JP2004222156A - Telephone system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a telephone call using a VoIP standard protocol between respective terminals in a telephone system realizing a VoIP telephone using a radio terminal. <P>SOLUTION: This telephone system for performing the telephone call between a radio terminal (106) and an IP terminal (111) using the VoIP standard protocol has a base station (105) for the radio terminal (106) for using the VoIP standard protocol to perform call control with the IP terminal (111), a standard protocol server (210) for using the VoIP standard protocol to mediate call control between the base station (105) and the IP terminal (111), and independent protocol servers (220 and 223) for using an independent protocol to manage the radio terminal (106) with the base station (105). <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a telephone system that realizes a VoIP (Voice over Internet Protocol) telephone using a wireless terminal such as a PHS.
[0002]
[Prior art]
As a protocol conversion device for realizing a VoIP telephone with respect to an existing LAN connection type telephone system, a VoIP gateway that converts between a protocol of an analog network and VoIP (for example, H.323 protocol) is known. Then, the LAN connection type telephone systems are connected to each other by a data communication network such as a digital leased line, and a VoIP gateway is installed therebetween, thereby enabling a VoIP call between an IP (Internet Protocol) terminal and an IP terminal.
[0003]
On the other hand, the present inventor has proposed a technique for realizing a VoIP telephone for a LAN connection type telephone system using a wireless terminal such as a PHS (Personal Handyphone System) (see Patent Document 1). .
[0004]
FIG. 12 shows a configuration example of a LAN connection type telephone system using a wireless terminal proposed by the present inventors. Base stations 105a and 105b are arranged on a LAN of a telephone system to accommodate wireless telephone terminals 106a and 106b such as PHSs. A VoIP gateway 120, a line controller 109, a gatekeeper 113, and the like are connected on the same segment of the wireless LAN system. Registration and call control of each of the wireless telephone terminals 106a and 106b are performed by the line controller 109. Also, in order to perform location registration and handover of the wireless telephone terminals 106a and 106b, a unique protocol dedicated to the wireless LAN telephone system is used. Therefore, the VoIP gateway 120 is configured to mutually convert a protocol between a unique protocol and a standard VoIP protocol (for example, the H.323 protocol).
[0005]
The VoIP gateway 120 operates as a virtual base station or an outside line terminal for the LAN connection type private branch exchange system, and processes the IP terminals 111a and 111b on the same system as a virtual wireless telephone device. Therefore, the LAN connection type private branch exchange system can process the IP terminals 111a and 111b in the same manner as the wireless telephone terminals 106a and 106b.
[0006]
The VoIP gateway 120 transmits a call setting request of a unique protocol from the line controller 109, and conversely, the In response to a call setting request from a H.323-compatible terminal, the destination H.323 communication with a H.323-compatible terminal Call control is performed by the H.323 protocol, and a control channel and a logical channel are opened. Further, the VoIP gateway 120 converts the compression method of the voice data transmitted from the base station 105a (105b) if necessary, adds an RTP header, and adds the RTP header. 323 compatible terminal. Conversely, H. It processes the RTP header of the audio data sent from the H.323 compatible terminal, extracts the audio data, converts the compression method as necessary, and sends it to the base station 105a (105b).
[0007]
[Patent Document 1]
JP 2001-156051 A
[0008]
[Problems to be solved by the invention]
In the telephone system described in Patent Literature 1, when a call is made with the wireless telephone terminals 106a and 106b using the VoIP gateway 120, all calls with a terminal that supports the VoIP standard protocol are made via the VoIP gateway 120. Because of the necessity, the number of terminals that can talk at the same time is limited. Therefore, it is not possible to sufficiently cope with a call by an IP terminal device or an application program using a standard protocol which is expected to increase in the future.
[0009]
The present invention has been made in view of the above-described situation, and in a telephone system for realizing a VoIP telephone using a wireless terminal, a call using a standard protocol of VoIP can be performed between the terminals. The purpose is to provide a telephone system.
