JP2007251612A - Ip telephone exchange, and method for roaming between ip telephone exchanges - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform roaming between exchanges without installing a digital interface (a common channel signal system), etc. , between stations. <P>SOLUTION: The IP telephone exchange includes: a communication control part for transmitting/receiving a packet via the Internet; a protocol control part connected to the communication control part and transmits/receives the call control signal of a protocol to be used in the Internet from the communication control part so as to perform analysis or control; a call control part connected to the protocol control part, transmits/receives the call control signals from a mobile terminal and the protocol control part so as to perform control; a mobile terminal base station control part connected to the call control part and a mobile terminal base station, transmits/receives the call control signal from the mobile terminal base station so as to perform analysis or control, and transmits the call control signal to the call control part; and a roaming data management part having mobile terminal information belonging to another exchange existing in its own range. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a roaming method between IP (Internet Protocol) telephone exchanges, and more particularly, to a telephone exchange function using SIP (Session Initiation Protocol) as a VoIP (Voice over Internet Protocol) call control protocol on an IP network. It is suitable for application to a roaming supplementary service between provided call control servers.

  Conventionally, PBX (Private Branch eXchange) and IP telephone exchange servers are disclosed in TTC (The Telecommunication Technology Committee) Standard JJ-20.60 Private Comprehensive Service (PBX Roaming Additional Service) The communication system between the stations (between each exchange) is realized by a digital interface between PBXs (common channel type signal system).

  FIG. 8 shows a system for providing inter-PBX roaming supplementary service in a conventional PBX. An inter-PBX digital interface (common channel type signaling system) is provided between the PBXs, and an inter-PBX roaming supplementary service is realized when a PHS (Personal Handyphone System) accommodated in the PBX 8 moves to the PBX 9.

  Specifically, when the extension PHS3 of the Tokyo base moves to the Yokohama base (1), the PHS position information is exchanged between the PBX 8 and the PBX 9 via the digital interface (common channel type signal system) between the PBXs (2). . As a result, PBX8 recognizes that extension PHS3 (extension number: 5000) is located in PBX9, and PBX9 has PBX8 extension PHS (extension number: 5000) located in its own station. (3). When the extension PHS (extension number: 5000) is called from the extension accommodated in the PBX 8, the PHS is tracked via the inter-PBX digital interface (common channel type signaling system) based on the extension PHS information of the PBX 8. The PHS (extension number: 5000) located in the PBX 9 can be called (4).

FIG. 9 shows a system configuration for providing an inter-PBX roaming supplementary service between IP telephone exchange servers. In this system, when the extension PHS of the Tokyo base moves to the base of Yokohama (1), between the IP compatible remote line unit 10 managed by the IP telephone exchange server 1 and the IP compatible remote line unit 11 managed by the IP telephone exchange server 2. The PHS position information is exchanged via the PBX digital interface (common channel type signal system) (2). As a result, the IP telephone exchange server 1 recognizes that the extension PHS (extension number: 5000) is located in the IP telephone exchange server 2, and the IP telephone exchange server 2 Recognize that the extension PHS (extension number: 5000) is located in the local station (3). When the extension PHS (extension number: 5000) is called from the extension accommodated in the IP telephone exchange server 1, a digital interface (common channel type signaling system) is set based on the extension PHS information of the IP telephone exchange server 1. The PHS (extension number: 5000) located in the IP telephone exchange server 2 can be called after chasing the PHS (4).
TTC Standard JJ-20.60 Private Comprehensive Service Network (PBX Roaming Additional Service)-PBX Signaling Protocol Specification TTC standard JT-Q931-a PBX digital interface (common channel signaling)-layer 3 specification RFC3261 Session Initiation Protocol (SIP)

  However, in order to realize the inter-PBX roaming supplementary service by the conventional method, there is a problem that it is indispensable to provide an inter-PBX digital interface (common channel signaling) between stations.

  In order to solve this problem, the present invention provides a communication control unit that transmits and receives packets via the Internet, and a protocol that is connected to the communication control unit and that transmits and receives call control signals of protocols used on the Internet from the communication control unit. Connected to the protocol control unit for analyzing or controlling the mobile station and the protocol control unit, connected to the call control unit for transmitting and receiving call control signals from the mobile terminal and the protocol control unit, and connected to the call control unit and the mobile terminal base station, Roaming with mobile terminal base station control unit that transmits / receives call control signal from mobile terminal base station, analyzes or controls, and transmits call control signal to call control unit, and mobile terminal information belonging to other exchanges within its own area And a data management unit.

