a18 transmits a request to the second proxy server 15, proceeds to step S15, and starts the timer again.

  Next, it progresses to step S16 and the presence or absence of the response from the 2nd proxy server 15 is discriminate | determined. If there is a response in step S16, the process proceeds to step S23 to establish a call. On the other hand, if there is no response in step S16, the process proceeds to step S17 to determine whether or not the timer has timed out. If time-out has not yet occurred in step S17, the process returns to step S16 to confirm the presence / absence of a response again. On the other hand, when a time-out occurs in step S17, it is determined that there is a failure with the second proxy server 15 and communication is not possible, and the process proceeds to step S18.

  In step S18, the SIP telephone a18 transmits a request to the emergency gateway 23, and proceeds to step S19 to start the timer again.

  Next, it progresses to step S20 and the presence or absence of the response from the emergency gateway 23 is discriminate | determined. If there is a response in step S20, the process proceeds to step S23 to establish a call. On the other hand, if there is no response in step S20, the process proceeds to step S21 to determine whether or not the timer has timed out. If the time-out has not yet occurred in step S21, the process returns to step S20 to confirm the presence / absence of a response again. On the other hand, if a time-out occurs in step S21, it is determined that there is a failure with the emergency gateway 23 and communication is not possible, and the process proceeds to step S22 to end the call control. That is, it becomes impossible to make a call.

  In this way, when there is no response when a request is sent to the proxy server in call control, Fail over to the next proxy server, and if no response is finally received from any proxy server, By establishing a call by sending a request to the private gateway, a call can be made via the public telephone network 16 even when a call via the Internet network 13 is impossible.

  Further, the time required for call control can be shortened by using an arbitrarily short timer value without using the INVITE transaction timeout value defined as 32 seconds in RFC3261. For example, if the timer value is set to 5 seconds in the above embodiment, the longest time required to establish a call is 15 seconds, and the conventional 64 seconds can be greatly shortened.

  When there is no response from the proxy server, even if the failure is recovered in SIP, the recovery notification is not transmitted to the SIP telephone. Therefore, the next time the SIP telephone a18 makes a call to any of the SIP telephones f25 to j29, the procedure shown in FIG. 2 is followed. In other words, call control between SIP telephones always sends requests in the order of the first proxy server 14, the second proxy server 15, and the emergency gateway 23. Usually, calls using the Internet network 13 are cheaper than calls using the public telephone network 16. Thereby, it is set to preferentially select a communication path that can reduce the call charge.

  Three or more proxy servers may be provided, and two or more emergency gateways may be provided. Thereby, the probability that a call cannot be made due to a failure in the communication path can be further reduced.

  The present invention can be used for a SIP telephone using the SIP protocol, which is one of VoIP systems, and its communication system.

It is a block diagram which shows the structure of the VoIP system of this invention. It is a flowchart which shows the control at the time of the transmission of the SIP telephone of this invention. It is a block diagram which shows the structure of the conventional VoIP system.

Explanation of symbols

10 VoIP system 11, 12 In-house LAN
13 Internet Network 14 First Proxy Server 15 Second Proxy Server 16 Public Telephone Network 17, 24 NAT
18-22, 25-29 SIP telephone 23, 30 Emergency gateway

Claims (6)

One or more SIP telephones, a NAT connecting the SIP telephone and the Internet network, a plurality of proxy servers connected to the Internet network, and one or more emergency gateways connecting the SIP telephone and the public telephone network; A VoIP system comprising:
When establishing a call:
The SIP phone transmits a request in the order of a predetermined proxy server, and when it cannot communicate with all the proxy servers, it transmits the request in the order of a predetermined emergency gateway. The VoIP system according to claim 1, wherein the SIP telephone has a timer in which a waiting time for responses from the proxy servers and the gateway is set, and a setting value of the timer can be arbitrarily set. The SIP telephone cannot communicate with all proxy servers, and transmits a request to a predetermined emergency gateway, and then transmits a request in the order of the predetermined proxy server when transmitting a next request. 2. The VoIP system according to claim 1, wherein, when communication with the server is impossible, the requests are transmitted in the order of a predetermined emergency gateway. A SIP telephone connected to a plurality of proxy servers via NAT and the Internet network and connected to a public telephone network via one of one or more emergency gateways,
When establishing a call:
A SIP telephone which transmits requests in the order of a predetermined proxy server and transmits requests in the order of a predetermined emergency gateway when communication with all proxy servers is impossible. 5. The SIP telephone set according to claim 4, further comprising a timer for setting a response waiting time from each of the proxy servers and the gateway, wherein a set value of the timer can be arbitrarily set. If you cannot communicate with all proxy servers, you can not communicate with all proxy servers even if you send a request to a predetermined emergency gateway and then send the next request after sending a request to a predetermined emergency gateway. The SIP telephone set according to claim 4, wherein the requests are transmitted in the order of predetermined emergency gateways.

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