[0010]
[Means for Solving the Problems]
A telephone system according to the present invention is a telephone system for making a call between a wireless terminal and an IP terminal using a VoIP standard protocol, and (a) performing call control between the wireless terminal and the IP terminal using a VoIP standard protocol. A base station of a wireless terminal, (b) a standard protocol server that mediates call control between the base station and the IP terminal using a VoIP standard protocol, and (c) a wireless communication using a unique protocol between the base station. It has a unique protocol server for managing terminals.
[0011]
That is, a standard protocol such as SIP (Session Initiation Protocol) is mounted on each base station of the wireless terminal, and call control is performed between the base station and the IP terminal using a VoIP standard protocol with a standard protocol server (eg, SIP server) as an intermediary. By performing the above, the communication is directly performed between the base station and the IP terminal using the VoIP standard protocol. In addition, various settings and management of wireless terminals that are not supported by the VoIP standard protocol are performed between a unique protocol server (for example, a wireless unit management server and a handover management server) and a base station using the unique protocol.
[0012]
Further, in the telephone system, the base station makes a request for authentication of the wireless terminal to a unique protocol server in response to a position registration request from the wireless terminal, and transmits the user name or telephone number of the wireless terminal acquired from the unique protocol server. It is characterized in that the location of the wireless terminal is registered in a standard protocol server by using the terminal.
[0013]
Thereby, in the above telephone system, even when the wireless terminal moves from the base station to another base station, the position registration of the wireless terminal can be automatically performed.
[0014]
Also, in the above telephone system, when the wireless terminal switches base stations during a call, the unique protocol server causes the source base station and the destination base station to exchange transfer destination information with each other, The base station transfers the call data from the IP terminal to the destination base station based on the exchanged destination address information, the destination base station transmits the transferred call data to the wireless terminal, and the destination base station exchanges the call data. The communication data from the wireless terminal is transferred to the source base station based on the transfer destination address information, and the source base station transmits the transferred call data to the IP terminal.
[0015]
Thereby, in the telephone system, it is possible to cope with a handover in which a wireless terminal switches a base station during a call.
[0016]
Furthermore, in the above telephone system, (d) a public line for connecting a call with a general telephone via a public line network and performing call control using a VoIP standard protocol with a base station via a standard protocol server. Characterized by having a gateway for use.
[0017]
As a result, in the above-described telephone system, a general telephone and a wireless terminal connected via a public network can make and receive calls.
[0018]
Further, in the above-mentioned telephone system, the above-mentioned public line gateway obtains the telephone number of another wireless terminal from a proprietary protocol server when there is no response after a lapse of a predetermined time when receiving a call from a general telephone. It is characterized by making a call.
[0019]
Thereby, in the telephone system, it is possible to support office telephone functions such as dial-in and individual incoming call.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. It should be noted that the same or equivalent parts and components are denoted by the same or equivalent reference symbols throughout the drawings, and the description thereof will be omitted or simplified.
[0021]
[First Embodiment]
"Telephone system configuration"
FIG. 1 is a schematic block diagram illustrating a configuration example of a telephone system 100a that performs a call between a wireless terminal and an IP terminal using a VoIP standard protocol in the first embodiment.
[0022]
On the same segment of the telephone system 100a, base stations 250a and 250b that support SIP, which is a standard protocol of VoIP, a standard protocol server (SIP server) 210a, and a unique protocol server (wireless unit information management server 220 and handover management) The server 230) is connected to the SIP gateway 240 and the like.
[0023]
The telephone system 100a is connected to wireless terminals 106a and 106b such as PHS via base stations 250a and 250b, and a PBX (Private Branch Exchange) 103 and general telephones 104a and 104b are connected via a SIP gateway 240. ing. Further, a router 112a is connected to the telephone system 100a, and is connected to another telephone system 100b via a data communication network such as a digital private line 114 or the like.
