JP4179617B2 - Communication network system - Google Patents

Description

  The present invention relates to a mobile communication network utilization system in which an information processing apparatus connected to a mobile device requests a service from a server via a data communication service of a mobile communication network, and the server provides the service. The present invention also relates to a communication network system used when an information processing apparatus connected to a mobile device transmits a request to a server via a data communication service of a mobile communication network.

Conventionally, an international roaming compatible mobile device that can use international roaming is known as this type of mobile device (see Patent Document 1). Here, international roaming is the same as when a user who is subscribed to a mobile communication network (home network) whose service area is in a country is also in the service area of a mobile communication network outside the country. A mobile communication service that can communicate with the Internet.
On the other hand, a system using a communication interface device of a personal computer as an information processing device and using a data communication service of a mobile communication network is known (see Patent Document 2). In such a system, an application such as a browser is started on a personal computer, a request is transmitted from the personal computer to a server on the Internet via a mobile device, and various contents services provided by the server can be received. Possible content services available on this server include downloading image data, music data, games, and other programs, transactions such as securities trading, bank account transfers, and electronic payments using credit cards. .
JP 2001-119750 A

However, when a personal computer is connected to the international roaming-compatible mobile device and various services provided exclusively for domestic users are received from overseas via the data communication service of the mobile communication network, various problems occur. Occurs.
FIG. 22 is an explanatory diagram showing problems of content services by international roaming.
For example, consider a case where a personal computer 902 connected to a mobile device 901 accesses a Japanese bank server 910 to make an account transfer. When the mobile device 901 and the personal computer 902 are located in the domestic service area 903 and access the Japanese bank server 910 via the domestic mobile communication network (wireless access network + core network) and the Internet. Is no problem. However, when the mobile device 901 and the personal computer 902 are located in the service area 904 outside the country and access the Japanese bank server 910, the country where the service area where the mobile device 901 and the personal computer 902 are located is located. The country where the bank server 910 is located is different, and there is a time difference between the date and time outside the country and the date and time in Japan, which may affect the legal effect of the settlement process.
As another example, there is a case in which a personal computer 902 connected to the mobile device 901 accesses a server 911 of a Japanese distribution company, purchases content with copyright, and downloads it to the personal computer 902. Think. Various cases are envisaged, such as when the right to copy contents and the right to public transmission are contracted for each country in which the user is located, or when no contract is made depending on the country in which the user is located. Therefore, there is no particular problem when the mobile device 901 and the personal computer 902 are located in the service area 903 of Japan, which is the company location of the distribution company. However, the mobile device 901 and the personal computer 902 are provided with services outside the country. If the user is located in the area 904 and requests distribution of content from the server 911 of the distribution company, according to the contractual relationship regarding the copyright of the content, depending on the country in which the mobile device 901 and the personal computer 902 are located, Need to change.

The present invention has been made in view of the above problems, its object is that enables the mobile device connected to the information processing apparatus that requests a service to provide services in accordance with the area to be visited to provide a communication network system.

In order to achieve the above object, the invention of claim 1 is a communication network system used when an information processing apparatus connected to a mobile device transmits a request to a server on the Internet via a mobile communication network. A plurality of switching nodes for relaying communication by a mobile device in a mobile communication network, and an Internet gateway device disposed between the mobile communication network and the Internet, the Internet gateway device comprising: When a request transmitted from the information processing device is received from a mobile device connected to the information processing device, the area-related information used for determining the area of the mobile device in the header area of the received request If there is no specified header describing the request, the request passes first The address of the switching node is acquired, the header area of the request is expanded, the predetermined header is added, the address of the switching node is described as the area-related information in the predetermined header, and the predetermined header is The request is transmitted to the server .
The invention of claim 2 is a communication network system used when an information processing apparatus connected to a mobile device transmits a request to a server on the Internet via a mobile communication network, A plurality of switching nodes for relaying communication by a mobile device, and an Internet gateway device arranged between the mobile communication network and the Internet, and the mobile communication network of the plurality of switching nodes When the exchange gateway node arranged on the Internet side receives a request transmitted from the information processing device from a mobile device connected to the information processing device, the exchange gateway node displays the request in the header area of the received request. Predetermined area-related information used to determine the area where If there is no header, the address of the exchange node through which the request first passes is obtained, the header area of the request is expanded, the predetermined header is added, and the area-related information is added to the predetermined header. The address of the switching node is described, and the request having the predetermined header is transmitted to the server.