  Further, in a roaming method between IP telephone exchanges connected via the Internet, when a mobile terminal located in the first IP telephone exchange moves into the area of the second IP telephone exchange, the first IP telephone exchange And the second IP telephone exchange exchange the location information of the mobile terminal via the Internet. The first IP telephone exchange has the second IP telephone exchange that the mobile terminal is located in the second IP telephone exchange. The IP telephone exchange recognizes that the mobile terminal is within its own area, and makes a call using the location information when the telephone terminal accommodated in the first IP telephone exchange makes a call to the mobile terminal. Is.

  According to the present invention, it is possible to realize a roaming supplementary service without providing a special information transmission means between exchanges.

  Embodiments of the roaming method between IP telephone exchanges according to the present invention will be described below with reference to the drawings.

(1) Configuration of Embodiment FIG. 1 is a diagram showing a system configuration of an embodiment, which includes an IP telephone exchange server 1/2, a PHS 3, a telephone terminal 4, a VoIP network 5, and a PHS base station 6/7.
FIG. 2 is a diagram showing the internal configuration of the IP telephone exchange servers 1 and 2. The IP telephone exchange server 1 includes a roaming data management unit 101, a call control unit 102, a SIP control unit 103, and an IP communication control unit 104.

  The roaming data management unit 101 has a roaming information database and accumulates HLR (home location register) information. The HLR information is data in which information on the destination is recorded at the home station (IP telephone exchange server 1) at the time of roaming (location) registration, the station number of the visitor station (IP telephone exchange server 2), the extension of the PHS to be moved Number, authentication information, other extension subscriber information, temporary extension number assigned by the visitor station, and the like. When there is an incoming call to the roaming PHS, the home station automatically transfers the PHS information to the visitor station based on the HLR information.

  The call control unit 102 transmits and receives a layer 4 call control signal from the SIP control unit 103 and controls it.

The SIP control unit 103 transmits, receives, analyzes and controls the SIP call control signal from the IP communication control unit 104. In the present embodiment, in particular, in the SIP protocol, information related to roaming between IP telephone exchange servers using the fact that a non-standard data field can be added by using an extended parameter starting with text-based “X”. To be notified. Specifically, as shown below, roaming information is set in the extended parameter.
Roaming calling number information: X-Roaming-Cgpn
Roaming called number information: X-Roaming-Cdpn
Roaming facility information: X-Roaming-Facility

  The IP communication control unit 104 transmits / receives an IP packet via the VoIP network 5 and transfers the signal to the SIP control unit 103 when the signal is a SIP signal.

  The IP telephone exchange server 2 includes a roaming data management unit 201, a call control unit 202, a SIP control unit 203, an IP communication control unit 204, and a PHS base station control unit 205.

  The roaming data management unit 201 has a roaming information database and accumulates VLR (visitor location register) information. VLR is data assigned by a visitor station at the time of roaming (position) registration. For example, the station number, extension number, authentication key, etc. of the home station are included.

  The call control unit 202 transmits and receives layer 4 call control signals from the PHS base station control unit 205 and the SIP control unit 203 and controls them.

  The SIP control unit 203 transmits, analyzes, and controls the SIP call control signal from the IP communication control unit 204. Similar to the SIP control unit 203, in the SIP protocol, information related to roaming between IP telephone exchange servers using the fact that a non-standard data field can be added by using an extended parameter starting with text-based “X”. To be notified.

  The IP communication control unit 204 transmits and receives IP packets via the VoIP network 5, and when the signal is a SIP signal, transfers the signal to the SIP control unit 203.

  The PHS base station control unit 205 transmits, analyzes, and controls a PHS call control signal from the PHS base station.

(2) Operation of Embodiment Hereinafter, the operation of the roaming method between IP telephone exchanges of the embodiment will be described with reference to FIGS.

  FIG. 3 is a diagram showing an outline of the operation of the inter-PBX roaming supplementary service realized by the IP telephone exchange server.

  First, the extension PHS3 of the Tokyo office moves to the Yokohama office (1), and the PHS location information is communicated using SIP as the VoIP call control protocol on the IP network between the IP telephone exchange server 1 and the IP telephone exchange server 2. Are exchanged (2). As a result of (2), the IP telephone exchange server 1 recognizes that the extension PHS: 5000 is located in the IP telephone exchange server 2 (HLR information), and the IP telephone exchange server 2 recognizes that the IP telephone exchange server 1 Extension PHS: Recognize that the number 5000 is located in the local station (VLR information) (3). When the extension PHS: 5000 is called from the extension accommodated in the IP telephone exchange server 1, the IP telephone exchange server 2 follows the PHS via communication using SIP as the VoIP call control protocol based on the HLR information. You can call PHS: 5000 number in the area.