[0024]
The base stations 250a and 250b perform call control using the SIP call control protocol with the IP terminals 111a and 111b (111c and 111d) such as SIP-compatible IP telephones via the SIP server 210a (210b). . Each base station 250a, 250b operates as a normal SIP terminal for the SIP server 210a (210b). The SIP server 210a is a standard protocol server that mediates call control between the base stations 250a and 250b and the IP terminals 111a and 111b using a VoIP standard protocol such as SIP.
[0025]
Further, the base stations 250a and 250b perform processing that is not supported by the VoIP standard protocol, such as various settings and management of the wireless terminals 106a and 106b, with a unique protocol server (the wireless unit information management server 220 and the handover management server 230). Using a proprietary protocol. Specifically, the base stations 250a and 250b communicate with the radio unit information management server 220 using a unique protocol, set the radio part, and perform the system registration and position registration of the radio terminals 106a and 106b. , 106b and authentication. At the time of handover, the base stations 250a and 250b communicate with the handover management server 230 using a unique protocol to implement handover.
[0026]
`` Base station configuration ''
FIG. 2 is a schematic block diagram illustrating the functional configuration of the base station 250a.
[0027]
The base station 250a includes a radio unit 251a, a SIP processing unit 252a, a unique protocol processing unit 253a, a call control conversion processing unit 254a, a voice conversion processing unit 255a, a voice transfer processing unit 256a, and the like.
[0028]
The wireless unit 251a makes a connection between the base station 250a and the wireless terminal 106a, and the SIP processing unit 252a makes a SIP connection between the SIP compatible IP terminals 111a and 111b and the base station 250a via the SIP server 210a. The unique protocol processing unit 253a connects the base station 250a to the wireless unit information management server 220 and the handover management server 230 using a unique protocol. The call control conversion processing unit 254a performs protocol conversion and relay of each message. The voice conversion processing unit 255a performs voice protocol conversion such as RTP header processing and compression method conversion, and changes transmission timing. The voice transfer processing unit 256a is used for transmitting / receiving voice to / from another base station (for example, the voice transfer processing unit 256b of the base station 250b) at the time of handover.
[0029]
In order for the wireless terminal 106a to connect to the base station 250a, it is necessary to set the wireless part of the base station 250a. Further, a registration operation is required to make the wireless terminal 106a usable in the telephone system 100a. At this time, the base station 250a performs various settings by communicating with the wireless unit information management server 220 using a unique protocol without using the SIP protocol.
[0030]
"Location registration sequence"
As shown in FIG. 3, the wireless terminal 106a issues a location registration request to a base station (for example, the base station 250a) having the strongest radio wave in order to register its own location in the SIP server 210a when the power is turned on (see FIG. 3). S1). Radio section 251a of base station 250a receives the location registration request from radio terminal 106a and transfers it to call control conversion processing section 254a. The call control conversion processing unit 254a issues an authentication request to the wireless unit information management server 220 via the unique protocol processing unit 253a (S2).
[0031]
The wireless unit information management server 220 confirms whether the wireless terminal 106a requested for authentication is a usable terminal that can be used, and sends the telephone number or the user name of the wireless terminal 106a to the base station 250a (S3). .
[0032]
The unique protocol processing unit 253a of the base station 250a transfers the telephone number or user name of the wireless terminal 106a sent from the wireless unit information management server 220 to the call control conversion processing unit 254a. The call control conversion processing unit 254a sends a location registration response to the wireless terminal 106a via the wireless unit 251a (S4), and also uses the telephone number or the user name for the SIP-URL via the SIP processing unit 252a for the SIP-URL. The location is registered with the server 210a (S5).
[0033]
In this way, even if the owner of the wireless terminal 106a moves from one place to another, the location can be automatically registered.
[0034]
"Calling and receiving sequence"
FIG. 4 shows an example of a sequence when a call is transmitted from the wireless terminal 106a to the IP terminal 111a that supports SIP.