Here, the “information processing apparatus” is an apparatus capable of processing information by requesting a service from a server via a data communication service of a mobile communication network by connecting to a mobile device, and includes a personal computer or the like. It is.
Further, the “area” may be an area corresponding to one country, a plurality of areas constituting the country, or a region extending over a plurality of countries. In addition, it may be the entire service area in which the communication carrier provides the communication service, or an area composed of one cell set to manage communication by the mobile device in the entire service area, or a plurality of areas It may be an area composed of cells.

The invention of claim 3 is the communication network system according to claim 1 or 2 , wherein the mobile communication network relays a request transmitted from the mobile device via a plurality of packet switching nodes. And the area-related information is an address of a packet switching node through which the request first passes, and the switching gateway node is a packet switching gateway node arranged on the Internet side of the mobile communication network It is characterized by this.

According to a fourth aspect of the present invention, in the communication network system according to the first or second aspect , the mobile communication network relays a request transmitted from the mobile device via a plurality of circuit switching nodes. a network, the area related information is address line switching node to which the request is initially passed, the exchange gateway node is a circuit switched gateway node disposed in the Internet side of said mobile communication network it is characterized in that.

A fifth aspect of the present invention includes the mobile network connected to the information processing apparatus in the communication network system according to any one of the first to fourth aspects .

According to the present invention, it is possible to determine the area where a mobile device is located in the header area of a request transmitted from the information processing apparatus via the mobile device without making a major change in the configuration of the existing mobile communication network. Even if a predetermined header describing area-related information used for the mobile phone is not included, it is possible to provide a service according to the area where the mobile device connected to the information processing device requesting the service is located There is an effect of becoming.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an overall configuration diagram of a mobile communication network utilization system according to the present embodiment. In FIG. 1, a mobile communication network utilization system includes a personal computer 1 as an information processing device, an international roaming compatible mobile device 2 connected to a personal computer (PC) 1, and a domestic mobile communication network (home). Network) 3 and a content provider server (Web server) 6 located in the country connected to the Internet 5.

  The mobile device 2 is an international roaming compatible mobile device capable of performing similar communication even when moving from the service area of the domestic mobile communication network 3 to the service area of the mobile communication network 4 outside Japan. . The mobile device 2 is connected to the personal computer 1, receives a request transmitted from the personal computer 1, converts communication data including the request so as to correspond to the data communication service, and converts the converted request to mobile communication. Send to network 3.

  The server 6 is, for example, a bank server or a distribution company server. The server 6 receives a request transmitted from the mobile device 2 and relayed by the mobile communication network 3, and controls the provision of the service requested by the request according to the service area in which the mobile device 2 is located. To do.

  The mobile communication network (wireless access network + core network) 3 is connected to the Internet 5 via an Internet gateway (G / W) device 7. A user authentication system (RADIUS: Remote Authentication Dial-In User Service) 9 is connected to a relay network path between the Internet gateway device 7 and the mobile communication network 3. In the database of the user authentication system (RADIUS) 9, authentication information such as an account and password of a user who is a mobile communication subscriber, accounting information, and the like are recorded. These pieces of information can be inquired from the Internet gateway device 7 as necessary.

  The communication network system used when the personal computer 1 transmits a request to the server 6 via the data communication service of the mobile communication network 3 includes the mobile device 2, the mobile communication network 3, and the Internet gateway device 7. It is configured using.

  The domestic mobile communication network (home network) 3 is connected to a foreign mobile communication network (other network) 4 through a dedicated international communication line or the like. The domestic (Japan) mobile communication network 3 is, for example, a W-CDMA (Wideband-Code Division Multiple Access) network, and the foreign mobile communication network 4 is, for example, a GSM (Global System for Mobile Communications) network.

  The mobile communication network 3 includes a base station (BS) 31, packet switching nodes 32 and 33, circuit switching nodes 34 and 35, and a home location register (HLR) 36. I have. The base station 31 and the mobile device 2 constitute a radio access network that is a part of the mobile communication network 3. In 3GPP (3rd Generation Partnership Project), which is a third generation mobile communication system project, the base station is referred to as “Node-B”.

The packet switching nodes 32 and 33 are in the core network and are network elements constituting a packet switching network (for example, a packet network having a maximum downlink of 384 Kbps), and are also used for data communication services when receiving the service of the server 6. The packet switching node is configured by using a serving GPRS support node (SGSN) 32 and a gateway GPRS support node (GGSN) 33. These packet switching nodes 32 and 33 are switching nodes for packet bearer service (GPRS: General Packet Radio Service) provided on GSM, for example.
The serving GPRS support node (SGSN) 32 is a gateway between the radio access network and the packet-switched core network, and includes an IP router including a control function specific to mobile communication.
The gateway GPRS support node (GGSN) 33 is a gateway between the packet switching core network and the packet switching relay network, and is an IP firewall router including a control function unique to mobile communication.

