JP2004328170A - Cordless internet protocol phone system, and base station control server and base station therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cordless Internet protocol phone system for utilizing an existing communication terminal and an external IP phone network and capable of attaining extension of the system including an optional number of extended communication terminals with a few resources and to provide a base station control server and a base station therefor. <P>SOLUTION: In the cordless Internet protocol phone system, the base station control server 2 and a plurality of base stations 5-1, 5-2,...are connected and an optional number of unit systems 1 comprising the base stations 5-1, 5-2,...and communication terminals connected communicationably are connected to an Internet protocol phone network 8 provided with a SIP server 7. Each of the communication terminals and the base stations 5-1, 5-2,...is provided with a cordless phone communication means, each of the base stations 5-1, 5-2,...and the base station control server 2 is provided with a text transfer communication means working on the Internet protocol, and each of the base stations 5-1, 5-2,...and the SIP server 7 is provided with a standard SIP communication means. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a cordless internet protocol (hereinafter, referred to as “IP”) telephone system, a base station control server (location information server) and a base station therefor.
[0002]
[Prior art]
A conventional telephone system in a building uses a private branch exchange network to perform communication by connecting callers with a dedicated communication line. This conventional system had the problem that it would be difficult to expand it due to restrictions on wiring and other factors.Next, while effectively utilizing the existing infrastructure, it was possible to significantly reduce data communication costs with a small investment and further increase in-house information For this purpose, telephone systems have been proposed in which each telephone is a cordless telephone instead of a wired telephone.
[0003]
FIG. 7 shows a conventional cordless telephone system for voice communication (for example, see Non-Patent Document 1).
[0004]
In this cordless telephone system, a plurality of base stations 32-1 to 32-n, a base station control device 31, and a plurality of line accommodation devices 34-1 to 34-n are connected to a LAN by 10BASE-T.
[0005]
The base station controller 31 corresponds to a PC (Personal Computer) that executes software for performing number registration, call control, maintenance management, and the like of PHS (Personal Handy Phone System) terminals 33-1 to 33-n.
[0006]
The base stations 32-1 to 32-n have a function of relaying the LAN to the PHS terminals 33-1 to 33-n, and can use up to three lines at the same time.
[0007]
The line accommodating devices 34-1 to 34-n are devices for exchanging audio signals between the internal line and the external line of the telephone line, and can connect up to four lines per unit.
[0008]
The maximum registration number is 256 base stations 32-1 to 32-n, 160 line accommodation devices 34-1 to 34-n, and PHS terminals 33-1 to 1 for one base station controller (31). 33-n is 640 units.
[0009]
The call function is basically a PHS-PHS extension call and a PHS-external call.
[0010]
Number registration and call control are performed using a unique protocol.
[0011]
When the system is expanded, it can be easily coped with simply by grounding a plurality of base stations 32-1 to 32-n and line accommodation devices 34-1 to 34-n.
[0012]
The PHS terminals 33-1 to 33-n can be used as long as they are commercially available devices that comply with self-managed standards (ARIB, RCR, STD-28).
[0013]
The “self-employed” refers to the next mode other than PHS (public mode) in accordance with the second generation cordless telephone system standard, the Radio Industries and Businesses Association, RCRSTD-28.
(1) A base station mode for making and receiving calls as a cordless telephone subunit by connecting to a home connection device or main telephone,
(2) Office cordless system mode, which is connected to equipment that supports the office cordless system, and is used as an extension telephone within a company or other premises for external calls or internal calls;
(3) Transceiver mode in which telephones registered with home connection devices, main telephones, and office cordless system compatible devices do not directly communicate with each other without connection devices or main telephones,
(4) A home antenna mode in which the PHS service is stably used indoors by grounding the home antenna indoors in the PHS service area.
[0014]
The PHS used in the system is a simplified communication system that combines a fixed network intelligent network (IN) and a radio access system based on a microcell zone system.
At home, as a cordless telephone handset, at a business office, as a cordless telephone handset connected to a PBX, and outdoors, as a public mobile terminal with a limited service area, a transceiver between handset units registered with the same base unit. It has a feature that can be used as. The air interface is common so that the same cordless telephone can be used in any of the usage modes.
[0015]
On the other hand, an IP telephone system has been put into practical use as a telephone system covering a wider range. Since such packet-based communication systems including the Internet exchange using existing networks and common lines, the cost of capital investment can be significantly reduced, and the communication means are abundantly provided. A system can be easily constructed.
[0016]
For example, in a conventional IP telephone system (for example, see Patent Document 1), an IP network terminal is used as a voice gateway, and a telephone line is configured between the voice gateway and a user telephone.
