JP2005027098A - Server, communication network system, communication method and mobile communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a server which can be connected to a communication network by transmitting and receiving a few signals, and to provide a communication network system, a communication method and a mobile communication terminal. <P>SOLUTION: When a WPCG 30 receives a connection notification response signal S205 for answering connection request signals S201 to S204 from an MS 10 from an ISP server 40, the WPCG 30 transmits a connection notification response signal S206 including a packet exchange server IP address to the MS 10 according to a C-plane protocol. The MS 10 establishes a TCP connection with the WPCG 30 identified by the packet exchange server IP address included in the connection notification response signal S206 according to a U-plane protocol to be able to connect a communication line between the MS 10 and the ISP server 40. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a server, a communication network system, a communication method, and a mobile communication terminal for connecting to a communication network, and in particular, a server, a communication network system, and a communication method for connecting to the Internet network from a mobile communication terminal. And a mobile communication terminal.
[0002]
[Prior art]
In recent years, mobile terminals that are connected to the Internet network and can communicate with a server on the Internet network according to HTTP (Hyper Text Transfer Protocol) have become widespread. As a mechanism for connecting the mobile terminal to the Internet network, first, a control connection is established by exchanging control signals between the mobile terminal and a server on the Internet, and then a communication connection for transmitting and receiving user data. Is known (for example, Non-Patent Document 1).
[0003]
FIG. 8 shows the technology disclosed in Non-Patent Document 1 as a communication sequence between a mobile terminal and a server owned by an ISP (Internet Service Provider). In the figure, MS (Mobile Station) is a mobile terminal, MMS (Mobile Multimedia switching System) and GMMS (Gateway Mobile Multimedia Switching System) are exchange gateways that make up a packet switching network, and WPCG (WsCG) A packet-switched server, ISP server, indicates a server on the Internet network owned by an Internet service provider.
[0004]
The signal transmission method between MS, MMS, and GMM in the communication network system shown in FIG. 8 is based on 3GPP (3rd Generation Partner Project), which is the standard of the third generation mobile communication system (IMT-2000; International Mobile Telecommunication 2000). Constructed in compliance.
In the figure, signals between MS, MMS, and GMMS (signals S101, S102, S107, and S108 in the figure) are transmitted according to the line control protocol 1. Further, signals between GMMS and WPCG (signals S103 and S106 in the figure) are transmitted according to the line control protocol 2. Further, signals (signals S104 and S105 in the figure) between the WPCG and the ISP server are transmitted according to the line control protocol 3. These line control protocols 1 to 3 are collectively referred to as a C-Plane protocol.
[0005]
Here, the C-Plane protocol is a control signal transmission protocol. Specifically, the C-Plane protocol is a protocol that performs only signaling of a control signal related to call connection / release before transferring user data.
Signals S109 and S110 indicate inquiry processing to the domain name server for WPCG address resolution. Signals S111 and S112 in the figure indicate TCP (Transmission Control Protocol) connection establishment processing for performing packet communication (hereinafter referred to as “HTTP communication”) in accordance with HTTP, and “in communication” in the figure. S113 shown shows HTTP communication.
[0006]
When the TCP connection indicated by the signals S111 and S112 is established, the MS is connected to the Internet network (a state where a communication line for performing packet communication between the MS and the ISP server is connected), The MS can perform HTTP communication S113 with the ISP server.
Protocols for transmitting and receiving the signals S109 to S113 are collectively referred to as U-Plane protocol. The U-Plane protocol is a protocol for user data transmission. The U-Plane protocol includes DNS (Domain Name System), TCP, and HTTP. Specifically, the U-Plane protocol is a protocol that performs address resolution by DNS, TCP connection establishment, and HTTP request / response relay, for example.
[0007]
Next, a procedure for connecting the MS to the ISP server on the Internet network will be described with reference to FIG.
First, the user designates an access point name (APN; Access Point Name) representing a connection destination ISP server, and issues a connection instruction from the MS.
Thereby, first, connection processing by the C-Plane protocol (hereinafter referred to as “C-Plane connection”) is performed.
[0008]
Specifically, first, the MS transmits an Activate PDP Context Request (connection request signal) S101 including the APN according to the line control protocol 1.
The MMS receives the Activate PDP Context Request S101, and performs address resolution processing for specifying the GMMS to be connected from the APN included in the data. Then, the MMS transmits a Create PDP Context Request (call setting request signal) S102 to the GMMS to be connected according to the line control protocol 1.
