JP2006279899A - Network access server device, communication system, and ip communication starting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To start IP communication if there is IP call termination to a mobile station device to which an IP address is not given beforehand. <P>SOLUTION: The present invention relates to an NAS 23 used in a communication system 1 which includes a communication device 32 and a mobile station device 21 and in which an IP communication request signal is transmitted from the communication device 32 to the mobile station device 21 so that IP communication is started between the communication device 32 and the mobile station device 21. The IP communication request signal containing identification information of the mobile station device 21 is received from the communication device 32, processing for batch calling is performed on the mobile station device 21 indicated by the identification information contained in the received IP communication request signal and if a response signal to batch calling is received from the mobile station device 21, processing is performed for giving an IP address to the mobile station device 21. The received IP communication request signal is then transmitted to the given IP address. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a network access server device, a communication system, and an IP communication start method.

  VoIP (Voice over IP) has attracted attention as an inexpensive voice communication means. In VoIP, communication control signals and audio signals are included in IP (Internet Protocol) packets, and IP communication is performed by transmitting and receiving IP packets over a TCP / IP network. In recent years, research and development for applying such VoIP to mobile communication systems has been actively conducted.

  In this mobile communication system, the mobile station device is rarely always connected to the network, and is normally in a standby state. In such a standby state, no IP address is assigned to the mobile station device. In such a case, for example, even if a communication control signal for requesting the start of IP communication is transmitted from a computer on the Internet to the mobile station device (this is generally referred to as “IP incoming”). A network access server device provided in a mobile communication system for IP routing of a communication control signal or voice signal that is an IP packet to a mobile station device cannot cause the mobile station device to receive the communication control signal. For this reason, a mobile station apparatus to which no IP address is assigned cannot start IP communication.

  The present invention has been made to solve the above problems, and one of its purposes is to start IP communication even when there is an IP incoming call to a mobile station apparatus to which an IP address has not been assigned in advance. It is an object of the present invention to provide a network access server device, a communication system, and an IP communication start method for making it possible.

  A network access server device according to the present invention for solving the above-described problem includes a first communication device and a second communication device used as a mobile station device in a mobile communication system. A network access server device used in a communication system in which the first communication device and the second communication device start IP communication by transmitting an IP communication request signal from the communication device to the second communication device An IP communication request signal receiving means for receiving an IP communication request signal including identification information of the second communication device from the first communication device, and an identification included in the received IP communication request signal Simultaneous calling means for performing a process for making a simultaneous call to the second communication device indicated by the information, and responding to the simultaneous call from the second communication device. When the response signal is received, an IP address assigning unit that performs processing for assigning an IP address to the second communication device and the received IP communication request signal are transmitted to the assigned IP address. And an IP communication request signal transmitting means.

  According to the present invention, when there is an IP incoming call to a mobile station apparatus to which an IP address has not been assigned in advance, an IP address can be assigned to the mobile station apparatus. For this reason, the mobile station apparatus can start IP communication.

  The network access server apparatus further includes a determination unit that determines whether an IP address is assigned to the second communication apparatus indicated by the identification information included in the received IP communication request signal. The simultaneous calling means performs a process for making a simultaneous call to the second communication device when the determination means determines that an IP address is not assigned to the second communication device; The IP communication request signal transmitting means, when the determining means determines that an IP address is assigned to the second communication device, the received IP communication request for the assigned IP address. It is good also as transmitting a signal.

  In the conventional mobile communication system, two communications cannot be performed simultaneously. For this reason, when there is a new circuit switching incoming call or packet incoming call, it is determined whether or not the mobile station apparatus is communicating. If the mobile station apparatus is communicating, the new incoming call is disconnected. A call is made. On the other hand, since IP communication is communication performed in an upper layer of communication performed by the mobile station apparatus, a new IP incoming call is received regardless of whether the mobile station apparatus is performing circuit switching communication or packet communication. It is appropriate to do.

  According to the present invention, it is determined whether or not the mobile station apparatus is performing circuit switching communication or packet communication by determining whether or not an IP address is assigned to the mobile station apparatus. Then, when the mobile station apparatus is in circuit-switched communication or packet communication, an IP incoming call is made to the IP address already assigned, and when the circuit-switched communication or packet communication is not in progress, a simultaneous call is made. Therefore, the mobile station apparatus can start a new IP communication regardless of whether the circuit switching communication or the packet communication is being performed.

  The communication system according to the present invention includes a first communication device, a second communication device used as a mobile station device in a mobile communication system, a simultaneous call unit device, a network access server device, a location register. In the communication system including the device, the location register device associates the identification information of the second communication device with the position information indicating the position of the general call unit device in the mobile communication system. An IP communication request signal receiving means for receiving an IP communication request signal including identification information of the second communication device from the first communication device; And the location stored by the location location storage means in association with the identification information included in the received IP communication request signal. The general call unit device location information acquisition means for acquiring information, and the general call unit device at the location indicated by the acquired location information, the first information indicated by the identification information included in the received IP communication request signal A general call request unit that transmits a general call request signal indicating that the two communication devices are the target of the general call, and the general call unit device includes a reception unit that receives the general call request signal; Notification signal transmission processing means for performing a process for transmitting a notification signal for performing a general call for the second communication device indicated to be a target of the general call by a received general call request signal; The second communication device includes a receiving unit that receives the notification signal, and a response signal that is transmitted to the received notification signal. And a paging response unit, wherein the paging unit device transmits a signal indicating the response signal to the network access server device when the second communication device transmits a response signal to the paging call. And an IP address assignment processing means for performing processing for assigning an IP address to the second communication device when the network access server device receives the signal transmitted by the transmission means. Writing means for associating the assigned IP address with the identification information of the second communication device in the located location storage means, and the received IP address with respect to the assigned IP address. IP communication request signal transmitting means for transmitting a communication request signal, and the second communication device that has received the IP communication request signal Is configured to start IP communication with the first communication device.