[0017]
[Non-Patent Document 1] New product information / new technology information FA / Club, "Connecting PHS to LAN. Enables voice communication and 32 kbps high-speed data communication!", [Online], Sumitomo Electric Industries, Ltd., [2003] March 03 search], Internet URL; http: // www. faclub. or. jp / newtech / fan40 / fan40sei. html
[0018]
[Patent Document 1] Japanese Patent Application Laid-Open No. 2000-083065
[0019]
[Problems to be solved by the invention]
Since the IP telephone system using the PHS private mode shown in FIG. 7 is assumed to be used in the same premises, it is necessary to install the base station control device 31 at each site where the base station is used. Further, the base station control device 31 has a call control function and can process only a few hundred speech levels at the same time, so that the addition of communication terminals is limited. That is, since the base station controller 31 has both the registration function and the call control function of the PHS terminals 33-1 to 33-n, it must be provided for each base to be used. There were various restrictions in terms of control and the like.
[0020]
For this reason, expansion of the system is difficult, and it cannot be applied to further development to public services and the like targeting unspecified large numbers. In addition, since the base area under the control of the base station control device is determined, there is a problem that roaming between different bases becomes difficult.
[0021]
SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a cordless IP telephone system that uses an existing communication terminal and an external IP telephone network, and enables expansion of a system including an arbitrary number of additional communication terminals with less resources. An object of the present invention is to provide a base station control server and a base station for that purpose.
[0022]
[Means for Solving the Problems]
Therefore, the present invention employs the following solution in order to achieve the above object.
[0023]
The cordless IP telephone system according to the present invention is based on a unit system in which a base station control server and a plurality of base stations are connected via an IP network, and an arbitrary number of the unit systems are provided with a session initiation protocol (SIP) server. It is configured by connecting to a network.
[0024]
The unit system is configured such that an arbitrary number of base stations capable of communicating with a communication terminal using an existing cordless telephone communication protocol are provided in an IP network, and location information of the communication terminal and the base station is registered and managed by a base station control server. are doing.
[0025]
The parts other than the unit system constituting the cordless IP telephone system are composed of an IP telephone network having a SIP server. The control processes of the base station control server and the SIP server are completely separated.
[0026]
The SIP server has a session processing function (means) and performs session processing (call control) between base stations.
[0027]
The base station control server and the base station are provided with text transfer communication means capable of communicating with a text transfer protocol operating on the Internet protocol, and between the two via an Internet network, such as HTTPS (Hypertext transfer protocol with security protection). The base station control server is shared by an unspecified number of base stations by connecting using a text transfer protocol operating on the Internet protocol.
[0028]
The base station and the PHS terminal (mobile station) are provided with cordless telephone communication means capable of communicating with the existing cordless telephone communication protocol based on the standard, and between the base station and the PHS terminal (mobile station) based on the standard. Connect with the cordless telephone communication protocol.
[0029]
The base station and the SIP server are provided with standard SIP communication means capable of communicating with the standard SIP protocol, and the connection between the base station and the SIP server is made according to a standard SIP process that operates with the standard SIP protocol.
[0030]
Only the base station commonly supports the base station control server and the SIP server.
[0031]
It is characterized in that the common corresponding base station is incorporated into a unit system having a base station control server.
[0032]
Specifically, it is as follows.
(1) In a cordless IP telephone system, a base station control server and a plurality of base stations are connected via an IP network, and an arbitrary number of unit systems provided so as to be able to communicate with the base stations and communication terminals are provided in a session start protocol ( A cordless IP telephone system connected to an IP telephone network having a SIP (SIP) server, wherein the communication terminal and the base station have a cordless telephone communication means, and the base station and the base station control server operate on an Internet protocol. The base station and the Session Initiation Protocol (SIP) server have a standard Session Initiation Protocol (SIP) communication means.
(2) The base station control server is a base station control server used in the cordless IP protocol telephone system according to (1), wherein the base station control server communicates the communication terminal and the base station by an Internet protocol. The location information to be specified is stored as possible, and when there is a request for location registration of the communication terminal from the base station, the location of the corresponding base station is determined based on any location information registered with the location registration. Means for retrieving confirmation information specifying communication by a session initiation protocol (SIP) protocol, notifying a result of the retrieval to a base station, and registering a call state in response to a request from the base station It is characterized by having.
(3) The base station is a base station used in the cordless IP telephone system according to the above (1), wherein the base station specifies position information that specifies a communication terminal and a base station so that they can communicate with each other according to the Internet protocol. And accepts location registration from the communication terminal, requests location registration of the communication terminal from a base station control server, and when a location registration request is received from the communication terminal, accepts the location registration and the location registration. Requests registration to the base station control server, and searches the base station control server for confirmation information for the base station to communicate by a session initiation protocol (SIP) based on any of the location information registered in the location registration. Creating a correspondence table between the confirmation information of the search result and any of the location information registered in the location registration, and Registration of a communication terminal that is accepting location registration with a Tokol (SIP) server is performed, and when an outgoing request is made from the communication terminal, a session participation (Invite) request for a destination is made to a session initiation protocol (SIP) server. And a means for starting a call based on a session participation (Invite) response from a session initiation protocol (SIP) server and registering a call state in the base station control server.