[0035]
First, when the wireless terminal 106a makes a call, the wireless unit 251a of the base station 250a receives the call setting request and transfers it to the call control conversion processing unit 254a (S11). The call control conversion processing unit 254a makes an INVITE request using the VoIP standard protocol to the SIP server 210a via the SIP processing unit 252a (S12), and responds to the wireless terminal 106a via the wireless unit 251a. (S14) / acceptance (S14) / call (S14) signal is sent. The SIP server 210a relays the INVITE request from the base station 250a to the destination IP terminal 111a using the VoIP standard protocol (S13).
[0036]
When the destination IP terminal 111a responds (S17), the SIP server 210a relays the response signal from the IP terminal 111a to the base station 250a using the VoIP standard protocol (S18). Then, the base station 250a sends a response signal to the wireless terminal 106a (S19), and sends an acknowledgment to the destination IP terminal 111a via the SIP server 210a (S20) (S21).
[0037]
FIG. 5 shows an example of a sequence when a call is transmitted from the SIP-compatible IP terminal 111a to the wireless terminal 106a.
[0038]
First, when the calling IP terminal 111a makes a call (S31), the SIP server 210a relays the INVITE request from the IP terminal 111a to the base station 250a using the VoIP standard protocol (S32). The SIP processing unit 252a of the base station 250a receiving the INVITE request transfers the SIP control unit 252a to the call control conversion processing unit 254a, and the call control conversion processing unit 254a sends an incoming call signal to the wireless terminal 106a of the other party via the wireless unit 251a ( S33).
[0039]
The wireless terminal 106a sends a reception (S34) / call (S35) / response (S36) signal for the incoming call to the base station 250a. The call control conversion processing unit 254a of the base station 250a sends a response signal using the VoIP standard protocol to the SIP server 210a via the SIP processing unit 252a (S37), and the SIP server 210a transmits the response signal from the base station 250a. The response signal is relayed to the source IP terminal 111a using the VoIP standard protocol (S38). Then, the source IP terminal 111a sends an affirmative response to the destination base station 250a via the SIP server 210a (S39) (S40).
[0040]
As described above, the base station 250a can directly communicate with the SIP-compatible IP terminal 111a via the SIP server 210a. Note that a voice protocol between the wireless terminal 106a and the base station 250a is, for example, G.264. In the 726 protocol, a voice protocol between the base station 250a and the IP terminal 111a via the SIP server 210a is, for example, IP / UDP / RTP / G. A call is made using the 711 protocol.
[0041]
"Sequence at the time of handover"
FIG. 6 shows a sequence example at the time of handover when the wireless terminal 106a switches the base station 250a during a call to another base station 250b.
[0042]
The source base station 250a notifies the telephone number and the source IP address / port of the wireless terminal 106a that performs handover to the SIP server 210a via the SIP processing unit 252a (S41), and the SIP server 210a The telephone number of 106a and the source IP address / port are registered. The destination base station 250b notifies the SIP number of the wireless terminal 106a and the destination IP address / port to the SIP server 210a (S42). The SIP server 210a searches for the telephone number of the wireless terminal 106a and registers the destination IP address and port.
[0043]
When the source and destination IP address and port are set, the SIP server 210a notifies the source base station 250a of the telephone number and the destination IP address and port (S43), and further, the telephone number and the destination. The source IP address / port is notified to the destination base station 250b (S44).
[0044]
The source base station 250a processes the voice data from the IP terminal 111a in the voice conversion processing unit 255a (such as processing of an RTP header), and transmits the voice data from the voice transfer processing unit 256a to the destination base station 250b. Send. Then, the destination base station 250b sends the received voice data to the wireless terminal 106a. Conversely, the destination base station 250b transmits voice data from the PHS to the source base station 250a, and the source base station 250a processes the received voice data in the voice conversion processing unit 255a (RTP header). Is transmitted to the IP terminal 111a.
[0045]
As a result, the call can be continued even when the wireless terminal 106a moves between the base stations 250a and 250b.