  According to the present invention, the location information (for example, the IP address of the general call unit device or the identification number assigned to the general call unit device) of the general call unit device (for example, a base station device or an exchange) is moved. Since it is stored in association with the identification information (for example, telephone number) of the station apparatus, the network access server apparatus performs a simultaneous call request signal for the position indicated by the position information stored in association with the identification information. Can be sent to the mobile station apparatus indicated by the identification information.

  An IP communication start method according to the present invention is a communication system including a first communication device and a second communication device used as a mobile station device in a mobile communication system. An IP communication start method for starting IP communication between the first communication device and the second communication device by transmitting an IP communication request signal from the first communication device to the second communication device. In the body communication system, an IP communication request signal receiving step for receiving an IP communication request signal including identification information of the second communication device from the first communication device, and the received IP communication request signal A simultaneous call step for performing a process for making a simultaneous call to the second communication device indicated by the identification information; and a response signal for the simultaneous call from the second communication device. When an IP address is received, an IP address assigning step for performing processing for assigning an IP address to the second communication device, and an IP communication request for transmitting the received IP communication request signal to the assigned IP address And a signal transmission step.

  Embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a configuration diagram of a communication system 1 according to the present embodiment. As shown in the figure, the communication system 1 includes a mobile communication system 2 and an IP communication system 3, which are connected to be communicable with each other.

  First, the mobile communication system 2 will be described. The mobile communication system 2 includes a mobile station device 21, a base station device 22, a NAS (Newtwork Access Server) 23, a location database 24, and a mobile communication network 25. . Examples of the mobile communication system 2 include a mobile phone system and a wireless LAN system.

  The mobile station device 21 is a computer including a wireless communication unit including an antenna, a central processing unit, and a storage unit. The mobile station device 21 generates a communication signal or a control signal and transmits it to at least one of the plurality of base station devices 22 by radio. In addition, a communication signal and a control signal transmitted from at least one of the plurality of base station apparatuses 22 are received, and predetermined processing is performed according to the received control signal.

  Communication is performed between the mobile station device 21 and the base station device 22 by encapsulating communication data with a packet including a unique address in the mobile communication system 2. This address is assigned in advance to each mobile station device 21 and each base station device 22, and is hereinafter referred to as a mobile station device ID and a base station device ID, respectively.

  In addition, the mobile station apparatus 21 may be assigned an IP address by an IP address assignment process described later. When the IP address is given, the mobile station device 21 performs communication using IP packets. In the present embodiment, the IP address given to mobile station apparatus 21 will be described as a private address in mobile communication system 2.

  Furthermore, the mobile station device 21 is given identification information unique to the communication system 1 in advance, and the communication device that intends to start communication with the mobile station device 21 designates this identification information to control the control signal. An IP communication request signal that is one of the above is transmitted. More specifically, as will be described later, the identification information included in the IP communication request signal is converted into an IP address given to the mobile station device 21 by the SIP server 31 and the NAS 23 and routed to the mobile station device 21.

  The mobile station apparatus 21 that has received the IP communication request signal determines whether or not to start communication with the communication apparatus that has transmitted the IP communication request signal. A certain IP communication request response signal is transmitted. In this way, the communication start process is performed between the communication apparatus that has transmitted the IP communication request signal and the mobile station apparatus 21, and then communication is started.

  Hereinafter, an IP telephone number is used as this identification information. As an IP telephone number, for example, an 11-digit number starting with 050 may be used in Japan.

  The base station device 22 is a computer including a wireless communication unit including an antenna, a network communication unit for communicating with the mobile communication network 25, a central processing unit, and a storage unit. The base station device 22 receives a communication signal and a control signal from the mobile station device 21, and performs a predetermined process according to the communication signal and the control signal. One of the processes is a process of transferring to the mobile communication network 25. In addition, a communication signal and a control signal are received from the mobile communication network 25, and predetermined processing corresponding to the communication signal and the control signal is performed. One of the processes is a process of transferring to the mobile station device 21. Further, the base station device 22 generates a control signal by itself and transmits it to the mobile station device 21 or the mobile communication network 25.

  The NAS 23 is a computer including a first network communication unit for communicating with the mobile communication network 25, a second network communication unit for communicating with the IP communication network 33, a central processing unit, and a storage unit. The NAS 23 receives a communication signal and a control signal from the mobile communication network 25, and performs predetermined processing according to the communication signal and the control signal. One of the processes is a process of transferring to the IP communication network 33. In addition, the communication signal and the control signal are received from the IP communication network 33, and predetermined processing corresponding to the communication signal and the control signal is performed. One of the processes is a process of transferring to the mobile communication network 25. The NAS 23 itself generates a control signal and transmits it to the mobile communication network 25 or the IP communication network 33. Further, the NAS 23 performs processing for assigning an IP address to the mobile station device 21.