  The circuit switching nodes 34 and 35 are Nos. Defined by ISDN (Integrated Services Digital Network) or the like. 7 is a network element constituting a circuit switching network (for example, a voice circuit network with a maximum of 64 Kbps) of a common line signal system, and is also used for a data communication service when receiving a service of the server 6. The circuit switching node includes a circuit switching station (MSC) 34, a circuit switching gateway (SG) that forms a signal control path, and a circuit switching gateway (MG) that forms a voice call path. 35).

The HLR 36 subscribed by the user of the mobile device 2 in the present embodiment is the home location register 3GHLR used in the third generation mobile communication system. This HLR 36 has a mobile station ISDN number definition (MSISDN), IMSI (International Mobile Subscriber Identity), setting status such as location registration, switching system data setting, transfer destination number, and last location registration. It manages “VLR (Visitor Location Register) address”, “MSC address”, “SGSN address” and the like. The information registered in the database of the home location register HLR 36 can be referred to from the Internet gateway device 7 as necessary.
Also, a visitor location register VLR (Visitor Location Register) is installed for each switching node SGSN and MSC of the mobile communication network. Information registered in the visitor location register VLR is basically copied to the home location register HLR 36. When searching the location information of the mobile device 2, the location information of the mobile device 2 is searched from all the visitor location registers VLR in the domestic mobile communication network 3 and the foreign mobile communication network 4. Since this is inefficient, the home location register HLR 36 is queried.

Address information (hereinafter referred to as “MSC address”) as node specifying information for specifying the circuit switching stations (MSCs) 34 and 44 that are the circuit switching nodes from which the mobile device 2 requested location registration, and the serving GPRS support node. Address information (hereinafter referred to as “SGSN address”) as node identification information for identifying (SGSN) 32 and 42 is 3GPP TS23 and CCITT (ITU-T) recommendation E.3. In accordance with H.164, both are independently managed by a home location register (3GHLR) 36.
The “MSC address” is information for specifying the circuit switching center MSC 34 or MSC 44 that has received the location registration request from the mobile station 2, and the upper digit thereof identifies the country where the service area of the circuit switching center MSC is located. “Country Code (CC)” and “National Destination Code (NDC)” are included.
On the other hand, the “SGSN address” is information for specifying the SGSN 32 or SGSN 42 that has received the location registration request from the mobile device 2, and the “country code CC ( Country Code) ”and“ National Destination Code (NDC) ”.
Both service areas may coincide completely, or one of them may be wider than the other. These can be regarded as data of the service area where the mobile device 2 is located.

  The country can be specified by the “country code CC”, and the communication carrier (operator) can be specified by the “domestic destination code NDC”. “Domestic destination code NDC” is published by the GSM Association. Of the “mobile communication network identifier PLMN identity” already described, the “country identifier MCC” is obtained from the “country code CC”, and the “operator (operator) identifier MNC” is obtained from the “domestic destination code NDC”.

  FIG. 2 is a block diagram showing a hardware configuration of the international roaming compatible mobile device 2 that can be used in the mobile communication network utilization system of the present embodiment. In FIG. 2, a control unit 201 as a control unit includes a CPU (Central Processing Unit), and wirelessly by a control program or application program stored in an internal memory (ROM / RAM: Read Only Memory / Random Acces Memory) 202. The transmission / reception unit 203 and the audio signal processing unit 204 are controlled to perform non-telephone network connection control such as telephone call control and data communication. The mobile device 2 may include a removable external memory card in addition to the internal memory 202.

The radio transceiver 203 is compatible with a plurality of mobile communication modes (for example, W-CDMA, CDMA2000, GSM). For example, when the user operates the key input unit 205 according to the current position, one of a plurality of mobile communication modes is selected. The control unit 201 sets the internal configuration of the wireless transmission / reception unit 203 according to the selected mobile communication mode.
The audio signal processing unit 204 performs digital / analog conversion on the audio data demodulated by the wireless transmission / reception unit 203 and outputs the result from a speaker (handset) 206. On the other hand, the audio signal input from the microphone (speaker) 207 is converted from analog to digital and output to the wireless transmission / reception unit 203 for modulation.

  The control unit 201 of the mobile device 2 is connected to a key input unit 205, a display unit 208, a camera unit 209, and an external interface unit 210. In addition to accessing a web page, data communication using the personal computer 1 and photographing. Control of game, e-mail transmission and reception, etc.