[0009]
When the GMMS receives the Create PDP Context Request S102, the GMMS determines an IP address to be allocated to the MS from among IP addresses previously assigned to the own server. In addition, the GMMS allocates a connection ID for identifying the call. Then, the GMMS transmits a connection notification signal S103 to which the connection ID is added to the WPCG according to the line control protocol 2.
[0010]
When the WPCG receives the connection notification signal S103, the WPCG identifies the ISP server from the APN included in the connection notification signal S103, and manages information (IP address, etc.) of the ISP server. Then, the WPCG transparently transmits the connection notification signal S104 to the ISP server according to the line control protocol 3 (Transparent; without rewriting the contents of the data, only by performing protocol conversion or rewriting the header information). .
[0011]
The ISP server that has received the connection notification signal S104 determines whether or not the MS can connect to the server. Here, the ISP server determines that connection is possible, and transmits a connection notification response signal S105 including information on connection possible (reason indication “OK”) to the WPCG.
When receiving the connection notification response signal S105, the WPCG transparently transmits a connection notification response signal S106 having the data structure shown in FIG. 9 to the GMMS.
[0012]
As shown in FIG. 9, the connection notification response signal S106 includes a “reason indication” indicating whether the MS can connect to the ISP server and a “connection ID” for identifying the call. ing.
When the GMMS receives the connection notification response signal S106, the GMMS determines a domain name server for obtaining a WPCG IP address (hereinafter referred to as a “packet exchange server IP address”) from the IP address assigned to the MS. Then, the GMMS generates a Create PDP Context Response (call setting response signal) S107 including the IP address of the MS and the determined IP address of the domain name server, and transmits it to the MMS.
[0013]
The MMS receives the Create PDP Context Response S107 and transparently transmits an Activate PDP Context Accept (connection response signal) S108 to the MS.
With the above C-Plane connection, a control connection is established between the MS and the ISP server. Specifically, a radio access line is set between the MS and the MMS, and an ATM-SVC (Asynchronous Transfer Mode-Switched Virtual Connection) is set between the MMS and the GMMS, which is a logical channel for packets. The
[0014]
Next, when the MS receives the Activate PDP Context Accept S108 using the C-Plane protocol, the MS performs processing for connecting a communication line for transmitting and receiving user data according to the U-Plane protocol (hereinafter referred to as “U-Plane connection”). ).
Specifically, the MS extracts the IP address of the MS and the IP address of the domain name server included in the Activate PDP Context Accept S108. Then, the MS generates a DNS request S109 for inquiring about the packet switching server IP address from the IP address of the MS. The MS transmits the DNS request S109 to the domain name server identified by the IP address of the domain name server.
[0015]
The domain name server receives the DNS request S109 and reads the packet switching server IP address corresponding to the IP address of the MS from its own server. Then, the domain name server generates a DNS response S110 containing the packet exchange server IP address, and transmits it to the MS.
The MS receives the DNS response S110 and generates a TCP connection connection request signal (SYN packet) using the packet exchange server IP address included in the DNS response S110 as the destination address and the MS IP address as the source address. To do. Then, the MS transmits the generated TCP connection connection request signal to the WPCG identified by the transmission destination address. Thereby, the TCP connection S111 is established between the MS and the WPCG by a so-called 3Way handshake.
[0016]
Further, the WPCG operates as a proxy server when receiving a TCP connection connection request signal from the MS, and performs U-Plane connection to the ISP server. That is, the WPCG transmits a SYN packet having the IP address of the ISP server as the transmission destination address and the IP address of the WPCG as the transmission source address, and establishes a TCP connection S112 with the ISP server by the 3-Way handshake.
As a result, the MS is connected to the Internet network (the communication line between the MS and the ISP server is connected), and the MS can perform HTTP communication S113 with the ISP server.
[0017]
[Non-Patent Document 1]
“Technical Reference Material for Using FOMA Service Appendix 4 Version 1.0” p. 11, [online], 2001/10/01, edited by NTT DoCoMo, Inc. [searched on June 9, 2003], Internet <URL: http: // www. nttdocomo. co. jp / corporate / r_d / pdf / foma4. pdf>
[0018]
[Problems to be solved by the invention]
In the Internet connection performed by the conventional MS as described above, many signals are exchanged from when the MS transmits a connection request signal to when the MS connects to the Internet network. In the network system employing the communication sequence shown in FIG. 8, transmission of signals between the MS and the MMS is performed by wireless communication, so that the transmission delay is larger than that of wired communication. In the conventional Internet connection, since a large number of signals are transmitted and received in such a wireless communication section with a large transmission delay, the transmission delay is further increased.