  Furthermore, the NAS 23 also functions as a proxy server between the mobile communication system 2 and the IP communication system 3. The operation of the NAS 23 as a proxy server will be described later.

  The location database 24 is a computer including a network communication unit for communicating with the mobile communication network 25, a central processing unit, and a database. The location database 24 is an IP telephone number and mobile station device ID of the mobile station device 21 and a location in the mobile communication system 2 of the base station device 22 as a general call unit device which is a unit for the general call described later. And the IP address assigned to the mobile station apparatus 21 by the NAS 23 are stored in association with each other. The base station device 22 stored here is the base station device 22 in which the corresponding mobile station device 21 is located. However, when the mobile station apparatus 21 is not turned on or in a place where signal transmission / reception with all the base station apparatuses 22 is impossible, the last position information is stored as it is. Here, the IP address of the base station device 22 is used as the position information.

  Although the base station device 22 is used here as a general call unit device, for example, a subscriber-level switch or a group of prefectural switches included in the mobile communication network 25 may form the general call unit device. . In such a case, the location database 24 is an IP telephone number and a mobile station device ID of the mobile station device 21 and an exchange or a group of exchanges as a general call unit device, and the base station where the mobile station device 21 is located. The location information indicating the location in the mobile communication system 2 of the exchange or exchange group accommodating the station device 22 and the IP address assigned to the mobile station device 21 by the NAS 23 are stored in association with each other.

  Further, the location database 24 receives a control signal indicating a database search request from another device using one of the stored items as a key. Then, when the control signal is received, the location database 24 transmits information stored in association with the key item to the other device.

  The mobile communication network 25 is a communication network designed so that the base station device 22, the NAS 23, and the location database 24 can communicate with each other. Specifically, the mobile communication network 25 may be a router network or an exchange. It may be a net. Here, it is assumed that the mobile communication network 25 is a router network. That is, the mobile communication network 25 side interface of the base station device 22 (included in the network communication unit of the base station device 22), the mobile communication network 25 side interface of the NAS 23 (included in the first network communication unit of the NAS 23), The location database 24 is previously assigned an IP address. In the present embodiment, it is assumed that these IP addresses are also private addresses in the mobile communication system 2.

  The mobile communication network 25 is connected to the base station device 22, the NAS 23, and the location database 24, and communication signals and control signals transmitted and received between these devices are devices corresponding to the destination IP address included in each signal. Route to. That is, the signal is transferred to a device to which an IP address included as a destination in a communication signal or control signal transmitted by a certain device is assigned.

  When an exchange network is used as the mobile communication network 25, the base station device 22, the NAS 23, and the location database 24 are given not a IP address but a unique address in the mobile communication system 2, and move according to the address. Communication within the communication network 25 is performed. Also, as the position information, the unique address is used instead of the IP address.

  Here, the operation of the NAS 23 as a proxy server will be described.

  For communication from the mobile station device 21 to each device included in the IP communication system 3, the NAS 23 replaces the source address of the IP packet transmitted from the mobile station device 21 with the IP address of the NAS 23 itself, and transmits it. It functions as a proxy server for the mobile station device 21.

  Conversely, regarding communication from each device included in the IP communication system 3 to the mobile station device 21, first, when each device included in the IP communication system 3 transmits an IP packet to the mobile station device 21, The destination is the IP address of the NAS 23, and an IP packet is generated by including the IP telephone number in the IP packet. The NAS 23 that has received the IP packet generated in this way reads out the IP telephone number contained therein, and reads out the IP address stored in the location database 24 in association with the read out IP telephone number. The NAS 23 functions as a proxy server for the mobile station device 21 by transmitting the received IP packet to the IP address read in this way.

  Next, the IP communication system 3 will be described. The IP communication system 3 includes a SIP (Session Initiation Protocol, ship) server 31, a communication device 32, and an IP communication network 33. An example of the IP communication system 3 is the Internet.

  The IP communication network 33 is a communication network designed so that the NAS 23, the SIP server 31, and the communication device 32 can communicate with each other. Here, the IP communication network 33 is described as a router network. That is, IP addresses are assigned in advance to the IP communication network 33 side interface (included in the second network communication unit of the NAS 23), the SIP server 31, and the communication device 32 of the NAS 23, respectively. In the present embodiment, these IP addresses are assumed to be global IP addresses.

  The IP communication network 33 is connected to the NAS 23, the SIP server 31, and the communication device 32, and transmits communication signals and control signals transmitted and received between these devices to devices according to the destination IP address included in each signal. Route. That is, the signal is transferred to a device to which an IP address included as a destination in a communication signal or control signal transmitted by a certain device is assigned.

  The SIP server 31 is a computer including a network communication unit for communicating with the IP communication network 33, a central processing unit, and a storage unit. The SIP server 31 stores the IP telephone numbers assigned to a plurality of computers including the communication device 32 and the mobile station device 21 in association with the IP address of each computer in its own storage unit. However, when the IP address assigned to a certain computer is a private address, the IP address of a server functioning as a proxy server for the computer is stored instead of the IP address of the computer. As will be described later, the SIP server 31 performs connection processing (session start processing) for IP communication. A protocol for starting a session using the SIP server 31 in this way is called SIP.