(4) The base station according to (3), wherein at least the session identifier (Call-ID) is registered in the base station control server when the communication state is registered, and the handover destination of the communication terminal is registered. Base station searches for a session identifier (Call-ID) during a call from the base station control server, and uses the search result session identifier (Call-ID) to rejoin a session to a session initiation protocol (SIP) server (Re-ID). (Invite) request, and means for handing over the call based on a session participation (Invite) response from the destination.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0034]
In the embodiments, the communication terminal of the present invention uses a general PHS in a self-service mode, and the session processing (call control) server uses a session initiation protocol (SIP) server.
[0035]
"Session" refers to the communication itself in various communication services. For example, in IP telephony, a session refers to the beginning and end of a voice call.
[0036]
“Session Initiation Protocol (SIP)” is a protocol that handles call signaling and control in a communication service based on IP.
[0037]
The “SIP server” refers to a server in which software for performing a call control process based on the SIP is installed.
[0038]
FIG. 1 is a schematic diagram of a cordless IP telephone system 10 using the PHS private mode according to the present invention. A cordless IP telephone system 10 of the present invention, which is abbreviated by a dotted line in FIG. 1, includes a base station control server 2, a plurality of routers 4-1 and 4-2, and a base station 5-1 via an IP network 3. 5-2, based on a unit system 1 (abbreviated by a dotted line in FIG. 1), and an arbitrary number of the unit systems 1 are connected to a session processing (call signaling and control based on IP) server. It is connected to an IP telephone network 8 having an SIP server 7. IP telephone refers to telephone communication in which voice is added to communication performed according to Internet conventions.
[0039]
The unit system 1 is provided with an arbitrary number of base stations 5-1 to 5-1 capable of communicating with the PHS communication terminal 6 in the private network in the IP network 3, and transmits the position information of the PHS communication terminal 6 and the base station 5-1 to the base station. The registration control is performed by the station control server 2.
[0040]
Portions other than the unit system 1 constituting the cordless IP telephone system 10 of the present invention are configured by an IP telephone network 8 having a SIP server 7. The control processes of the base station control server 2 and the SIP server 7 are completely separated.
[0041]
The SIP server 7 has a session processing function (a function of performing call signaling and control based on IP), and performs session processing between the base stations 5-1 to 5-1.
[0042]
The base station control server 2 and the base stations 5-1 to 5-1 are provided with text transfer communication means capable of communicating by a text transfer protocol operating on the Internet protocol, and connect the base station control server 2 and the base stations 5-1 to an IP network. The base station control server 2 is shared by an unspecified number of base stations 5-1 to 5 by connecting via a text transfer protocol operating on an Internet protocol such as HTTPS via the base station 3.
[0043]
The base stations 5-1 to 5-1 and the PHS communication terminal (mobile station) 6 include cordless telephone communication means capable of communicating with the existing cordless telephone communication protocol. During this period, the connection can be applied in the public mode, but in the embodiment, the connection is made in the private mode. The use of the self-service mode allows ordinary users to own and manage the base station.
[0044]
The base station 5-1 and the SIP server 7 are provided with standard SIP communication means capable of communicating with the standard SIP protocol, and the base station 5-1 and the SIP server 7 are connected in accordance with the standard SIP protocol according to the standard SIP protocol. I do.
[0045]
Although a protocol for the Internet can be applied between the base stations 5-1 to 2-1 and the base station control server 2, communication is performed using the HTTPS protocol in the embodiment. When the HTTPS protocol is used, transmission through a security device such as a firewall can be ensured, so that a communication failure can be avoided.
[0046]
Communication is performed between the base stations 5-1 to 5-1 and the PHS (mobile station) in the self-management mode. The base station 5-1 communicates with the SIP server 7 using the standard SIP protocol. As a result, transmission and reception between a general IP telephone (SIP protocol applied) terminal and a PSTN (analog telephone network) become possible.
[0047]
As described above, the location information management function and the session processing function are provided separately in the base station control server 2 and the SIP server 7, that is, the PHS, the base station, etc., as in the conventional base station controller. Rather than providing both the location information registration function and the call control function of the terminal in one device, the location information registration function of the terminal is provided in the base station control server 2 and the call control function is provided in the SIP server 7. Separately provided, the SIP server 7 is provided in the IP telephone network 8 connecting the general telephone terminal 13 and the IP telephone terminal 15, while the base station control server 2 is provided with each PHS communication terminal 6 and each base station 5 -1 are registered so as to be connectable, and each of the base stations 5-1 to 5-1 is communicably connected to the IP telephone network 8 via the IP network 3. The IP telephone network 8 is divided into two paths, one of which is connected to the router 14 via an ADSL (Asymmetric Digital Subscriber Line) and an FTTH (Fiber To The Home) line, and is connected to the IP telephone (SIP) terminal 15 from the router 14. The path to be connected and the other are connected to a general telephone terminal 13 via a PSTN (analog telephone network) GW (gateway: equipment and processing for mutually connecting systems and networks having different protocols) 11 and a PSTN network 12. Consists of a route.