[0019]
The present invention has been made to solve the above-described conventional problems, and an object of the present invention is to provide a server, a communication network system, a communication method, and a mobile that can be connected to a communication network with a small number of signals. A body communication terminal.
[0020]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, according to a first aspect of the present invention, there is provided a communication address storage means for storing a communication address for uniquely identifying the server in the communication network in a server that receives a connection request to the communication network. And a response signal transmitting means for transmitting a communication address stored in the communication address storage means together with a signal for responding to a connection request to the communication network according to a control signal transmission protocol, and transmitting the communication address. A server is characterized in that a communication connection with the server identified by the communication address is established in accordance with a protocol for user data transmission and can be connected to the communication network.
[0021]
According to the first aspect of the present invention, the server transmits a communication address for uniquely identifying the server in the communication network according to the control signal transmission protocol together with the response signal, and the transmission destination. The communication address of the server is directly notified to the transmission destination, so that the transmission destination can efficiently send and receive a signal for inquiring about the communication address of the server to the domain name server as in the past. A communication connection with the server can be established. Thus, by reducing the number of signal exchanges, it is possible to shorten the time from when the connection request signal is transmitted until the connection to the communication network. In addition, since the amount of data exchanged is reduced by reducing the number of signal exchanges, it is possible to reduce the communication fee in the case of the billing system based on the data-based system. In addition, the domain name server for resolving the server address, which has been necessary in the past, is no longer necessary, and the labor for constructing the domain name server can be saved.
[0022]
According to a second aspect of the present invention, in the server according to the first aspect, the communication network is an Internet network, and the communication address is an IP address.
According to the invention described in claim 2, the server described in claim 1 is suitable for use as a relay device for connecting to the Internet network.
[0023]
According to a third aspect of the present invention, when the mobile communication terminal transmits a connection request signal for requesting connection of a communication line with a connection target server via another server, the mobile communication terminal When the other server receives a response signal for responding to the connection request signal from the connection target server, the local server connects the communication line between the server and the connection target server. Response signal transmitting means for transmitting to the mobile communication terminal according to a control signal transmission protocol together with the response signal, the mobile communication terminal using the received communication address. Establishing a communication connection with the identified server in accordance with a protocol for user data transmission, between the mobile communication terminal and the connection target server To provide a communication network system characterized in that to be able to connect the communication line.
[0024]
According to a third aspect of the present invention, the communication network system notifies the mobile communication terminal of a communication address of the other server together with the response signal according to the control signal transmission protocol. Therefore, the mobile communication terminal can establish a communication connection with the other server using the received communication address without inquiring a domain name server about the communication address of the other server. For this reason, in the communication network system, transmission / reception of signals from the time when the mobile communication terminal transmits the connection request signal to connection with the connection target server can be reduced. Therefore, in particular, in the communication network system in which there is a section in which signal transmission is performed by wireless communication and a large transmission delay is likely to occur, after the mobile communication terminal transmits the connection request signal, It is possible to shorten the time until the connection target server and the communication line are connected. Further, similarly to the above, it is possible to realize a reduction in communication charges due to data-based billing and abolishment of the domain name server.
[0025]
According to a fourth aspect of the present invention, the mobile communication terminal transmits a connection request signal for requesting connection of a communication line with a connection target server via another server, whereby the mobile communication terminal In the communication line connection method for connecting a communication line between the server and the connection target server, the other server receives a first connection notification response signal for responding to the connection request signal from the connection target server. A response step of transmitting a second connection notification response signal including a communication address for identifying the server itself to the mobile communication terminal according to a control signal transmission protocol; and the mobile communication terminal. Immediately after receiving the second connection notification response signal transmitted in the response step, the second connection notification response signal is transmitted according to a user data transmission protocol. To provide a communication method and a connection step of establishing a communication connection with the other server identified by the communication address that is contained in.