The external interface unit 210 performs processing for communicating with the personal computer 1 by short-range communication. The communication between the personal computer 1 and the mobile device 2 may be wired communication using an interface cable such as USB (Universal Serial Bus), wireless communication for short distance such as Bluetooth (registered trademark), Communication using infrared rays may be used.
When a data communication start command is received from the personal computer 1 via the external interface unit 210, the control unit 201 receives a predetermined telephone number (for example, a special number “* 99 #” or “* 7300”). The wireless transmission / reception unit 203 is controlled to automatically make a call and establish a communication line for data communication. Here, for example, when a call is made to the special number “* 99 #”, a data communication service by a packet switching network can be used. On the other hand, when a call is made to the special number “* 7300”, a data communication service by a circuit switching network can be used. The mobile device 2 determines which special number to call, that is, whether to use the data communication service by the packet switching network or the circuit switching network, according to the data communication start command received from the personal computer 1. Process based on included data.
Further, the external interface unit 210 performs a predetermined data conversion process on data transmitted to and received from the personal computer 1. For example, a request transmitted from the personal computer 1 is received, and the communication data including the request is converted so as to correspond to the data communication service. When the data communication service is used in this way, the mobile device 2 functions as a kind of modem when communicating from the personal computer 1.

  Next, in the mobile communication network utilization system using the international roaming compatible mobile device 2 having the above configuration, a request is transmitted from the personal computer 1 to the server 6 to provide a service corresponding to the area where the mobile device 2 is located. Data communication when receiving data will be described.

[Configuration example 1 of data communication system]
FIG. 3 is an explanatory diagram showing a main part of a communication system that provides a data communication service using a packet network including packet switching nodes 32, 33, and 42 in the mobile communication networks 3 and 4. As shown in FIG. In this data communication example, when the Internet gateway device 7 acquires area-related information regarding the service area in which the mobile device 2 is located and relays an HTTP (HyperText Tranfer Protocol) request transmitted from the mobile device 2, The area related information is added to the HTTP request. The area-related information is information used for determining an area where the mobile device 2 to which the personal computer 1 is connected is located.

  In FIG. 3, an HTTP request for requesting a service transmitted by the personal computer 1 is received by the mobile device 2. The mobile device 2 converts the communication data including the HTTP request received from the personal computer 1 so as to correspond to the data communication service of the packet network, and converts the communication data including the converted HTTP request into the mobile communication network 3. , 4 are transmitted. The HTTP request transmitted from the mobile device 2 is transferred through the packet network of the mobile communication network, converted into communication data in a predetermined data format by the gateway GPRS support node (GGSN) 33, and transmitted to the Internet gateway device 7. The

  The gateway device 7 adds the service area data in which the mobile device 2 is located as the area-related information of the mobile device 2 to the header area (region header) of the HTTP request received from the gateway GPRS support node (GGSN) 33. Then, the HTTP request is transmitted to the server 6 of the content provider.

Based on the service area data added to the HTTP request from the personal computer 1, the content provider server 6 considers the impact on its own content business in accordance with the country where the service area is located. Control processing for requests such as content distribution as convenient for the provider.
In addition, when the content provider server 6 receives the HTTP request and distributes the content to the personal computer 1, the content provider server 6 downloads the content using an HTTP response.

FIG. 4 is an explanatory diagram illustrating an example of an HTTP request and an HTTP header. As shown in FIG. 4, the HTTP request includes an HTTP header area 11 and an entity / body area 12. FIG. 5 is a specific example of data described in the HTTP header area 11.
The HTTP header area 11 includes a plurality of types of control data. In each control data, a pair of a header name and a header value is described repeatedly and continuously. As one of these, a “Region Header” 11 a indicating roaming information is added to the conventional HTTP header area 11 as an extension header.
On the other hand, a document is described in the entity body area 22 in, for example, HTML (HyperText Markup Language) format.
For example, the header name of the region header 11a is “x-vvvvv-region”, and the header value is roaming information. For example, the 3GPP (3rd Generation Partnership Project) TS25.331, 10.3.1. .11 uses the communication network identifier PLMN identity (Public Land Mobile Network identity).

The upper three digits of the communication network identifier PLMN identity are country identifiers (MCC: Mobile Country Code), and the lower two digits are operator identifiers (MNC: Mobile Network Code). Represents a service area of a mobile communication network.
When the mobile device 2 is located in the mobile communication network 3 in Japan (Japan), the communication network identifier PLMN identity is “44020”. Here, the upper three digits “440” is a country identifier (MCC) representing Japan, and the lower two digits “20” is a carrier identifier MNC representing a specific mobile communication carrier in the country. .
Similarly, when the mobile device 2 is located in the service area of the mobile communication network 4 outside the country, the communication network identifier PLMN identity displays the service area. It may be sufficient if it can be determined. Accordingly, when the mobile device 2 is located in the service area of the mobile communication network 4 outside the country, for example, “FFFFF” may be used.