[0048]
The protocol configuration of the terminal based on SIP includes SIP for call control, reference to the domain name resolution system, etc. for the existing IP network protocol, packetization for real time transmission protocol (RTP), and transport of the SIP protocol on the terminal, User Datagram Protocol (UDP) support will be required.
[0049]
Elements (software and the like) constituting the SIP are as follows.
(1) Application software called a user agent (UA) (hereinafter, "software" is omitted) is incorporated in a base station serving as a user terminal. The user agent is called a user agent client (UAC) when operating as an initiator of communication using SIP, and communicates with a user agent server (UAS) when operating as a receiver of transmission. Called.
(2) SIP servers that provide various services in SIP include a proxy server (PS: proxy server), a redirect server (RS: address writing server), and a registration server (R: Register).
[0050]
The proxy server provides a proxy server function and issues a message on behalf of another client. At this time, the message from the original client may be interpreted and subjected to appropriate conversion before being sent. This is similar to the function of a proxy when accessing the WWW (World Wide Web).
[0051]
Upon receiving the SIP message, the redirect server rewrites the address therein to a new address and sends it back to the client. The registration server is a server that receives a registration (Register) request from a user agent. The registration server has a function of registering the information in a location server (LS: location information server) to enable a query (inquiry). have. Generally, the registration server is implemented in a proxy server or a redirect server. For this reason, the proxy server and the redirect server including the registration server are collectively referred to as a SIP server.
[0052]
The location server provides location information (host name) of the destination in response to an inquiry from the proxy server or the redirect server. The method of registering and querying user information in the location server uses an existing Internet protocol (RFC: Internet technical standard document) outside the range defined by the SIP standard.
[0053]
The unit system 1 of the present invention connects the base station control server 2 and a plurality of base stations 5-1 through an IP network 3, and connects the base station 5-1 to a communication terminal (for example, a PHS terminal) 6. A system provided so as to be able to communicate, wherein communication is possible between the PHS terminal 6 and the base station 5-1 in the PHS private mode, and communication between the base station 5-1 and the base station control server 2 is performed. It is possible to communicate with the Internet protocol, for example, it is possible to communicate with the hypertext transfer protocol (HTTPS: secure HTTP protocol), and to communicate between the base station 5-1 and the SIP server 7 with the standard SIP protocol. It is possible to connect to an IP telephone network 8 which is an IP network provided with the SIP server 7.
[0054]
The base station control server 2 of the present invention is a base station control server 2 used in an IP telephone system having a plurality of base stations 5-1 to 5-1 capable of communicating with a PHS communication terminal 6 and a SIP server 7. The base station control server 2 stores location information that specifies the base stations 5-1 to 5-1 so that they can communicate with each other according to the Internet protocol, for example, a base station internal ID (CS-ID) of the base stations 5-1 to 5-1 and a communication terminal inside. ID (PS-ID), the IP telephone number of the communication terminal, a correspondence table between the IP telephone number of the communication terminal and the communication terminal internal ID (PS-ID), and the base station internal ID (CS-ID) and the communication terminal internal An ID (PS-ID) correspondence table or the like is stored, and when there is a request for location registration of the PHS terminal 6 from the base stations 5-1 to arbitrarily, any of the location information registered with the location registration, that is, Inside the communication terminal Based on the D (PS-ID), a search is made for confirmation information, such as a user identifier (SIP-ID) and a password, which specifies the base station 5-1 to be communicable according to the SIP protocol. Is provided to the base stations 5-1 to 5-1 to register the call state in response to a request from the base stations 5-1 to 5-1.
[0055]
In addition, the base station control server 2 of the present invention may include at least the SIP session identifier (Call-ID) at the time of registration of the call state, but may register at least the SIP session identifier (Call-ID) and register the communication terminal handover destination. When there is a search request for a session identifier (Call-ID) during a call from the base station 5-2, means for notifying the session identifier (Call-ID) of the search result to the changed base station 5-2 is provided. Prepare.
[0056]
The base station 5-1 of the present invention is a base station used in an IP telephone system having the base station control server 2 and the SIP server 7, and can communicate with the communication terminal 6 and the base station 5-1 by the Internet protocol. Location information, for example, a base station internal ID (CS-ID), a communication terminal ID (PS-ID), and an IP telephone number of the communication terminal. When there is a request, the location registration is accepted, and the location registration is requested from the base station control server 2, and any location information registered in the location registration, for example, a communication terminal internal ID (PS-ID) In the base station control server 2 based on the above, confirmation information for the base stations 5-1 to 5-1 to communicate by the SIP protocol, for example, a user identifier (SIP-ID) and a password. Search for words and the like, and create a correspondence table of the confirmation information of the search result, that is, a user identifier (SIP-ID) and a password and the position information, that is, a communication terminal internal ID (PS-ID); The communication terminal 6 that has received the location registration is registered (Registration) with the SIP server 7, and when there is a call request from the PHS terminal 6, a session participation (Invite) request for the destination is made to the SIP server 7, and the SIP server 7 And a means for starting a call based on a session participation (Invite) response from the base station 7 and registering a call state in the base station control server 2.