[0046]
As described above, in the LAN connection type telephone system accommodating the wireless terminals 106a and 106b, the standard protocol can be used for the communication between the terminals as described in detail in the first embodiment. In addition, since each terminal directly communicates with the IP terminals 111a and 111b supporting other standard protocols without using a gateway, it is possible to process many calls and shorten the response time and voice delay time of call control. it can. In addition, various devices and applications corresponding to the standard protocol can be used as they are, and the system can be improved in function and reduced in price.
[0047]
[Second embodiment]
In the second embodiment, in the telephone system shown in the first embodiment, the telephone system supports calling / incoming calls with a general telephone via a public network, and furthermore, can respond to dial-in and individual incoming call response. The system will be described in detail.
[0048]
"Telephone system configuration"
FIG. 7 is a schematic block diagram showing a configuration example of a LAN connection type telephone system 100c using the wireless terminals 106a and 106b in the second embodiment.
[0049]
On the same segment of the telephone system 100a, base stations 250a and 250b that support SIP, which is a VoIP standard protocol, a standard protocol server (SIP server) 210a, and a unique protocol server (the radio unit information management server 220 and the handover management server 230) , A SIP-compliant gateway 260 and the like are connected.
[0050]
The telephone system 100a is connected to wireless terminals 106a and 106b such as PHS via base stations 250a and 250b, and the PBX 103 and general telephones 104a and 104b are connected via a gateway 260. The gateway 260 connects to the general telephones 104c and 104d via the public network 101.
[0051]
"Gateway Configuration"
FIG. 8 is a schematic block diagram illustrating a functional configuration of the gateway 260.
[0052]
The gateway 260 includes a public line interface unit 261, a SIP processing unit 262, a unique protocol processing unit 263, a call control conversion processing unit 264, a voice conversion processing unit 265, and the like.
[0053]
The public line interface unit 261 connects to the general telephones 104c and 104da via the public network 101, and the SIP processing unit 262 performs SIP connection between the SIP server 210a and the gateway 260. The unique protocol processing unit 263 performs connection between the gateway 260 and the wireless unit information management server 220 using a unique protocol. The call control conversion processing unit 264 performs a protocol conversion between a standard protocol of SIP of each message and a unique protocol, and relays each message. The voice conversion processing unit 265 performs conversion of a voice protocol (for example, RTP header processing, conversion of a compression method, and the like), change of transmission timing, and the like.
[0054]
"Calling and receiving sequence"
FIG. 9 shows an example of a sequence when a call is transmitted from the wireless terminal 106a to the general telephone 104c via the public network 101.
[0055]
First, when the wireless terminal 106a makes a call, the wireless unit 251a of the base station 250a receives the call setting request and transfers it to the call control conversion processing unit 254a (S51). The call control conversion processing unit 254a makes an INVITE request to the SIP server 210a from the SIP processing unit 252a using the VoIP standard protocol using the input telephone number as a user name (S52), and via the wireless unit 251a. A response (S55) / acceptance (S56) / call (S57) signal is sent to the wireless terminal 106a.
[0056]
The SIP server 210a relays the INVITE request from the base station 250a to the gateway 260 using the VoIP standard protocol (S53), and the gateway 260 calls the general telephone 104c via the public network 101 (S54).
[0057]
When the other party's general telephone 104c answers (S58), the gateway 260 sends a response signal to the SIP server 210a (S59), and the SIP server 210a relays the response signal to the base station 250a (S60). Then, the base station 250a sends a response signal to the wireless terminal 106a (S61), and sends an acknowledgment to the gateway 260 via the SIP server 210a (S62) (S63).
[0058]
FIG. 10 shows an example of a sequence when the wireless terminal 106a responds to an incoming call from the general telephone set 104c.
[0059]
The incoming call of the general telephone 104c is received by the gateway 260 (S71).
[0060]
If there is an extension designation signal from the network in the dial-in service, the designated extension number is used as a user name and an INVITE request is transmitted to the SIP server 210a using the VoIP standard protocol (S74).