[0026]
According to the fourth aspect of the present invention, immediately after the mobile communication terminal receives the second connection notification response signal transmitted according to the control signal transmission protocol in the response step, the user According to the protocol for data transmission, the mobile communication terminal is configured to establish a communication connection with the other server identified by the communication address included in the second connection notification response signal. After receiving the connection notification response signal, the domain name server immediately uses the communication address included in the second connection notification response signal without generating a signal for inquiring the communication address of the connection target server. A communication line can be connected to the connection target server. For this reason, in the communication method, after the mobile communication terminal transmits the connection request signal, it is possible to connect the communication line with the connection target server by exchanging a small number of signals. The time until it can be shortened. Further, similarly to the above, it is possible to realize a reduction in communication charges due to data-based billing and abolishment of the domain name server.
[0027]
The invention according to claim 5 connects the communication line with the connection target server by transmitting a connection request signal for requesting connection of the communication line to the connection target server via another server. In the mobile communication terminal, a response signal receiving means for receiving a connection notification response signal for responding to the connection request signal from the connection target server via the other server according to a C-Plane protocol, and the response Connection means for establishing a communication connection with the other server according to the U-Plane protocol using a communication address included in the connection notification response signal received by the signal receiving means for identifying the other server. A mobile communication terminal is provided.
[0028]
According to the fifth aspect of the present invention, the connection notification response signal received by the mobile communication terminal according to the C-Plane protocol for transmitting the control signal is a communication address for identifying the other server. Therefore, the mobile communication terminal uses the communication address included in the connection notification response signal without querying the domain name server for the communication address of the connection target server, and uses the U-Plane protocol. Accordingly, a communication connection with the other server can be established immediately. For this reason, the mobile communication terminal can connect the connection target server and the communication line by transmitting and receiving a small number of signals after transmitting the connection request signal, and the time until the communication line is connected. Can be shortened. Further, similarly to the above, it is possible to realize a reduction in communication charges due to data-based billing and abolishment of the domain name server.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings. In each drawing referred to in the following description, the same reference numerals are given to the same parts as in the other drawings.
[A. Constitution]
First, the configuration of the present invention will be described.
[A-1. overall structure]
FIG. 1 is a block diagram showing the overall configuration of a communication network system 1 according to an embodiment of the present invention. As shown in FIG. 1, the communication network system 1 includes a packet communication network 20 including an MS 10, an MMS 21 and a GMMS 22, a WPCG 30, an ISP server 40, and an Internet network 50.
[0030]
The signal transmission method between the MS 10, the MMS 21, and the GMM 22 in the communication network system 1 conforms to 3GPP, which is a standard for the third generation mobile communication system (IMT-2000). The communication network system 1 exchanges signals according to a C-Plane protocol that transmits control signals and a U-Plane protocol that transmits user data. In the following description, only the packet switching function among the packet switching and circuit switching functions of the communication network system 1 will be described.
[0031]
The MS 10 and the packet switching network 20 are connected by a radio access network (not shown). The radio access network includes a radio base station and a radio network control device, and transmits and receives radio signals between the MS 10 and the packet switching network 20. As a radio access method in the radio access network, W-CDMA (Wideband Code Division Multiple Access) is used.
[0032]
The packet switching network 20 performs packet switching. The WPCG 30 has a proxy gateway function and relays data exchange between the packet switching network 20 and the Internet network 50 by performing protocol conversion. The ISP server 40 is connected to the Internet network 50, and provides various service information to the MS 10 through HTTP communication.
[0033]
In the figure, only one MS 10, packet switching network 20, WPCG 30, and ISP server 40 are shown, but there are actually a plurality of them. Further, a plurality of WPCGs 30 are connected in parallel to one GMMS 22 for load distribution.
[A-2. Configuration of WPCG]
Next, the configuration of the WPCG 30 will be described.
[0034]
The WPCG 30 has a general computer hardware configuration. That is, the WPCG 30 includes a CPU (Central Processing Unit) that controls the entire WPCG 30, a ROM (Read Only Memory) that stores a program that is executed at startup, a RAM (Random Access Memory) that temporarily stores data, various data, A hard disk device for storing the program and a communication interface for controlling data exchange with the packet switching network 20 and the Internet network 50 are provided.
[0035]
As shown in FIG. 2, the WPCG 30 hard disk device is provided with a communication address storage area 31. In this communication address storage area 31, a packet exchange server IP address for uniquely identifying the WPCG 30 in the Internet network 50 is stored. The hard disk device of the WPCG 30 stores information for managing the ISP server 40 (such as an APN and an IP address for identifying the ISP server 40).