[0057]
The base stations 5-1 to 5-1 of the present invention may include at least the session identifier (Call-ID) in the base station control server 2 at the time of registering the call state, but the PHS The base station 5-2, which is the handover destination of the terminal 6, searches for a session identifier (Call-ID) during a call from the base station control server 2, and uses the session identifier (Call-ID) of the search result to the SIP server 7. Means are provided for making a re-session participation (Re-Invite) request and handing over the call based on a session participation (Invite) response from the destination.
[0058]
(Example)
A series of processes such as initial registration, terminal location registration, outgoing call, incoming call, and handover in the system of the present invention will be described below in this order. Each step (procedure) is illustrated and described, and further, step S will be described with a subscript n added as a step number.
[0059]
(Initial registration)
FIG. 2 is an explanatory diagram for explaining an initial registration process in the IP telephone system using the PHS private mode according to the present invention.
(1) Step S1:
In the case of a new subscription, a user connects to a base station control server via a WEB interface from a personal computer 16 or a portable telephone (not shown) connected to the IP network 3 via a router 4 or the like, and owns a base station. And the IP phone number, user identifier (SIP-ID) and password information paid out by the IP phone service company or the like. In this case, a plurality of IP telephone numbers, user identifiers (SIP-IDs), and password information can be registered for the same base station serial number. If it is desired to limit the roaming area, the serial number of the base station constituting the roaming area is registered. In this case, the serial number of its own base station is also registered as a roaming area. (Step S1).
(2) Step S2:
Next, the user uses the PHS terminal 6 to input the following items (a) to (d) to the base station 5. (Step S2-1).
(A) Command for starting registration. For example, the command is “* 111”.
(B) The serial number of the base station 5. (Number for identifying the base station).
(C) PHS (IP phone number used by terminal 6;
(D) Registration end command. For example, the command is “* 112”.
[0060]
Based on the communication in step S2-1, the base station 5 reads the internal ID (PS-ID) of the terminal 6, and based on the registration information in step S2-1, the base station 5 sends the following items to the base station control server 2 ( e) to (h) are automatically registered. (Step S2-2). (E) Registration of serial number of base station 5 (to confirm consistency with step S1)
(F) Registration of base station 5 internal ID (CS-ID)
(G) IP phone number registration
(H) Registration of PHS communication terminal (mobile station) 6 internal ID (PS-ID)
Further, the base station control server 2 stores the following items (i) and (j). (Step S2-3).
(I) Correlation registration of PHS terminal 6 internal ID (PS-ID), user identifier (SIP-ID) and password using IP telephone number as a key
(J) Correlation registration between base station 5 internal ID (CS-ID) and roaming area using the serial number of the base station as a key
(Terminal location registration)
FIG. 3 is an explanatory diagram for explaining the location registration processing of the terminal in the IP telephone system using the PHS private mode of the present invention. After the display of each step Sn, the communication mode or protocol used in () is displayed.
(3) Step S1 (PHS self-employed mode):
First, the PHS terminal 6 uses the internal ID (PS-ID) of the terminal and the internal ID (CS-ID) of the base station 5 to perform location registration with a plurality of base stations 5-1 to 5-1 in a wireless coverage area. . (Step S1-1). This procedure is the second generation cordless telephone system standard. It is defined by the Radio Industry Association, RCR STD-28, etc., and is an established technology.
(4) Step S2 (HTTPS (secure HTTP protocol)):
The base stations 5-1 to -1 register the position of the PHS communication terminal 6 with the base station control server 2 via the IP network 3. Specifically, the internal ID (CS-ID) of the base station 5 and the internal ID (PS-ID) of the PHS communication terminal 6 are transmitted to the base station control server 2 and registered. (Step S2-1).
[0061]
Further, using the internal ID (PS-ID) of the PHS communication terminal 6 as a search key, an IP telephone number, a user identifier (SIP-ID) and a password correlated with the PHS communication terminal 6 are searched and stored. (Step S2-2).
The communication procedure is carried out by a standard method of the Internet such as HTTPS, but the base station control server is not limited to the premises, but is shared by the base station at any place connected by the Internet. And different.
(5) Step S3 (SIP):
The base stations 5-1 to 5-1 perform registration (Registration) with the SIP server 7 using the user identifier (SIP-ID) and the password correlated with the PHS communication terminal 6. (Step S3-1).
[0062]
This procedure is specified in IETF RFC3261 or the like.
[0063]
The base stations 5-1 to 5-1 register (Registration) with the SIP server 7 as many as the number of PHS terminals 6 that have received location registration. When one PHS terminal 6 simultaneously performs location registration with a plurality of base stations 5-1, registration (Registration) is performed using the same number of user identifiers (SIP-IDs) and passwords. Registration is performed using the IP addresses of the base stations 5-1 to 5-1.