[0061]
Alternatively, if there is no extension designation signal from the network by the dial-in service, the gateway 260 sends the incoming call information to the wireless unit information management server 220 (S72) and changes the preset extension number of the wireless terminal 106a. It receives the extension from the wireless unit information management server 220 (S73), and transmits an INVITE request to the SIP server 210a using the received extension number as a user name using the VoIP standard protocol (S74).
[0062]
The SIP server 210a transmits an INVITE request using the VoIP standard protocol to the base station 250a registered with the wireless terminal 106a of the designated extension number (S75), and the base station 250a transmits the wireless terminal of the designated extension number. Call is made to 106a (S76).
[0063]
The wireless terminal 106a sends a reception (S77) / call (S78) / response (S79) signal for the incoming call to the base station 250a. The base station 250a sends a response signal to the SIP server 210a (S80), and the SIP server 210a relays the response signal from the base station 250a to the gateway 260 (S81). The gateway 260 sends a response signal to the general telephone set 104c via the public network 101 (S82). Then, the gateway 260 sends an acknowledgment to the base station 250a via the SIP server 210a (S83) (S84).
[0064]
As described above, the wireless terminal 106a can communicate with the general telephone 104c via the public network 101. Note that a voice protocol between the wireless terminal 106a and the base station 250a is, for example, G.264. In the 726 protocol, a voice protocol between the base station 250a and the IP terminal 111a via the SIP server 210a is, for example, IP / UDP / RTP / G. According to the G.711 protocol, a call is made between the gateway 260 and the general telephone set 104c according to a voice communication protocol of a general subscriber line network.
[0065]
FIG. 11 shows an example of a sequence in a case where the wireless terminal 106a does not respond to an incoming call from the general telephone 104c.
[0066]
When registering the wireless terminal 106a so that it can be used in the telephone system 100a, the group number of the wireless terminal 106a is set and registered in advance in the wireless unit information management server 220 using a unique protocol.
[0067]
The gateway 260 receives the incoming call from the general telephone set 104c (S91), and sends the incoming call information to the wireless unit information management server 220 (S92). Then, the gateway 260 receives the preset extension number of the wireless terminal 106a from the wireless unit information management server 220 (S93), and transmits an INVITE request to the SIP server 210a using the received extension number as a user name (S94). ).
[0068]
Here, if there is no response from the wireless terminal 106a (the base station 250a) of the other party even after a predetermined time has elapsed (timeout), the gateway 260 transmits a CANCEL request to the SIP server 210a (S95). The extension number of the wireless terminal 106a is sent to the wireless unit information management server 220 (S96), and a list of extension numbers belonging to the same group number as the extension number of the wireless terminal 106a is received (S97). Then, the gateway 260 sequentially calls the extension number in the received list (S98).
[0069]
As described above in detail, in the LAN connection type telephone system 100c accommodating the wireless terminals 106a and 106b, the wireless terminals 106a and 106b and the general telephones 104c and 104d connected to the public network 101 are described. Outgoing / incoming calls are possible. Furthermore, it supports dial-in and individual incoming calls, and can provide the same function as a general office telephone.
[0070]
While the embodiments of the present invention have been described in detail, the present invention can be embodied in various other forms without departing from the spirit or main features.
[0071]
For example, the wireless terminals 106a and 106b illustrated in the first and second embodiments are not limited to the PHS, but may be terminal devices using other wireless methods such as a mobile phone. The standard protocol of VoIP exemplified in the first and second embodiments is not limited to SIP, and is not limited to SIP. Other types of VoIP call control protocols such as the H.323 protocol and MEGACO (MEdia Gateway Control) may be used.
[0072]
The wireless unit information management server 220 and the handover management server 230 exemplified in the first and second embodiments have been described as configuration examples in which each is a separate server device. Each function of the server 220 and the handover management server 230 may be accommodated.
[0073]
As described above, the above-described embodiment is merely an example in all aspects, and should not be interpreted in a limited manner. The scope of the present invention is defined by the appended claims, and is not limited by the text of the specification. Further, all modifications and changes belonging to the equivalent scope of the claims are within the scope of the present invention.