  The communication device 32 is also a computer including a network communication unit for communicating with the IP communication network 33, a central processing unit, and a storage unit. The communication device 32 is configured to start communication by specifying a communication destination. Examples of the communication device 32 include computers such as personal computers and PDAs (Personal Digital Assistance).

  Hereinafter, a communication start process for starting IP communication between the communication device 32 and the mobile station device 21 when the communication device 32 transmits to the mobile station device 21 in the communication system 1 will be described.

  First, the communication device 32 tries to transmit the above IP communication request signal to the mobile station device 21. However, normally, the communication device 32 does not store the IP address of the mobile station device 21. For this reason, the communication device 32 transmits an IP communication request signal to the IP address of the SIP server 31. This IP communication request signal includes the IP telephone number of the mobile station device 21 and the IP address of the communication device 32.

  The SIP server 31 reads the IP address stored in its storage unit in association with the IP telephone number included in the received IP communication request signal, and transfers the IP communication request signal to the read IP address. In this way, the SIP server 31 performs connection processing (session start processing) for connecting IP communication between communication devices whose IP addresses are unknown to each other. Since this IP address is the NAS 23 as the proxy server in this case, the IP communication request signal transferred by the NAS 23 is received.

  When the NAS 23 receives the control signal that is the IP communication request signal from the SIP server 31, it determines whether or not the IP address is stored in association with the IP telephone number specified by the received IP communication request signal. To do. If it is determined that the IP address is stored, the IP communication request signal is transferred to the stored IP address. In this case, the mobile station apparatus 21 that has received the IP communication request signal transferred via the base station apparatus 22 transmits an IP communication request response signal for the IP communication request signal to the IP address of the communication apparatus 32. . Thereafter, a communication start process is performed between the communication device 32 that has transmitted the IP communication request signal and the mobile station device 21, and then communication is started.

  On the other hand, when determining that the IP address is not stored, the NAS 23 stores the IP of the base station apparatus 22 stored in the location database 24 in association with the IP telephone number specified by the IP communication request signal. The address and the mobile station apparatus ID of the mobile station apparatus 21 are read out. Specifically, the NAS 23 transmits the IP telephone number specified by the IP communication request signal to the IP address of the location database 24. The location database 24 that has received the IP telephone number transmitted in this way reads out the IP address of the base station apparatus 22 stored in association with the received IP telephone number, and transmits it to the NAS 23.

  Next, the NAS 23 performs a process for making a simultaneous call to the mobile station apparatus 21 indicated by the IP telephone number included in the IP communication request signal. Specifically, the NAS 23 transmits a general call request signal including the read mobile station apparatus ID to the read IP address of the base station apparatus 22. This simultaneous call request signal designates the mobile station device 21 by the mobile station device ID, thereby targeting the mobile station device 21 to which the IP telephone number specified by the IP communication request signal is assigned. This is a signal indicating this.

  When the base station device 22 receives the general call request signal from the NAS 23, the base station device 22 is a general call signal including the mobile station device ID included in the general call request signal and the base station device ID of the base station device 22. Then, a process is performed to broadcast to all the mobile station devices 21 existing within a reachable range of the radio call signal including a broadcast address indicating broadcast transmission as a destination. The general paging signal transmitted in this way is one of the signals called notification signals among the control signals. This notification signal is used for signal transmission to all the mobile station devices 21 under the base station device 22, and the destination is the broadcast address as described above.

  The mobile station device 21 determines whether or not its mobile station device ID is included in the simultaneous call signal transmitted from the base station device 22. When it is determined that the mobile station apparatus 21 is included, the mobile station apparatus 21 transmits a predetermined general paging response signal to the base station apparatus ID included in the received general paging signal. The base station apparatus 22 that has received the simultaneous call response signal performs a predetermined communication channel allocation process with the mobile station apparatus 21. In this way, first, wireless communication between the base station apparatus 22 and the mobile station apparatus 21 is started. The base station device 22 transmits a signal indicating that there has been a general call response from the mobile station device 21 to the NAS 23.

  The NAS 23 performs an IP address assignment process for assigning an IP address to the mobile station apparatus 21 when receiving a signal indicating that there is a simultaneous call response. The mobile station apparatus 21 is normally not assigned an IP address, and is assigned an IP address when starting IP communication. Specifically, the NAS 23 establishes a PPP session with the mobile station device 21. By establishing the PPP session in this way, the NAS 23 gives an IP address to the mobile station device 21.

  When the IP address is assigned to the mobile station device 21 in this way, the mobile station device 21 can thereafter transmit and receive IP packets using the IP address as a destination. Therefore, the NAS 23 assigns an IP address to the mobile station device 21 and then transmits the received IP communication request signal to the IP address via the base station device 22.

  The mobile station apparatus 21 recognizes that there is an IP incoming call from the communication apparatus 32 to itself by receiving the IP communication request signal transmitted from the NAS 23. Then, an IP communication request response signal corresponding to the IP communication request signal is transmitted to the NAS 23. Then, the NAS 23 replaces the source address of the received IP communication request response signal with the IP address of the IP communication network 33 for the IP address of the communication device 32 and transfers the IP communication request response signal. This is the operation of the NAS 23 as a proxy server.