[0064]
Based on the RCR STD-28, the base stations 5-1 to 5-1 always notify position information, and the PHS terminal 6 stores the position information. When receiving the position information different from the stored position information from the base stations 5-1 to, the PHS terminal 6 issues a position registration request to the base stations 5-1 to 5-1. The base stations 5-1 to 5-1 requested to perform the location registration update the location registration of the PHS terminal 6 to the base station control server 2, search the IP telephone number, the user identifier (SIP-ID) and the password, and perform the SIP. Registration (Registration) with the server 7 is performed.
[0065]
(Outgoing)
Next, the transmission process will be described.
[0066]
FIG. 4 is an explanatory diagram for explaining a calling process in the IP telephone system using the PHS private mode according to the present invention. After the display of each step Sn, the communication mode or protocol used in () is displayed.
(6) Step S1 (PHS self-employed mode):
First, the PHS terminal 6 follows the PHS private mode (second generation cordless telephone system standard. Conforms to the Radio Industries Association, RCR STD-28) and the terminal internal ID (PS-ID) and the base station internal ID (CS-ID). ), A call request is issued to the base station 5-2 selected from the plurality of base stations 5-1 to 5-1 whose location has been registered. (Step S1-1).
[0067]
The base station 5-2 communicates with the SIP server (step S2), responds to the call to the PHS terminal 6 based on the session participation (Invite) response from the SIP server 7, and starts talking. (Step S1-2).
[0068]
The end of the call is also executed according to the procedure of the PHS private mode.
(7) Step S2 (SIP):
Based on the transmission request from the PHS terminal 6, the base station 5-2 uses the user identifier (SIP-ID) and the password correlated with the PHS terminal 6 (PS-ID) to send a session participation (Invite) request for the destination to the SIP. Send it to server 7.
[0069]
(Step S2-1).
[0070]
A call is started based on a session participation (Invite) response from the SIP server 7. (Step S2-2).
[0071]
Along with the end of the call from the PHS terminal 6, a session end (Bye) request is transmitted to the SIP server 7. When the other party ends the call first, a session end (Bye) request is received from the SIP server 7, but a response to the SIP server 7 is made based on the end call response with the PHS terminal 6 (step S1) (step S2). -3).
[0072]
The communication so far follows the SIP protocol.
(8) Step S3 (HTTPS):
The base station 5-2 registers, in the base station control server 2, the start of the call, the registration of the call termination, the outgoing or incoming call, and the registration of the session identifier (Call-ID) each time a state occurs, for example, every time a call is started. Register according to the procedure. Therefore, step S3 includes a mode in which the order of the procedures is different.
[0073]
(Incoming)
Next, an incoming call method will be described. FIG. 5 is an explanatory diagram for explaining an incoming call process in the IP telephone system using the PHS private mode according to the present invention. After the display of each step Sn, the communication mode or protocol used in () is displayed.
(9) Step S1 (SIP):
The SIP server 7 simultaneously transmits a session participation (Invite) request to all the base stations 5-1 to 5-1 that have registered (Registration) the destination SIP-ID. (Step S1-1).
[0074]
The base station 5-2 selected by the PHS terminal 6 in the standby state performs communication with the PHS terminal 6 (step S2), and returns a session participation (Invite) response to the SIP server based on the incoming call response from the PHS terminal 6. Make a call. (Step S1-2).
[0075]
This prevents a call disconnection due to the PHS terminal 6 moving to another base station area while performing the tracking connection, and the PHS terminal 6 has a good state among the radio waves received from the plurality of base stations 5-1 to 5-1. It allows you to select and send things.
[0076]
With the end of the call from the PHS terminal 6, the base stations 5-1 to 5-1 transmit a session end (Bye) request to the SIP server 7. When the other party ends the call first, a session end (Bye) request is received from the SIP server 7, but the session end responds to the SIP server 7 based on a call end response with the PHS terminal 6 (step S <b> 2). (Step S1-3).
[0077]
The communication so far follows the SIP protocol.
(10) Step S2 (PHS self-employed mode):
Based on the session participation (Invite) request from the SIP server 7, the base station 5-2 and the internal ID (PS-ID) of the terminal correlated with the user identifier (SIP-ID) in the session participation (Invite) request message Using the internal ID (CS-ID) of the base station, an incoming call request is made to the PHS terminal 6 in the PHS private mode. (Step S2-1).
[0078]
The PHS terminal 6 responds to the incoming call request to the base station 5-2. (Step S2-2)
The end of the call is also executed according to the procedure of the PHS private mode.
[0079]
(11) Step S3 (HTTPS):
The base station 5-2 uses the HTTPS procedure in the base station control server 2 to start a call, register a call, register a call or call, and register a session identifier (Call-ID) each time a state occurs, for example, every time a call starts. , Register according to the HTTPS procedure. Therefore, step S3 includes a mode in which the order of the procedures is different.