  FIGS. 6A and 6B are sequence diagrams showing an example of processing when accessing a domestic content provider server 6 from a personal computer (PC) 1 connected to a mobile device 2 in or outside the country. is there. These figures show information transmission / reception processing when requesting content from the personal computer 1 to the content provider server 6 via the mobile device 2 after the processing at power-on is completed.

  As shown in FIGS. 6 (a) and 6 (b), in the network, a mobile communication network identifier PLMN identity indicating a service area in which the mobile device 2 is located in an HTTP request without a region header transmitted from the personal computer 1 in the network. A region header in which (at least the country identifier MCC) is described is added. For example, when the mobile device 2 is located in the country, a region header describing “44020” is added to the HTTP request as shown in FIG. On the other hand, if the mobile device is located outside the country, a region header describing “FFFFF” is added to the HTTP request as shown in FIG. In this way, if it is only necessary to distinguish between domestic and foreign countries, a region header describing either “44020” or “FFFFF” is added.

When it is determined that the HTTP request has a region header, the content provider server 6 determines whether the value of the region header is “44020”. In the case of “44020”, the server 6 transmits data for displaying the usage screen exemplified in “screen c”. That is, the top page (Web page) of the Web site of the content provider 6 is displayed on the personal computer 1. Although the subsequent processing is not shown in the figure, the user selects music content such as a desired ringing melody, completes the accounting process, and downloads the music content.
On the other hand, when the value of the region header is not “44020”, the server 6 transmits data for displaying the use-disallowed screen exemplified in “screen d”. In other words, the Web site of the accessed content provider 6 is notified that it cannot be used from outside the country.

Next, aspects of a plurality of data communication procedures relating to acquisition and addition of service area information of a mobile station in the data communication system shown in FIG. 3 will be described.
[Data communication example 1-1]
FIG. 7 shows that the Internet gateway device 7 in the data communication system of FIG. 3 acquires node specifying information such as SGSN addresses and IP addresses of the SGSNs 32 and 42 from the user authentication system RADIUS 9 and adds a region header to the HTTP request. It is a sequence diagram which shows an example of the data communication procedure in the case.
First, the user operates the personal computer 1, starts a network connection application for receiving a data communication service by the mobile device, and makes a network connection request. The network connection application sends data specifying one of a predetermined telephone number (for example, a special number “* 99 #” or “* 7300”) to the mobile device 2 at the end of the USB cable through the communication driver. Sending and instructing communication start. In the example of FIG. 7, in order to use the data communication service of the packet line (packet switching network), the special number “* 99 #” is automatically called.
Upon receiving the communication start instruction, the mobile device 2 determines the line type based on the designated telephone number (for example, the special number “* 99 #” or “* 7300”), and automatically executes the predetermined telephone number. The packet line (packet switching network) or the voice line (circuit switching network) is connected to the mobile communication network. In this data communication example, connection is made to a packet line (packet switching network).

The SGSN 32 receives a connection request from the mobile device 2 located in the service area of the domestic mobile communication network 3. The SGSN 42 receives a connection request from the mobile device 2 located in the service area of the mobile communication network 4 outside the country. Further, the GGSN 33 acquires node specifying information such as the IP address of the SGSN 32 or SGSN 42 that has received the connection request from the mobile device 2. Then, the GGSN 33 notifies the user authentication system RADIUS 9 of the node identification information of the SGSN 32 or SGSN 42 to which the network connection request has been relayed as a PDP context (Packet Data Protocol context).
The user authentication system RADIUS9 performs user authentication processing and holds information such as the IP address of the mobile device 2, node identification information of SGSN, and mobile device number (MSISDN).
The GGSN 33 receives an authentication result response from the user authentication system RADIUS 9 and assigns an IP address to the mobile device 2. Then, the GGSN 33 pays out the assigned IP address to the mobile device 2 and transmits a network connection response to the mobile device 2 via the SGSN. When the mobile device 2 receives this network connection response, the TCP / IP communication preparation is completed.

Next, the user activates a browser (application for HTTP protocol) or a mailer (application for IMAP, SMTP, POP protocol) on the personal computer 1. At this time, if the network connection is disconnected, the network connection application is activated. Using this network connection application, the user performs a connection operation, and browser and mailer communication normally flows at the moment of connection.
In the present embodiment, a case where a browser which is an example of an application for the HTTP protocol is activated is shown.