  Communication start processing for starting IP communication between the communication apparatus 32 and the mobile station apparatus 21 is performed by the communication apparatus 32 transmitting to the mobile station apparatus 21 as described above.

  When IP communication is performed between the communication device 32 and the mobile station device 21, an IP packet is transmitted between the mobile station device 21 and the base station device 22 with the mobile station device ID or the base station device ID as a destination. Signals may be transmitted / received by encapsulated packets, or IP packets may be directly transmitted / received between the mobile station apparatus 21 and the base station apparatus 22 with the IP address as the destination. However, in this case, an IP address may also be required for the radio interface of the base station device 22 (included in the radio communication unit of the base station device 22).

  The communication start process described above and the processes related thereto will be described in more detail with reference to the sequence diagram of the process of the communication system 1.

  FIG. 2 shows a process (position registration process) for storing the IP telephone number of the mobile station apparatus 21 and the position information indicating the position of the base station apparatus 22 in the mobile communication system 2 in association with the location database 24. ) Shows the sequence. First, when the mobile station apparatus 21 transmits a CR (Configuration Request, setting request) (S101), the base station apparatus 22 that has received the CR returns a CM (Configuration Message, setting notification) (S102) and A terminal information registration request signal including the IP address of the base station apparatus 22 and the IP telephone number of the mobile station apparatus 21 that transmitted the CR is transmitted to the location database 24 (S103).

  The location database 24 stores in advance the IP telephone number and mobile station apparatus ID of the mobile station apparatus 21 and the IP address of the base station apparatus 22 in association with each other. Therefore, the location database 24 includes the IP address of the base station device 22 stored in association with the IP telephone number of the mobile station device 21 included in the received terminal information registration request signal in the received terminal information registration request signal. The base station device 22 is updated with the IP address of the base station device 22 (S104). When the update is completed, the location database 24 transmits a terminal information registration response signal indicating that the update is completed to the base station apparatus 22 (S105).

  As described above, the location registration process of the mobile station apparatus 21 is performed and used for the simultaneous call process and the like.

  FIG. 3 shows a process (terminal IP registration process) for storing the IP telephone number of the mobile station apparatus 21 and the IP address of the mobile station apparatus 21 in association with the location database 24 and the stored IP address is deleted. The sequence of processing (terminal IP deletion processing) is shown. First, the NAS 23 establishes a PPP session with the mobile station device 21 (S201). By this processing, as described above, the mobile station apparatus 21 is assigned an IP address.

  The mobile station device 21 to which the IP address is assigned continues to periodically transmit an IP address registration request signal to the NAS 23 (S202). This IP address registration request signal includes the IP telephone number and IP address of the mobile station device 21. The NAS 23 that has received the IP address registration request signal indicates that it requests to store the IP address included in the IP address registration request signal in association with the IP telephone number included in the IP address registration request signal. A registration request signal is transmitted to the location database 24 (S203).

  The location database 24 that has received the terminal IP registration request signal stores the IP address indicated by the terminal IP registration request signal in association with the IP telephone number indicated by the terminal IP registration request signal (S204). However, when the location database 24 has already stored the IP address in association with the IP telephone number of the mobile station apparatus 21, the IP address stored in the IP address indicated by the terminal IP registration request signal is stored. It is determined whether or not the address is the same. If the result of this determination is the same, the process of storing again is not performed. On the other hand, if they are different, the stored IP address is updated with the IP address indicated by the terminal IP registration request signal. Then, by storing the IP address in this way, it is stored that a PPP session has been established between the NAS 23 and the mobile station device 21 (S205). Of course, for example, a PPP session established flag is prepared, the IP address is stored, and at the same time, the PPP session established flag is turned ON to store that the PPP session has been established between the NAS 23 and the mobile station apparatus 21. It is good as well.

  After the above processing is performed, the PPP session connection between the mobile station device 21 and the NAS 23 may be disconnected, or the mobile station device 21 may be powered off (S206). In such a case, the mobile station device 21 stops transmitting the IP address registration request signal to the NAS 23. Then, the NAS 23 detects that an IP address registration request signal that should be received periodically is not received (S207, S208). More specifically, a reception timeout is detected. When the reception timeout is detected, the NAS 23 deletes the terminal IP indicating that it requests to delete the IP address of the mobile station apparatus 21 stored in association with the IP telephone number of the mobile station apparatus 21 that detected the reception timeout. A request signal is transmitted to the location database 24 (S209).

  The location database 24 that has received the terminal IP deletion request signal deletes the IP address of the mobile station apparatus 21 stored in association with the IP telephone number indicated by the terminal IP deletion request signal (S210). Then, by deleting the IP address in this way, it is stored that the PPP session is not established between the NAS 23 and the mobile station apparatus 21 (S211). When a PPP session established flag is prepared, the IP address is stored and simultaneously the PPP session established flag is turned OFF.

  As described above, the terminal IP registration process for storing the IP telephone number of the mobile station apparatus 21 and the IP address of the mobile station apparatus 21 in association with the location database 24 and the terminal for deleting the stored IP address An IP deletion process is performed, which is used to determine whether or not a PPP session is connected and to acquire a destination address for signal transmission to the mobile station apparatus 21.