[0080]
(Handover)
Next, a handover method will be described.
[0081]
FIG. 6 is an explanatory diagram illustrating a handover process in the IP telephone system using the PHS private mode according to the present invention. After the display of each step Sn, the communication mode or protocol used in () is displayed.
[0082]
“Handover” is a function of switching base stations as the user moves without making the user aware. That is, when the PHS terminal 6 senses the deterioration of the radio wave condition, it issues a handover request to switch the radio channel to the other base stations 5-1 to 5-1. Upon receiving the request, the base stations 5-1 to scrutinize resources (such as empty channels) and respond to the PHS terminal 6. If switching is possible, the channel is switched to the corresponding base station 5-1 to 5-1.
As a result, the number of base stations 5-1 to 5-1 can be increased, the number of users who can use the stations at the same time can be increased, and a call while moving can be made possible.
(12) Step S1 (PHS self-employed mode):
First, the PHS terminal 6 uses the internal ID of the terminal (PS-ID) and the internal ID of the base station (CS-ID) in accordance with the second generation cordless telephone system standard, Radio Industry Association RCR STD-28. Then, a handover request is made to the nearest base station 5-1 in accordance with the PHS private mode. (Step S1-1).
The base station 5-1 performs communication with the SIP server (step S3), and responds to the PHS terminal 6 based on the re-session participation (Re-Invite) response from the SIP server 7, and the handover is established. (Step S1-2).
(13) Step S2 (HTTPS):
The handover destination base station 5-1 searches the base station control server 2 for a session identifier (Call-ID) during a call using the internal ID (PS-ID) of the PHS terminal 6 as a key. This communication is performed according to HTTPS.
(14) Step S3 (SIP):
The handover destination base station 5-1 to the destination uses the session identifier (Call-ID) of the search result (step S2), the user identifier (SIP-ID) correlated with the PHS terminal 6 (PS-ID), and the password to the destination. A re-session participation (Re-Invite) request is transmitted to the SIP server 7. (Step S3-1).
[0083]
The RTP transmission destination is switched based on the re-session participation (Re-Invite) response from the destination, and the handover is established. (Step S3-2). The communication so far is performed according to the SIP protocol.
[0084]
(roaming)
For example, when the owner of each PHS terminal 6 owns the base station 5-1, roaming enables communication within the area of the base station 5-1 of another owner.
[0085]
When the roaming area is registered in the initial registration, the PHS terminal 6 initially registered via the base station 5-1 can be used in each base station 5-1 registered in the roaming area. In addition, the base station 5-1 is released to the owner of the base station 5-1 registered in the roaming area, and is initially registered via each base station 5-1 registered in the roaming area. The PHS terminal 6 becomes available. The roaming control method is such that, at the time of location registration, the base station 5-1 to the base station control server 2 uses the internal ID (PS-ID) of the PHS terminal 6 as a search key to generate an IP telephone correlated with the PHS terminal 6. A search request is made for a number, a user identifier (SIP-ID) and a password. At this time, the search range in the base station control server 2 is set to the PHS initially registered via the base stations 5-1 to 5-1 registered in the roaming area. Control is possible by restricting to the terminal 6 (PS-ID).
[0086]
When it is not desired to roam the base stations 5-1 to -1, it is possible to register only the serial numbers of the base stations 5-1 to 5-1 in the roaming area. In this case, the PHS terminal 6 initially registered through the base station 5-1 cannot be used in the other base stations 5-1 to 5-1.
[0087]
If the roaming area is not registered in the initial registration, the base station 5-1 is opened to all the base stations 5-1 to owners who have not registered the roaming area, and the roaming area is not registered. All PHS terminals 6 initially registered via all the base stations 5-1 to 5-1 can be used. In this case, the PHS terminal 6 initially registered via the base station 5-1 can be used in all the base stations 5-1 to which the roaming area is not registered.
[0088]
In the above embodiments, a simple configuration has been described. However, as long as the present invention has a basic solution, each component can be increased or decreased. For example, the number of base stations and base station control servers and the number of IP networks including them can be changed. Also, the number of IP telephone networks including the SIP server and the form of the networks can be changed.
[0089]
【The invention's effect】
The cordless IP telephone system of the present invention is based on a unit system in which a base station control server and a plurality of base stations are connected via an IP network, and is configured by connecting an arbitrary number of the unit systems to an IP network having a SIP server. Therefore, the unit system and the IP telephone network having the SIP server can be formed separately, and both can be increased or decreased, so that the system can be flexibly configured.
[0090]
Since the unit system is provided with an arbitrary number of base stations capable of communicating with the communication terminal in the private network in the IP network and configured to register and manage the position information of the communication terminal and the base station by a base station control server, The registered position information of the base station involved in the communication can be managed by the unit system itself.
[0091]
Since the parts other than the unit system constituting the cordless IP telephone system are composed of the IP telephone network having the SIP server, the control processes of the base station control server and the SIP server can be completely separated.