  Next, when the user performs an operation to access the content provider server 6 on the browser activated on the personal computer 1, the personal computer 1 transmits an HTTP request (without a region header) to the mobile device 2. To do.

  Next, the mobile device 2 converts the communication data including the HTTP request received from the personal computer 1 into predetermined data, and then transmits the data to the network side. The Internet gateway device 7 that has received this HTTP request acquires from the user authentication system RADIUS 9 the node identification information of the SGSN 32 or SGSN 42 through which the HTTP request transmitted from the mobile device 2 has passed. And the gateway apparatus 7 determines the service area where the mobile device 2 exists based on the node specific information of SGSN. That is, the mobile communication network identifier PLMN identity (at least the country identifier MCC) indicating the service area of the network to which the SGSN belongs is determined according to the node identification information of the SGSN, and the determined service area is set to the mobile device 2. It is considered as a service area where When the gateway device 7 relays the HTTP request received from the mobile device 2 to the server 6 of the content provider, the gateway device 7 adds a region header describing the determined service area information to the HTTP request.

In order to determine the service area, the gateway device 7 has a relationship between SGSN node identification information and a mobile communication network identifier PLMN identity (at least a country identifier MCC) indicating a service area provided by a network to which these nodes belong. Is stored in a storage device (not shown).
For example, when the node identification information of SGSN is A, association is made with country a (country identifier MCC is a ′), and when node identification information of SGSN is B, country b is correlated (country identifier MCC is b ′). .
If it is only necessary to distinguish between domestic and foreign countries, the mobile communication network identifier PLMN identity indicating the service area outside the country may be set to “FFFFF”.
As a result, when any of the node identification information of SGSN 32 or SGSN 42 is notified, the service area provided by the mobile communication network to which these mobile communication networks belong is determined with reference to this correspondence table. Further, assuming that this service area is also a service area where the mobile device 2 is located, at least a country identifier MCC indicating this service area is held in the storage device of the gateway device. Of course, the mobile communication network identifier PLMN identity may be held.

As exemplified later, when determining the service area by the gateway GPRS support node (GGSN) 33 and adding the region header to the HTTP header, the same correspondence table as described above is held in the storage device in the GGSN 33. . In this case, the GGSN 33 refers to this correspondence table, converts the SGSN node identification information into the mobile communication network identifier PLMN identity (at least the country identifier MCC) indicating the service area, and adds the region header to the HTTP header. And relay.
Further, the SGSN node identification information may be described as it is in the region header and notified to the content provider server 6. In this case, the correspondence table between the SGSN node identification information and the service address, which is stored in the storage device in the gateway device 7, is placed on the server 6 side of the content provider which is an open site.

  Next, when the content provider server 6 receives an HTTP request from the gateway device 7, the content provider server 6 determines the service area in which the mobile device 2 is located, based on the value of the region header of the HTTP request. Then, the server 6 controls the service provision mode requested by the HTTP request as described above according to the determined service area, and sends an HTTP response including predetermined content data via the mobile device 2 or the like. To the personal computer 1.

[Data communication example 1-2]
FIG. 8 shows a case where the Internet gateway device 7 acquires the SGSN address as node identification information of the SGSNs 32 and 42 from the home location register HLR 36 in the data communication system of FIG. 3 and adds a region header to the HTTP request. It is a sequence diagram which shows an example of the data communication procedure of. Note that description of the TCP / IP communication preparation etc. common to FIG. 7 is omitted.

  In the data communication procedure of FIG. 8, the SGSN address of the SGSN 32 or SGSN 42 in the service area where the mobile device 2 is located when the location registration of the mobile device 2 executed at a predetermined timing is performed for the mobile device 2. It is held in the home location register HLR 36. Then, when the mobile device 2 receives the HTTP request (without the region header) transmitted from the personal computer 1, after the same TCP / IP communication preparation as in FIG. 7 is executed, the mobile device 2 The communication data including the HTTP request received from the computer 1 is converted into predetermined data and then transmitted to the network side. The gateway device for Internet 7 that has received this HTTP request, the SGSN 32 or SGSN 42 through which the HTTP request transmitted from the mobile device 2 has passed based on the telephone number (movement number: MSISDN) acquired by inquiring from the user authentication system RADIUS 9. The SGSN address is obtained from the home location register HLR 36. Then, the gateway device 7 determines the service area in which the mobile device 2 is located based on the SGSN address, and adds a region header in which information on the determined service area is described to the HTTP request.