[0074]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, in the telephone system which implement | achieves the VoIP telephone using a radio | wireless terminal, the call using the standard protocol of VoIP can be performed between each terminal.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram illustrating a configuration example of a telephone system for performing a call between a wireless terminal and an IP terminal using a VoIP standard protocol in the first embodiment.
FIG. 2 is a schematic block diagram illustrating a functional configuration of a base station in the telephone system according to the first embodiment;
FIG. 3 is a diagram illustrating an example of a sequence when a wireless terminal performs location registration in the telephone system according to the first embodiment.
FIG. 4 is a diagram showing an example of a sequence in a case where a call is transmitted from a wireless terminal to an IP terminal supporting SIP in the telephone system of the first embodiment.
FIG. 5 is a diagram illustrating an example of a sequence in a case where a call is transmitted from a SIP-compatible IP terminal to a wireless terminal in the telephone system according to the first embodiment;
FIG. 6 is a diagram showing an example of a sequence at the time of handover when a wireless terminal switches a base station during a call to another base station in the telephone system of the first embodiment.
FIG. 7 is a schematic block diagram illustrating a configuration example of a LAN connection type telephone system using a wireless terminal according to a second embodiment.
FIG. 8 is a schematic block diagram illustrating a functional configuration of a gateway in the telephone system according to the second embodiment;
FIG. 9 is a diagram illustrating an example of a sequence when a call is transmitted from a wireless terminal to a general telephone via a public network in the telephone system according to the second embodiment.
FIG. 10 is a diagram showing an example of a sequence when a wireless terminal responds to an incoming call from a general telephone in the telephone system of the second embodiment.
FIG. 11 is a diagram showing an example of a sequence in a case where a wireless terminal does not respond to an incoming call from a general telephone in the telephone system of the second embodiment.
FIG. 12 is a schematic block diagram showing a configuration example of a LAN-connected telephone system using a conventional wireless terminal.
[Explanation of symbols]
100a, 100b, 100c ... telephone system
101 ... Public network
103 ... PBX
104a, 104b, 104c, 104d: General telephone
105a, 105b ... base stations
106a, 106b ... wireless terminals
109 ... Line controller
111a, 111b ... IP terminals
112a ... Router
113 ... Gatekeeper
114 ... Digital dedicated line
120 ... VoIP gateway
210a: SIP server
220 ... Wireless unit information management server
230: Handover management server
240 ... SIP gateway
250a, 250b ... base station
251a ... Wireless unit
252a: SIP processing unit
253a: Original protocol processing unit
254a: Call control conversion processing unit
255a: voice conversion processing unit
256a: voice transfer processing unit
260 ... Gateway
261: Public line interface
262: SIP processing unit
263: Original protocol processing unit
264: Call control conversion processing unit
265 ... voice conversion processing unit

Claims (3)

A telephone system for performing a call between a wireless terminal and an IP (Internet Protocol) terminal using a VoIP (Voice over Internet Protocol) standard protocol,
Performing call control using the VoIP standard protocol with the IP terminal, a base station of the wireless terminal;
A standard protocol server that mediates the call control between the base station and the IP terminal using the VoIP standard protocol;
A telephone system having a unique protocol server that manages the wireless terminal with the base station using a unique protocol. The telephone system according to claim 1,
The base station, in response to a location registration request from the wireless terminal, makes an authentication request of the wireless terminal to the unique protocol server, using the user name or telephone number of the wireless terminal obtained from the unique protocol server A telephone system for performing location registration of the wireless terminal with the standard protocol server; In the telephone system according to claim 1 or 2,
The unique protocol server, when the wireless terminal performs switching of the base station during a call, causes the transfer source address information to be exchanged between the source base station and the destination base station,
The source base station transfers call data from the IP terminal to the target base station based on the exchanged destination address information, and the target base station transmits the transferred call data to the wireless terminal. And
The destination base station transfers call data from the wireless terminal to the source base station based on the exchanged destination address information, and the source base station transmits the transferred call data to the IP terminal. A telephone system characterized by:

Images