[0092]
The SIP server has a session processing function, and can perform session processing between all base stations including base stations in a unit system.
[0093]
By connecting the base station control server and the base station via an Internet network using an Internet protocol such as HTTPS, the base station control server is shared by an unspecified number of base stations.
[0094]
Since the base station and the communication terminal (PHS terminal) are connected in the self-management mode, there is no need for the communication terminal to be able to perform processing using the Internet protocol, and the device is easy to use.
[0095]
Since the connection between the base station and the SIP server is performed according to the SIP standard process, session processing is easy.
[0096]
Since only the base station supports the base station control server and the SIP server in common, the connection of the SIP server can be easily performed only by considering only the base station.
[0097]
Since the common corresponding base station is incorporated in a unit system having a base station control server, it is possible to immediately communicate by directly connecting to the SIP server.
[0098]
Since the control processes of the base station control server and the SIP server are completely separated, and the connection with the SIP server is made according to the standard SIP process, the connection can be made seamlessly with an external IP telephone system based on SIP.
[0099]
Since the session processing can be performed by an external IP telephone system according to the SIP standard process, it is possible to develop advanced and diverse IP telephone services without limitation.
[0100]
By sharing the base station control server with all users, it is possible to use the IP telephone service even if it is not in the same premises. In addition, a handover during a call can be realized between all base stations, and there is also an effect that user convenience is significantly increased.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of an IP telephone system using a PHS private mode according to the present invention.
FIG. 2 is an explanatory diagram illustrating an initial registration process in an IP telephone system using the PHS private mode according to the present invention.
FIG. 3 is an explanatory diagram illustrating a terminal location registration process in an IP telephone system using the PHS private mode according to the present invention.
FIG. 4 is an explanatory diagram illustrating a calling process in an IP telephone system using the PHS private mode according to the present invention.
FIG. 5 is an explanatory diagram illustrating an incoming call process in an IP telephone system using the PHS private mode of the present invention.
FIG. 6 is an explanatory diagram illustrating a handover process in the IP telephone system using the PHS private mode according to the present invention.
FIG. 7 is a schematic diagram of a conventional cordless telephone system for voice communication.
[Explanation of symbols]
1 credit system
2 Base station control server
3 IP (Internet Protocol) network
4,4-1,4-2,9 router
5,5-1,5-2 Base station
6 PHS terminal
7 SIP server
8 IP telephone network
10 Cordless Internet Protocol Telephone System
11 PSTN GW
12 PSTN
13 general telephone terminals
14 Router
15 IP telephone (SIP) terminals
16 Personal computer

Claims (4)

Any number of unit systems that connect a base station control server and a plurality of base stations via an Internet protocol network and are capable of communicating with the base stations and communication terminals are provided on the Internet provided with a Session Initiation Protocol (SIP) server. A cordless Internet protocol telephone system connected to a protocol telephone network, wherein said communication terminal and said base station comprise cordless telephone communication means, and said base station and said base station control server are text transfer communication means operating on an Internet protocol. Wherein the base station and the Session Initiation Protocol (SIP) server comprise a standard Session Initiation Protocol (SIP) communication means. 2. A base station control server used in the cordless Internet protocol telephone system according to claim 1, wherein the base station control server specifies position information that specifies the communication terminal and the base station so that they can communicate with each other according to the Internet protocol. When the base station requests the location registration of the communication terminal from the base station, the communication is performed by a session start protocol (SIP) of the corresponding base station based on any location information registered along with the location registration. A base for searching for confirmation information to specify the base station, notifying the result of the search to the base station, and registering a call state in response to a request from the base station. Station control server. 2. A base station used in the cordless Internet protocol telephone system according to claim 1, wherein the base station stores position information that specifies the communication terminal and the base station so that they can communicate with each other according to an Internet protocol. Along with receiving the position registration from the communication terminal, requesting the base station control server for the position registration of the communication terminal, and when receiving a position registration request from the communication terminal, receiving the position registration and performing the position registration. Requests the base station control server and searches the base station control server for confirmation information for the base station to communicate by the session initiation protocol (SIP) based on any of the location information registered in the location registration. And a pair of the confirmation information of the search result and any of the location information registered in the location registration. A table is created, and a registration (Registration) of the communication terminal accepting the location registration is performed with the session initiation protocol (SIP) server. Means for performing a call to a session start protocol (SIP) server, starting a call based on a session participation (Invite) response from the session start protocol (SIP) server, and registering a call state to the base station control server. Base station to be characterized. At the time of registering the call state, at least a session identifier (Call-ID) is registered in the base station control server, and the session identifier (Call-ID) during which the communication terminal handover destination base station is talking is controlled by the base station. A search is performed from the server, a re-invite request is made to the session initiation protocol (SIP) server using the session identifier (Call-ID) of the search result, and based on the session participation (Invite) response from the destination, 4. The base station according to claim 3, further comprising means for handing over a call.

Images