Next, the standard function of the roaming operation of this embodiment will be described.
The standard functions of the roaming operation include roaming location registration, roaming incoming call, roaming end and roaming information inquiry.
In the roaming location registration, “INVITE”, “200 OK”, and “INFO” are used in the SIP protocol message. When a location registration is received from a mobile PHS that is not accommodated by its own station (such as PBX), it requests authentication information and the like from the station that accommodates this PHS. As a result, the station that accommodates the corresponding PHS recognizes that this PHS is roaming to another station and retains information on the station. In addition, the station that has received the location registration recognizes that the other station PHS is roaming, and holds information on the station that accommodates the PHS and the PHS.

  FIG. 4 is a diagram showing an example of the exchange of SIP messages when making a call from the IP telephone exchange server 2 among the IP telephone exchange server 1, the IP telephone exchange server 2, and the base station 7 / mobile PHS 3. In the roaming location registration of the present embodiment, the process (A) when sending the INVITE message from the IP telephone exchange server 2 to the IP telephone exchange server 1, and the process when sending the 200 OK message from the IP telephone exchange server 1 to the IP telephone exchange server 2 The process (B) and the process (C) when sending an INFO message from the telephone exchange server 2 to the IP telephone exchange server 1 are characterized.

  In the process (A), when the IP telephone exchange server 2 receives the location registration request by the SETUP message from the other station PHS, the IP telephone exchange server 2 gives a “roaming start request” to the extension parameter “X” parameter of the INVITE message, and this PHS The IP telephone exchange server 1 that manages As extended parameters, roaming calling number information: X-Roaming-Cgpn, roaming called number information: X-Roaming-Cdpn, and roaming facility information: X-Roaming-Facility are used.

  In the process (B), the IP telephone exchange server 1 that has received the “roaming start request” returns a message in which the “roaming start response” is added to the extended parameter “X” parameter of the 200 OK message to the IP telephone exchange server 2. As the extension parameter, roaming facility information: X-Roaming-Facility is used.

  In the process (C), the IP telephone exchange server 2 that has received the “roaming start response” returns a message in which “location registration request” is added to the extended parameter “X” parameter of the INFO message to the IP telephone exchange server 1. As the extension parameter, roaming facility information: X-Roaming-Facility is used.

  In the roaming incoming call, when the INPITE and “200 OK” are used in the SIP protocol message and the incoming PHS is received by the station (such as PBX) that accommodates the PHS being roamed, the PHS is in the service area. Chasing the incoming station The information on the mobile PHS held by the PHS accommodating station or the station in the area is information at the time of roaming location registration.

  FIG. 5 is a diagram showing an example of the exchange of SIP messages when making a call from the IP telephone exchange server 1 among the IP telephone exchange server 1, the IP telephone exchange server 2, and the base station 7 / mobile PHS 3. In the roaming incoming call of this embodiment, the process (D) associated with the transmission of the INVITE message from the IP telephone exchange server 1 to the IP telephone exchange server 2 and the process of the IP telephone exchange server 2 that has received the INVITE message from the IP telephone exchange server 1 ( E).

  In the process (D), the extension terminal accommodated in the IP telephone exchange server 1 makes a call to the roaming PHS. Then, since the corresponding PHS is located in the IP telephone exchange server 2, the IP telephone exchange server 1 uses the SIP protocol line to give the INVITE message the extension parameter “X” with the parameter “Roaming incoming” and make a call. To do. As extended parameters, roaming calling number information: X-Roaming-Cgpn, roaming called number information: X-Roaming-Cdpn, and roaming facility information: X-Roaming-Facility are used.

  In the process (E), the IP telephone exchange server 2 receives an incoming call to the PHS located in its own station if the INVITE message includes the extended parameter “X” parameter and the parameter indicating “roaming incoming call” is included. Recognize that there is, and make the incoming call to the corresponding PHS. Thereafter, roaming incoming call processing is performed.

  At the end of roaming, if “INVITE” is used in the SIP protocol message and the roaming PHS moves again and moves from the station where it was located (such as PBX), the station that accommodates this PHS is located. The station that has been informed that the corresponding PHS is gone.

  FIG. 6 is a diagram showing an example of the exchange of SIP messages when making a call from the IP telephone exchange server 1 between the IP telephone exchange server 1 and the IP telephone exchange server 2. At the end of roaming in the present embodiment, the process (F) associated with the transmission of the INVITE message from the IP telephone exchange server 1 to the IP telephone exchange server 2 and the process of the IP telephone exchange server 2 that has received the INVITE message from the IP telephone exchange server 1 ( G).

  In the process (F), the IP telephone exchange server 1 confirms that the PHS accommodated in the local station is roaming to another station and confirms that the PHS from the other station is roaming to the local station. An “information inquiry request” is assigned to the extended parameter “X” parameter of the INVITE message and notified. As extended parameters, roaming calling number information: X-Roaming-Cgpn, roaming called number information: X-Roaming-Cdpn, and roaming facility information: X-Roaming-Facility are used.