[0036]
Various programs are stored in the hard disk device of the WPCG 30, and the following functions of the WPCG 30 are realized by the CPU of the WPCG 30 reading out the programs from the hard disk device and executing the programs.
The WPCG 30 has a gateway function that relays data exchange between the packet switching network 20 and the Internet network 50. Specifically, the WPCG 30 terminates and converts control signals that are exchanged according to the C-Plane protocol for call control and user data that is exchanged according to the U-Plane protocol (TCP, HTTP, DNS) for user data transmission. , Relay.
[0037]
Further, the WPCG 30 specifies the ISP server 40 from the APN included in the connection notification signal received from the MS 10, information such as the IP address of the specified ISP server 40, the connection state of the MS 10 that has transmitted the connection notification signal, and the like. Manage.
Further, the WPCG 30 includes response signal transmission means 32 shown in FIG. 2, which is characteristic of the present invention. When the response signal transmission means 32 receives a connection notification response signal for responding to the connection notification signal from the ISP server 40 according to the C-Plane protocol, the packet switching server IP stored in the communication address storage area 31 is received. Read the address. Then, the response signal transmission unit 32 connects the connection shown in FIG. 3 based on the read packet exchange server IP address and the information (reason display and connection ID) included in the connection notification response signal received from the ISP server 40. A notification response signal is generated. Then, the response signal transmission unit 32 transmits the generated connection notification response signal according to the C-Plane protocol.
[0038]
As shown in FIG. 3, the connection notification response signal includes a “reason indication” indicating whether the MS 10 can connect to the ISP server 40, a “connection ID” for identifying a call, and a “packet switching server”. "IP address".
Further, the WPCG 30 has a function of an HTTP proxy server that relays between the MS 10 and the ISP server 40. Specifically, when the WPCG 30 receives a TCP connection establishment request signal from the MS 10 according to the U-Plane protocol, the WPCG 30 establishes a TCP connection between the MS 10 and the WPCG 30 and also establishes a TCP connection between the WPCG 30 and the ISP server 40. Establish a connection. The WPCG 30 relays an HTTP request / response transmitted / received between the MS 10 and the ISP server 40 in accordance with the U-Plane protocol.
[A-3. Packet switched network]
Next, the packet switching network 20 will be described.
[0039]
Data (packet) transmission between the MMS 21 and the GMMS 22 is performed according to an ATM (Asynchronous Transfer Mode) transmission method. Between the MMS 21 and the GMMS 22, ATM-SVC is set as a communication line between exchanges at the time of C-Plane connection, and connection-type routing is realized.
[0040]
The MMS 21 is a packet switch in which the MS 10 is located, and has a general computer hardware configuration. When the MS 10 is powered on, the MMS 21 downloads and manages the MS 10 subscriber information (providing service class, connectable APN information, authentication information, etc.) from a server (not shown) (attachment procedure). .
[0041]
When the MMS 21 receives an Activate PDP Context Request (connection request signal) from the MS 10 according to the C-Plane protocol, the MMS 21 determines whether or not to connect based on the managed subscriber information, and the APN included in the connection request signal Then, an address resolution process for specifying the GMMS 22 to be connected is performed. Then, the MMS 21 transparently transmits a Create PDP Context Request (call setting request signal) to the GMMS 22 according to the C-Plane protocol.
[0042]
Further, as a characteristic feature of the present invention, the MMS 21 transparently exchanges packets when receiving a Create PDP Context Response (call setting response signal) including a packet switching server IP address by the C-Plane protocol. An Activate PDP Context Accept (connection response signal) including the server IP address is transmitted to the MS 10. Further, the MMS 21 relays user data exchange according to the U-Plane protocol.
[0043]
The GMMS 22 is a gateway exchange that performs access control (connection notification, incoming call notification, etc.) with the ISP server 40, and has a general computer hardware configuration. The storage unit of the GMMS 22 stores a plurality of IP addresses assigned in advance. The IP address is dynamically allocated to the MS 10 as a communication address for identifying the MS 10 when connected to the U-Plane when receiving a Create PDP Context Request from the MS 10 according to the C-Plane protocol.