  FIG. 4 shows a sequence of processing (IP incoming call processing) when the communication device 32 transmits an IP communication request signal to the mobile station device 21 when the mobile station device 21 and the NAS 23 have already made PPP connection. is there. In each drawing, a signal indicated as SIP (ABC) indicates that the ABC signal indicated in parentheses is transmitted by SIP.

  In the following description, it is assumed that IP communication is performed by RTP. RTP is an abbreviation for Realtime Transport Protocol, and is a protocol for transmitting signals that need to be transmitted and received in real time, such as VoIP and streaming, in real time.

  First, the communication device 32 sends an INVITE signal, which is an IP communication request signal indicating a request to start IP communication with the mobile station device 21, to the IP address (eg, 192.168.20.1) of the SIP server 31. (S300). This INVITE signal includes the IP telephone number (for example, 0451230101) of the mobile station device 21 as a communication start request destination.

  The SIP server 31 that has received the INVITE signal from the communication device 32 reads out the IP address (for example, 192.168.10.1) stored in association with the IP telephone number included in the INVITE signal, and reads out the IP address. In response, the received INVITE signal is transferred (S301). In this case, this IP address is given to the NAS 23.

  Receiving the INVITE signal, the NAS 23 receives the IP communication request signal and transmits a 100 trying signal indicating that the processing is continued to the SIP server 31 (S302). The SIP server 31 that has received the 100 trying signal transmitted in this way transmits the 100 trying signal to the communication device 32 (S303). The communication device 32 that has received this 100 trying signal waits until the next signal is received.

  Further, the NAS 23 stores in the location database 24 whether or not the IP address of the mobile station apparatus 21 indicated by the IP telephone number is stored in association with the IP telephone number included in the INVITE signal, that is, the mobile station apparatus. A PPP connection inquiry request signal for inquiring whether or not a PPP connection is established between 21 and NAS 23 is transmitted (S304). The location database 24 that has received the PPP connection inquiry request signal transmitted in this manner returns a PPP connection inquiry response signal indicating that the PPP connection is established between the mobile station apparatus 21 and the NAS 23 (S305). . This PPP connection inquiry response signal includes the IP address assigned to the mobile station device 21.

  The NAS 23 that has received the PPP connection inquiry request signal indicating that the PPP connection is established between the mobile station apparatus 21 and the NAS 23 includes the INVITE signal received in S301 in the PPP connection inquiry response signal. (S306). The mobile station apparatus 21 that has received this INVITE signal first transmits a 100 trying signal to the NAS 23 (S307). Subsequently, the mobile station apparatus 21 performs a process for calling the user, for example, a process for ringing the ringer, and sends a 180 ringing signal indicating that the user is waiting for a response while calling the user to the IP address of the NAS 23. (S308). The NAS 23 transfers the received 180 ringing signal to the SIP server 31 (S309), and the SIP server 31 further transfers it to the communication device 32 (S310). In this process, the NAS 23 and the SIP server 31 also function as proxy servers.

  When the user responds, the mobile station device 21 sends a 200 signal indicating that the user has received a response and is ready to perform IP communication via the NAS 23 and the SIP server 31 in the same manner as the 180 ringing signal. Then, it transmits to the communication device 32 (S311, S312, S313). The communication device 32 transmits an ACK signal indicating that the response of the INVITE signal is confirmed to the received 200 signal to the mobile station device 21 via the SIP server 31 and the NAS 23 (S314, S315, S316). ). In this process, the NAS 23 and the SIP server 31 also function as proxy servers.

  An RTP session is started between the communication device 32 and the mobile station device 21 by transmitting and receiving the 200 signal and the ACK signal. Then, the communication device 32 and the mobile station device 21 perform RTP communication (VoIP, streaming, etc.) on the started RTP session (S317).

  As described above, when the mobile station apparatus 21 and the NAS 23 have already made a PPP connection, the IP incoming call process is performed when the communication apparatus 32 transmits an IP communication request signal to the mobile station apparatus 21.

  5 and 6 show that when the mobile station device 21 and the NAS 23 are not making a PPP connection, the PPP connection is started when the communication device 32 transmits an IP communication request signal to the mobile station device 21. FIG. 4 is a sequence of processing for processing (PPP connection processing) and processing for starting IP communication (IP incoming processing).

  First, a description will be given with reference to FIG. The communication device 32 sends an INVITE signal, which is an IP communication request signal indicating a request to start IP communication with the mobile station device 21, to the IP address (eg, 192.168.20.1) of the SIP server 31. Transmit (S300). Thereafter, the processing up to S304 is the same as the IP incoming processing described with reference to FIG.

  The location database 24 that has received the PPP connection inquiry request signal transmitted in S304 returns a PPP connection inquiry response signal indicating that the PPP connection is not established between the mobile station device 21 and the NAS 23 (S355). ).

  The NAS 23 that has received the PPP connection inquiry response signal stores the location information (in this case, the base station device 22) of the general call unit device (here, the base station device 22) stored in the location database 24 in association with the IP telephone number included in the INVITE signal. Here, a number inquiry request signal indicating that an IP address is requested is transmitted (S356). The location database 24 that has received the number inquiry request signal reads the IP address, which is the position information stored in the database, and includes it in the number inquiry response signal and transmits it to the NAS 23 (S357).