  In the process (G), when there is “completion of roaming” in the extension parameter “X” parameter of the INVITE message, a process of deleting information that the corresponding PHS is roaming to the own station is performed.

  In the roaming information inquiry, “INVITE” and “200 OK” are used in the SIP protocol message, and roaming is performed between the station where the PHS is accommodated (such as PBX) and the station where the moved PHS is located. Inquires about PHS information.

  FIG. 7 is a diagram showing an example of the exchange of SIP messages when making a call from the IP telephone exchange server 1 between the IP telephone exchange server 1 and the IP telephone exchange server 2. In the roaming information inquiry of this embodiment, the process (H) associated with the transmission of the INVITE message from the IP telephone exchange server 1 to the IP telephone exchange server 2 and the process (I) when the 200 OK message is transmitted from the IP telephone exchange server 2 Has characteristics.

  In the process (H), the IP telephone exchange server 1 confirms that the PHS accommodated in the local station is roaming to another station and confirms that the PHS from the other station is roaming to the local station. An “information inquiry request” is assigned to the extended parameter “X” parameter of the INVITE message and notified. As extended parameters, roaming calling number information: X-Roaming-Cgpn, roaming called number information: X-Roaming-Cdpn, and roaming facility information: X-Roaming-Facility are used.

  In process (I), when there is an “information inquiry request” in the extension parameter “X” parameter of the INVITE message, the roaming information of the local station and the other station is checked, and “information” is set in the extension parameter “X” parameter of the 200 OK message. Inquiry response "is notified as a result. As the extension parameter, roaming facility information: X-Roaming-Facility is used.

  In the above embodiment, the example applied to the IP telephone exchange server has been described. However, the present invention is applicable to any apparatus that implements SIP in a VoIP call control protocol such as IP-PBX.

(3) Effect of Embodiment According to the embodiment described above, the IP compatible remote line unit and the digital interface between PBXs are transferred by transferring the inter-PBX roaming information using the X parameter which is an extension parameter of the SIP message. An inter-PBX roaming supplementary service can be realized by using SIP as a VoIP call control protocol without providing a common channel type signaling system).

It is a block diagram which shows the structure of the system of embodiment. It is a block diagram which shows the detailed structure of the IP telephone exchange server of embodiment. It is a figure explaining the outline of the roaming operation | movement of the system of embodiment. It is a flowchart which shows the process sequence of the roaming position registration of embodiment. It is a flowchart which shows the process sequence of the roaming incoming call of embodiment. It is a flowchart which shows the process sequence of the end of roaming of embodiment. It is a flowchart which shows the process sequence of the roaming information inquiry of embodiment. It is a block diagram which shows the system configuration | structure in the case of performing the conventional roaming supplementary service between PBX between PBXs. It is a block diagram which shows the system configuration | structure when performing the conventional inter-PBX roaming supplementary service between IP telephone exchange servers.

Explanation of symbols

  1/2 ... IP telephone exchange server, 3 ... PHS, 4 ... phone terminal, 5 ... VoIP network, 6/7 ... base station.

Claims (5)

A communication control unit that transmits and receives packets via the Internet;
A protocol control unit connected to the communication control unit for transmitting / receiving a call control signal of a protocol used on the Internet from the communication control unit, and analyzing or controlling;
A call control unit connected to the protocol control unit for transmitting and receiving call control signals from the mobile terminal and the protocol control unit;
A mobile terminal base station controller connected to the call control unit and the mobile terminal base station, transmitting / receiving and analyzing or controlling a call control signal from the mobile terminal base station, and transmitting the call control signal to the call control unit; ,
An IP telephone exchange comprising: a roaming data management unit having mobile terminal information belonging to another exchange existing in its own area.   2. The IP telephone exchange according to claim 1, wherein a protocol used in the Internet is a SIP protocol.   3. The IP telephone exchange according to claim 2, wherein the protocol control unit further transmits / receives roaming information between IP telephone exchanges using extended parameters of the SIP protocol. In a roaming method between IP telephone exchanges connected via the Internet,
When the mobile terminal located in the first IP telephone exchange moves into the area of the second IP telephone exchange, the movement between the first IP telephone exchange and the second IP telephone exchange via the Internet Exchange device location information,
The first IP telephone exchange recognizes that the mobile terminal is in the second IP telephone exchange and that the second IP telephone exchange is in the area of the mobile terminal. And
A roaming method between IP telephone exchanges, wherein a telephone terminal accommodated in the first IP telephone exchange makes a call using the location information when making a call to the mobile terminal.   5. The IP telephone exchange according to claim 4, wherein the exchange of the location information is transmitted / received using an extension parameter of a SIP protocol.

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