[0044]
Further, when receiving a Create PDP Context Request from the MMS 21, the GMMS 22 sets a connection ID for identifying the call, and transmits a connection notification signal including the connection ID to the WPCG 30 according to the C-Plane protocol. To do.
As a characteristic feature of the present invention, when the GMMS 22 receives a connection notification response including a packet exchange server IP address from the WPCG 30 according to the C-Plane protocol, the GMMS 22 A Create PDP Context Response (call setting response signal) including the exchange server IP address is generated and transmitted to the MMS 21.
[0045]
In addition, the GMMS 22 relays user data exchange according to the U-Plane protocol in the same manner as the MMS 21.
[A-4. Configuration of MS]
Next, the configuration of the MS 10 will be described.
The MS 10 is a mobile communication terminal that performs wireless communication in accordance with a communication scheme based on IMT-2000. The MS 10 has a general hardware configuration of a mobile communication terminal. That is, the MS 10 includes a CPU that controls the entire MS 10, a wireless communication unit for performing wireless communication, an operation unit that gives instructions to the CPU by operating various keys, a call processing unit for performing a call, and various screens And a storage unit for storing various programs and data.
[0046]
By reading and executing various programs stored in the storage unit of the MS 10 by the CPU of the MS 10, the response signal receiving unit 11 and the connection unit 12 of the MS 10, which are functions characteristic of the present invention, shown in FIG. Is realized.
The response signal receiving unit 11 receives the Activate PDP Context Accept according to the C-Plane protocol. This Activate PDP Context Accept is a process in which the connection notification response signal transmitted from the ISP server 40 passes through the WPCG 30 and the packet switching network 20, and the packet switching server IP address and the MS IP address are added. It has been sent to the MS 10.
[0047]
The connection unit 12 extracts the packet exchange server IP address included in the Activate PDP Context Accept received by the response signal reception unit 11 and the IP address of the MS 10. The connection means 12 generates a TCP connection connection request signal (SYN packet) using the extracted packet exchange server IP address as the transmission destination address and the extracted IP address of the MS 10 as the transmission source address. Then, the connection unit 12 transmits a TCP connection connection request signal to the WPCG 30 identified by the transmission destination address according to the U-Plane protocol, and establishes a TCP connection with the WPCG 30 by a 3-Way handshake.
Further, the MS 10 has a function of transmitting an Activate PDP Context Request including APN and a function of performing HTTP communication.
[0048]
[B. Operation]
Next, the operation of the present embodiment in the above configuration will be described with reference to the sequence chart shown in FIG. 5 and the flowcharts shown in FIGS. 6 and 7.
First, the user designates an APN representing the ISP server 40 that is the connection destination, and issues a connection instruction from the MS 10. At this time, the signal sequence from S201 to S205 shown in FIG. 5 is the same as the conventional signal sequence from S101 to S105 shown in FIG. 8, and therefore when WPCG 30 receives connection notification response signal S205. The operation will be described.
[0049]
When receiving the connection notification response signal S205, the WPCG 30 performs response processing shown in the flowchart of FIG.
Specifically, first, the response signal transmission means 32 of the WPCG 30 reads the packet exchange server IP address from the address information storage area 31 (step S301). The response signal transmission means 32 then displays “reason indication” “OK” included in the read IP address and the connection notification response signal S205 received from the ISP server 40, and “connection ID” for identifying the call. Based on the above, a connection notification response signal S206 shown in FIG. 3 is generated (step S302). Then, the response signal transmission unit 32 transmits the generated connection notification response signal S206 to the GMMS 22 according to the C-Plane protocol (step S303).
[0050]
When the GMMS 22 receives the connection notification response signal S206, the GMMS 22 generates a Create PDP Context Response S207 including the IP address allocated to the MS 10 and the packet switching server IP address included in the connection notification response signal S206. Send to MMS21.
The MMS 21 receives the Create PDP Context Response S207, and transparently transmits the Activate PDP Context Accept S208 to the MS 10.
[0051]
C-Plane connection is performed by the control signals S201 to S208 transmitted according to the above C-Plane protocol, and a control connection is set between the MS 10 and the ISP server 40.
Next, the U-Plane connection process when the response signal receiving unit 11 of the MS 10 receives the Activate PDP Context Accept S208 will be described with reference to FIG.