  The NAS 23 transmits a general call request signal for requesting the IP address included in the received number inquiry response signal to perform a general call to the mobile station apparatus 21 indicated by the IP telephone number included in the INVITE signal. (S358). The base station apparatus 22 that has received this general call request signal transmits a general call signal indicating that the requested mobile station apparatus 21 is the target of the general call (S359).

  The mobile station apparatus 21 receives the general call signal and determines whether or not it is a general call for itself. When it is determined that it is not a general call for itself, the received general call signal is discarded, and when it is determined that it is a general call for itself, a general call response signal is returned. Then, communication channel assignment processing is performed between the base station apparatus 22 and the mobile station apparatus 21 (S360), and communication between the base station apparatus 22 and the mobile station apparatus 21 is started.

  When communication between the base station device 22 and the mobile station device 21 is started in this way, the mobile station device 21 starts a PPP session with the NAS 23 (S201). Thereafter, by the terminal IP registration process described with reference to FIG. 3, the IP telephone number of the mobile station device 21 and the IP address of the mobile station device 21 are stored in association with the location database 24 (S202 to S205).

  Next, a description will be given with reference to FIG. As shown in the figure, after the terminal IP registration process is registered, the RTP session is started between the communication apparatus 32 and the mobile station apparatus 21 by the same process as the IP incoming process described in FIG. (S306 to S317).

  In the IP communication system 1, as described above, even when the mobile station apparatus 21 and the NAS 23 are not in PPP connection, the PPP is performed when the communication apparatus 32 transmits an IP communication request signal to the mobile station apparatus 21. Connection is started and IP incoming processing is performed.

  FIG. 7 shows a process for starting a PPP connection when the communication device 32 transmits an IP communication request signal to the mobile station device 21 when the mobile station device 21 and the NAS 23 are not making a PPP connection. This is a sequence of processing when PPP connection processing is performed but PPP connection cannot be started.

  The processing until the simultaneous calling is performed is the same as the processing of S300 to S304 and S355 to S359 described with reference to FIG. In the PPP connection process of FIG. 5, the mobile station apparatus 21 returns a general call response signal to the simultaneous call signal transmitted in S359. However, since the mobile station apparatus 21 is not powered here, the mobile station apparatus 21 cannot receive a general call signal, and the base station apparatus 22 does not receive a general call response signal. For this reason, the communication channel assignment process (S360) and the PPP session connection process (S361) are not performed. On the other hand, the NAS 23 measures the elapse of time since the simultaneous paging request signal was transmitted in S358, and when the IP address registration request signal (S202) is not received even after the predetermined time elapses (S370), It is determined that the incoming response waiting time for the station apparatus 21 has timed out (S371). In this case, the NAS 23 transmits a 480 Temporary not available signal indicating that communication with the mobile station apparatus 21 cannot be started to the SIP server 31 (S372). The SIP server 31 transfers this signal to the communication device 32 (S373), and the communication device 32 recognizes that communication with the mobile station device 21 cannot be started. The communication device 32 transmits an ACK signal, which is a response to the 480 Temporary not available signal, to the NAS 23 via the SIP server 31 (S374, S375), and ends the IP incoming processing.

  As described above, although the process for starting the PPP connection (PPP connection process) is performed, when the PPP connection cannot be started, the process for terminating the IP incoming process is performed.

  FIG. 8 is a processing sequence when the communication device 32 transmits an IP communication request signal to an IP telephone number of the mobile station device 21 that does not exist.

  Processing until the NAS 23 sends a PPP connection inquiry request signal for inquiring whether or not the mobile station apparatus 21 indicated by the IP telephone number included in the INVITE signal has already made a PPP connection to the location database 24 Is similar to the IP incoming call processing described with reference to FIG. 4 (S300 to S304). The location database 24 that has received the PPP connection inquiry request signal does not store information related to the mobile station apparatus 21 that has been inquired about the presence or absence of the PPP connection by the PPP connection inquiry request signal. For this reason, the location database 24 returns a PPP connection inquiry response signal indicating that information on the inquired mobile station apparatus 21 is not stored (S395).

  The NAS 23 that has received the returned PPP connection inquiry response signal cannot communicate with the mobile station device 21 with respect to the communication device 32 by the same processing as the processing described with reference to FIG. Notification is made (S372, S373). Then, the communication device 32 ends the IP incoming processing by the same processing as that described with reference to FIG. 7 (S374, S375).

  As described above, when the communication device 32 transmits an IP communication request signal to the IP telephone number of the mobile station device 21 that does not exist, the processing for ending the IP incoming call processing is performed.

  As described above, in the present embodiment, when there is an IP incoming call to the mobile station apparatus 21 to which no IP address has been assigned in advance, an IP address can be assigned to the mobile station apparatus 21. For this reason, the mobile station apparatus 21 can start IP communication.