[Data communication system 2]
FIG. 9 is an explanatory diagram showing an example of a communication system that provides a data communication service using a circuit switching network including circuit switching nodes 34, 35, and 44 in the mobile communication networks 3 and 4. In this data communication example, as in the data communication system of FIG. 3 described above, the gateway device for Internet 7 acquires area-related information related to the service area where the mobile device 2 is located, and is transmitted from the mobile device 2. When the (HyperText Tranfer Protocol) request is relayed, the service related information is added to the HTTP request.

  In FIG. 9, an HTTP request for requesting a service transmitted by the personal computer 1 is received by the mobile device 2. The mobile device 2 converts the communication data including the HTTP request received from the personal computer 1 so as to correspond to the data communication service of the circuit switching network, and sends the converted HTTP request to the mobile communication networks 3 and 4. Send. The HTTP request transmitted from the mobile device 2 is transferred through the circuit switching network of the mobile communication network, converted into predetermined communication data by the circuit switching gateway (SG / MG) 35, and transmitted to the Internet gateway device 7. The

  The gateway device 7 adds service area data as area-related information of the mobile device 2 to the header area (region header) of the HTTP request received from the circuit switching gateway (SG / MG) 35, and sends the HTTP request to the content request. Transmit to the server 6 of the provider.

[Data communication example 2-1]
FIG. 10 shows that in the data communication system of FIG. 9, the Internet gateway device 7 uses the MSC address such as ID information as the node specifying information of the circuit switching offices 34 (1) and 44 (1) that pass first. It is a sequence diagram which shows an example of the data communication procedure in the case of acquiring from the authentication system RADIUS9 and adding a region header to an HTTP request. Note that description of portions common to FIG. 7 is omitted.

  In the data communication procedure of FIG. 10, when preparing for TCP / IP communication, the MSC address of the MSC 34 (1) or MSC 44 (1) through which the HTTP request first passes in the service area where the mobile device 2 is located is , Held in the user authentication system RADIUS9. When the gateway device 7 receives the HTTP request from the mobile device 2, the gateway device 7 sets the MSC address of the MSC 34 (1) or MSC 44 (1) closer to the mobile device 2 through which the HTTP request transmitted from the mobile device 2 first passes. Obtained from the user authentication system RADIUS9. Then, the gateway device 7 determines the service area in which the mobile device 2 is located based on the acquired MSC address, and adds a region header in which information on the determined service area is described to the HTTP request.

[Data communication example 2-2]
FIG. 11 shows that in the data communication system of FIG. 9, the Internet gateway device 7 obtains the MSC address of the circuit switching center 34 (1), 44 (1) that first passes from the home location register HLR 36. It is a sequence diagram which shows an example of the data communication procedure in the case of adding a region header to an HTTP request. Note that description of portions common to FIG. 7 is omitted.

  In the data communication procedure of FIG. 11, at the time of location registration of the mobile device 2 executed at a predetermined timing, the MSC 34 (1) through which the HTTP request first passes in the service area where the mobile device 2 is located. Alternatively, the MSC address of the MSC 44 (1) is held in the home location register HLR 36 for the mobile device 2. When the mobile device 2 receives the HTTP request (without the region header) transmitted from the personal computer 1 in the state where the above-described TCP / IP communication preparation is performed, the mobile device 2 receives the request from the personal computer 1. After the HTTP request is converted into predetermined communication data, it is transmitted to the network side. The gateway device for Internet 7 that has received this HTTP request is based on the MSC 34 (closer to the mobile device 2 through which the HTTP request transmitted from the mobile device 2 first passes based on the telephone number obtained by inquiring from the user authentication system RADIUS 9. 1) or the MSC address of MSC 44 (1) is obtained from the home location register HLR 36. Then, the gateway device 7 determines the service area where the mobile device 2 is located based on the acquired MSC address, and adds a region header in which information on the determined service area is described to the HTTP request.

  In the above [Data communication example 2-1] and [Data communication example 2-2], the MSC address of the MSC 34 (1) or MSC 44 (2) closer to the mobile device 2 through which the HTTP request has first passed is set to the HTTP. It is added to the request. Instead of this MSC address, the service area code (MA) or billing area code (CA) information included in the communication control signal is acquired and added to the HTTP request as in [Data communication example 4-1] described later. You may make it do.

[Data communication system 3]
FIG. 12 is an explanatory diagram showing another example of a communication system that provides a data communication service using a packet network including packet switching nodes 32, 33, and 42 in the mobile communication networks 3 and 4. In this data communication service, the gateway GPRS support node (GGSN) 33 acquires area-related information related to the service area in which the mobile device 2 is located, and relays an HTTP (HyperText Tranfer Protocol) request transmitted from the mobile device 2. Sometimes, the service related information is added to the HTTP request.