[0052]
The response signal receiving means 11 of the MS 10 receives the Activate PDP Context Accept S208 according to the C-Plane protocol (Step S401), and the packet exchange server IP address included in the Activate PDP Context Accept S208 and the IP address of the MS 10 Is extracted (step S402).
And the connection means 12 performs U-Plane connection (step S403). Specifically, the connection unit 12 first establishes a TCP connection. That is, the connection unit 12 generates a TCP connection connection request signal (SYN packet) using the packet exchange server IP address extracted in step S402 as the transmission destination address and the MS 10 IP address extracted in step S402 as the transmission source address. .
[0053]
Subsequent TCP connection establishment processing and HTTP communication are the same as those in the conventional technology described above. That is, the connection unit 12 transmits the generated TCP connection connection request signal to the WPCG 30 identified by the transmission destination address, and establishes the TCP connection S209 with the WPCG 30 by a 3-way handshake. Further, the WPCG 30 operates as a proxy server and performs U-Plane connection to the ISP server 40. That is, the WPCG 30 transmits a SYN packet to the ISP server 40, and establishes a TCP connection S210 with the ISP server 40 by a 3-way handshake.
[0054]
As a result, the MS 10 is connected to the Internet network 50 (the communication line between the MS 10 and the ISP server 40 is connected), and the MS 10 performs HTTP communication S211 with the ISP server 40.
As described above, conventionally, information transmitted from the packet switching network 20 to the MS 10 by the C-Plane protocol is the IP address of the MS 10 and the IP address of the domain name server. Therefore, the MS 10 needs to inquire of the domain name server about the packet switching server IP address by the DNS request S109 based on the received IP address of the MS 10. Then, the MS 10 has established a TCP connection S111 with the WPCG 30 using the packet exchange server IP address obtained in the DNS response S110.
[0055]
In contrast, in the present invention, the conventional idea of acquiring the IP address of the connection destination from the domain name server is reversed, and the packet exchange server IP address is included in the connection notification response signal S206 transmitted by the WPCG 30. . Then, the MS 10 receives the Activate PDP Context Accept S208 by the C-Plane protocol, so that the packet exchange server IP address can be directly acquired. For this reason, in the U-Plane connection, it is possible to connect the communication line between the MS 10 and the ISP server 40 by exchanging few signals, omitting the communication sequence of the conventional DNS request S109 and DNS response S110. It was.
[0056]
In the communication network system 1, the following response data is exchanged. That is, response data including a communication address for uniquely identifying the server in the communication network,
On the computer,
A function of transmitting data for requesting establishment of a communication connection according to the U-Plane protocol to a server identified by the communication address included in the response data received according to the C-Plane protocol.
Response data used for realizing the above is exchanged.
[0057]
[C. Modified example]
Although the embodiments of the present invention have been described above, the present invention is not limited to such embodiments, and various modifications can be made within the scope of the technical idea. As modifications, for example, the following can be considered.
[0058]
(1) In the above-described embodiment, the aspect in which the MS 10 is connected to the Internet network 50 in the communication network system 1 compliant with the third generation mobile communication system has been described. However, the present invention is not limited to such an aspect. For example, the type of communication network to be connected may be a communication network that performs routing using a communication address other than the next-generation IP address, and the connection request source may be a personal computer instead of the MS 10. Good. In the above embodiment, the device that transmits the IP address of its own server in the connection notification response signal is the WPCG 30 that is a relay device, but is not limited to the relay device. For example, if the connection destination of the MS 10 in the U-Plane connection is the ISP server 40, the device that transmits the IP address of the local server in the connection notification response signal is the ISP server 40.
[0059]
By transmitting the control signal transmitted in accordance with the technical idea of the present invention, that is, according to the control signal transmission protocol, including information such as a communication address used in the user data transmission protocol in the next process, The technical idea of enabling connection to a communication network with a small number of signal exchanges can be applied to various modes, and can be applied to, for example, new communication networks and device configurations after the fourth generation. .
[0060]
(2) In the above embodiment, the connection notification response signal S206 and the packet switching server IP address can be transmitted together (simultaneously) by including the packet switching server IP address in the connection notification response signal S206. If it can be recognized that the transmission destination is transmitted together (simultaneously), the connection notification response signal S206 and the packet exchange server IP address may be transmitted as separate data. In this case, in order to make it possible to recognize that the transmission destination has been transmitted together, the data is exchanged by assigning the same identification number to the connection notification response signal S206 and the packet exchange server IP address. It is necessary to associate.