  Moreover, in the conventional mobile communication system, two communications cannot be performed simultaneously. For this reason, when there is a new circuit switching incoming call or packet incoming call, it is determined whether or not the mobile station apparatus 21 is communicating. If the mobile station apparatus 21 is communicating, the new incoming call is disconnected. A general call is made. On the other hand, since IP communication is communication performed in an upper layer of communication performed by the mobile station apparatus 21, a new IP It is appropriate to make incoming calls. In the present embodiment, it is determined whether or not the mobile station apparatus 21 is performing circuit switching communication or packet communication by determining whether or not an IP address is assigned to the mobile station apparatus 21. Then, when the mobile station apparatus 21 is performing circuit switching communication or packet communication, it makes an IP incoming call to the already assigned IP address, and when it is not performing circuit switching communication or packet communication, it performs a general call. As a result, the mobile station apparatus 21 can start a new IP communication regardless of whether circuit-switched communication or packet communication is in progress.

  Further, in the present embodiment, the location information (for example, the IP address of the general call unit device, the identification number assigned to the general call unit device, etc.) of the general call unit device (for example, the base station device 22 and the exchange). Is stored in association with the identification information (for example, IP telephone number) of the mobile station apparatus 21, so that the NAS 23 calls the position indicated by the position information stored in association with the identification information. By transmitting the request signal, the mobile station apparatus 21 indicated by the identification information can be collectively called.

  The present invention is not limited to the above embodiment.

  For example, the communication device 32 may not be a device that performs IP communication. In this case, in the IP communication network 33, it is desirable to install a gateway server for converting the protocol used by the communication device 32 into IP. Specifically, this corresponds to the case where the communication device 32 is a fixed telephone.

1 is a system configuration diagram of a communication system according to an embodiment of the present invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention. It is a sequence diagram of the process of the communication system which concerns on embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Communication system, 2 Mobile communication system, 3 IP communication system, 21 Mobile station apparatus, 22 Base station apparatus, 23 NAS, 24 Location database, 25 Mobile communication network, 31 SIP server, 32 Communication apparatus, 33 IP communication network

Claims (4)

An IP communication request signal is transmitted from the first communication device to the second communication device, including a first communication device and a second communication device used as a mobile station device in the mobile communication system A network access server device used in a communication system in which the first communication device and the second communication device start IP communication,
IP communication request signal receiving means for receiving an IP communication request signal including identification information of the second communication device from the first communication device;
Simultaneous call means for performing a process for making a simultaneous call to the second communication device indicated by the identification information included in the received IP communication request signal;
An IP address assigning means for performing processing for assigning an IP address to the second communication device when a response signal to the simultaneous call is received from the second communication device;
IP communication request signal transmitting means for transmitting the received IP communication request signal to the assigned IP address;
A network access server device comprising: The network access server device according to claim 1,
Determining means for determining whether an IP address is assigned to the second communication device indicated by the identification information included in the received IP communication request signal;
Further including
The general calling unit performs a process for performing a general call to the second communication device when the determination unit determines that an IP address is not assigned to the second communication device;
The IP communication request signal transmitting means, when the determining means determines that an IP address is assigned to the second communication device, the received IP communication request for the assigned IP address. Send signal,
A network access server device. In a communication system including a first communication device, a second communication device used as a mobile station device in a mobile communication system, a simultaneous call unit device, a network access server device, and a location register device,
The location register device includes:
Visited location storage means for storing the identification information of the second communication device and the location information indicating the location of the general call unit device in the mobile communication system in association with each other,
Including
The network access server device is:
IP communication request signal receiving means for receiving an IP communication request signal including identification information of the second communication device from the first communication device;
General call unit device location information acquisition means for acquiring location information stored by the location location storage means in association with identification information included in the received IP communication request signal;
Indicates that the second communication device indicated by the identification information included in the received IP communication request signal is to be a target of simultaneous calling for the simultaneous call unit device at the position indicated by the acquired location information. A general call request means for transmitting a general call request signal;
Including
The simultaneous call unit device is:
Receiving means for receiving the simultaneous call request signal;
A notification signal transmission processing means for performing a process for transmitting a notification signal for performing a general call for the second communication device indicated to be a target of a general call by the received general call request signal;
Including
The second communication device is:
Receiving means for receiving the notification signal;
Simultaneous call response means for transmitting a response signal to the received notification signal;
Including
The simultaneous call unit device is:
Transmitting means for transmitting a signal indicating the response signal to the network access server device when the second communication device transmits a response signal to the simultaneous call;
Further including
The network access server device is:
An IP address assignment processing means for performing processing for assigning an IP address to the second communication device when the signal transmitted by the transmission means is received;
A writing unit that writes the assigned IP address and the identification information of the second communication device in association with each other in the location location storage unit;
IP communication request signal transmitting means for transmitting the received IP communication request signal to the assigned IP address;
Further including
The second communication device that has received the IP communication request signal starts IP communication with the first communication device.
A communication system characterized by the above. In a communication system including a first communication device and a second communication device used as a mobile station device in a mobile communication system, an IP communication request is sent from the first communication device to the second communication device. An IP communication start method for starting IP communication between the first communication device and the second communication device by transmitting a signal,
In the mobile communication system,
An IP communication request signal receiving step of receiving an IP communication request signal including identification information of the second communication device from the first communication device;
A simultaneous call step for performing a process for performing a simultaneous call to the second communication device indicated by the identification information included in the received IP communication request signal;
An IP address assignment step for performing processing for assigning an IP address to the second communication device when a response signal to the simultaneous call is received from the second communication device;
An IP communication request signal transmission step of transmitting the received IP communication request signal to the assigned IP address;
including,
An IP communication start method characterized by the above.

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