[0061]
【The invention's effect】
As described above, the server transmits the communication address of its own server together with the response signal responding to the connection request in accordance with the control signal transmission protocol, and directly notifies the destination of the communication address of the server. Therefore, the transmission destination can establish a communication connection with the server without sending / receiving a signal for inquiring about the communication address of the server to the domain name server, as in the past. By reducing the number of signals exchanged in this way, it is possible to shorten the time from transmission of the connection request signal to connection to the communication network. Further, since the amount of data exchanged is reduced, the communication fee can be reduced as compared with the conventional case in the case of the billing system based on the data usage system. In addition, the domain name server for resolving the server address, which has been necessary in the past, is no longer necessary, and the labor for constructing the domain name server can be saved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a communication network system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a functional configuration of a WPCG according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a data configuration of a connection notification response signal transmitted by the WPCG according to the embodiment of the present invention.
FIG. 4 is a block diagram showing a functional configuration of an MS according to the embodiment of the present invention.
FIG. 5 is a sequence chart for explaining a communication sequence in which an MS according to an embodiment of the present invention connects to an ISP server on the Internet network.
FIG. 6 is a flowchart for explaining WPCG response processing according to the embodiment of the present invention;
FIG. 7 is a flowchart for explaining U-Plane connection processing of an MS according to the embodiment of the present invention.
FIG. 8 is a sequence chart for explaining a communication sequence in which a conventional MS connects to an ISP server on the Internet network.
FIG. 9 is a diagram showing a data structure of a connection notification response signal transmitted by a conventional WPCG.
[Explanation of symbols]
1 Communication network system
10 MS (Mobile Station)
11 Response signal receiving means
12 Connection means
20 packet communication network
21 MMS (Mobile Multimedia Switching System)
22 GMMS (Gateway Mobile Multimedia switching System)
30 WPCG (Wireless Protocol Conversion Gateway)
31 Communication address storage means
32 Response signal transmission means
40 ISP (Internet Service Provider) server
50 Internet network

Claims (5)

In the server that receives the connection request to the communication network,
Communication address storage means for storing a communication address for uniquely identifying the server in the communication network;
Response signal transmission means for transmitting the communication address stored in the communication address storage means together with a signal responding to a connection request to the communication network, according to a protocol for control signal transmission,
A server characterized in that a destination of the communication address establishes a communication connection with the server identified by the communication address in accordance with a protocol for user data transmission and can connect to the communication network. The server according to claim 1, wherein the communication network is an Internet network, and the communication address is an IP (Internet Protocol) address. The mobile communication terminal transmits a connection request signal for requesting connection of a communication line with the connection target server via another server, so that the connection between the mobile communication terminal and the connection target server is performed. In a communication network system for connecting communication lines,
The other server is
When receiving a response signal for responding to the connection request signal from the connection target server,
A response signal transmitting means for transmitting a communication address for identifying the own server, together with the response signal, to the mobile communication terminal according to a control signal transmission protocol;
The mobile communication terminal establishes a communication connection with a server identified by the received communication address according to a user data transmission protocol, and establishes a communication line between the mobile communication terminal and the connection target server. A communication network system characterized in that it can be connected. The mobile communication terminal transmits a connection request signal for requesting connection of a communication line with the connection target server via another server, so that the connection between the mobile communication terminal and the connection target server is performed. In a communication method for connecting a communication line,
A second connection including a communication address for identifying the own server when the other server receives a first connection notification response signal for responding to the connection request signal from the connection target server. A response step of transmitting a notification response signal to the mobile communication terminal according to a control signal transmission protocol;
Immediately after the mobile communication terminal receives the second connection notification response signal transmitted in the response step, communication included in the second connection notification response signal according to a user data transmission protocol A communication step including establishing a communication connection with the other server identified by an address. In the mobile communication terminal that connects the communication line with the connection target server by transmitting a connection request signal for requesting connection of the communication line to the connection target server via another server,
Response signal receiving means for receiving a connection notification response signal for responding to the connection request signal from the connection target server via the other server according to a C-Plane (Control Plane) protocol;
Communication with the other server according to the U-Plane (User Plane) protocol using the communication address included in the connection notification response signal received by the response signal receiving means for identifying the other server. A mobile communication terminal comprising a connection means for establishing a connection.

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