  In FIG. 12, an HTTP request for requesting a service transmitted by the personal computer 1 is received by the mobile device 2. The mobile device 2 converts the communication data including the HTTP request received from the personal computer 1 so as to correspond to the data communication service of the packet network, and transmits the converted HTTP request to the mobile communication networks 3 and 4. To do. The HTTP request transmitted from the mobile device 2 is transferred through the packet network of the mobile communication network and converted into an HTTP request in a predetermined communication data format by the gateway GPRS support node (GGSN) 33. The gateway GPRS support node (GGSN) 33 adds service area data as area-related information of the mobile device 2 to the header area (region header) of the received HTTP request, and sends the HTTP request to the content provider server. Send to 6

[Data communication example 3-1]
FIG. 13 shows a case where the gateway GPRS support node (GGSN) 33 acquires node specifying information such as SGSN addresses and IP addresses of the SGSNs 32 and 42 and adds a region header to the HTTP request in the data communication system of FIG. It is a sequence diagram which shows an example of a data communication procedure. Note that description of portions common to FIG. 7 is omitted.

  In the data communication procedure of FIG. 13, node preparation information such as the SGSN address and IP address of the SGSN 32 or SGSN 42 in the service area where the mobile device 2 is located is held in the GGSN 33 when preparing for TCP / IP communication. The When the GGSN 33 receives an HTTP request from the mobile device 2, the GGSN 33 determines the service area in which the mobile device 2 is located based on the node identification information of the SGSN 32 or SGSN 42 through which the HTTP request transmitted from the mobile device 2 has passed. A region header describing the determined service area information is added to the HTTP request.

[Data communication example 3-2]
FIG. 14 shows data when the gateway GPRS support node (GGSN) 33 acquires the SGSN addresses of SGSNs 32 and 42 from the home location register HLR 36 and adds a region header to the HTTP request in the data communication system of FIG. It is a sequence diagram which shows an example of a communication procedure. Note that description of portions common to FIG. 7 is omitted.

  In the data communication procedure of FIG. 14, the SGSN address of the SGSN 32 or SGSN 42 in the service area where the mobile device 2 is located when the location registration of the mobile device 2 executed at a predetermined timing is performed for the mobile device 2. It is held in the home location register HLR 36. When the mobile device 2 receives the HTTP request (without the region header) transmitted from the personal computer 1 in the state where the above-described TCP / IP communication preparation is performed, the mobile device 2 receives the request from the personal computer 1. After the HTTP request is converted into predetermined communication data, it is transmitted to the network side. The GGSN 33 that has received this HTTP request, based on the telephone number (MSISDN) already acquired in TCP / IP communication preparation, the SGSN address of the SGSN 32 or SGSN 42 through which the HTTP request transmitted from the mobile device 2 has passed, Obtain from the home location register HLR 36. Then, the gateway device 7 determines the service area in which the mobile device 2 is located based on the acquired SGSN address, and adds a region header in which information on the determined service area is described to the HTTP request.

[Data communication system 4]
FIG. 15 is an explanatory diagram showing another example of a communication system that provides a data communication service using a circuit switching network including circuit switching nodes 34, 35, and 44 in the mobile communication networks 3 and 4. In this data communication service, the circuit switching gateway (SG / MG) 35 acquires area-related information related to the service area where the mobile device 2 is located, and relays an HTTP (HyperText Tranfer Protocol) request transmitted from the mobile device 2. The service related information is added to the HTTP request.

  In FIG. 15, an HTTP request for requesting a service transmitted by the personal computer 1 is received by the mobile device 2. The mobile device 2 converts the communication data including the HTTP request received from the personal computer 1 so as to correspond to the data communication service of the circuit switching network, and sends the converted HTTP request to the mobile communication networks 3 and 4. Send. The HTTP request transmitted from the mobile device 2 is transferred through the circuit switching network of the mobile communication network and converted into an HTTP request in a predetermined communication data format by the circuit switching gateway (SG / MG) 35. Further, the circuit switching gateway (SG / MG) 35 adds the service area data as the area related information of the mobile device 2 to the header area (region header) of the received HTTP request, and sends the HTTP request to the content provider. Transmit to the server 6.

[Data communication example 4-1]
FIG. 16 shows that the circuit switching gateway (SG / MG) 35 in the data communication system of FIG. 15 acquires information on the service area code (MA) or the billing area code (CA) and adds a region header to the HTTP request. It is a sequence diagram which shows an example of the data communication procedure in a case. Note that description of portions common to FIG. 7 is omitted.

  In the data communication procedure of FIG. 16, when preparing for TCP / IP communication, information on MA or CA related to the service area where the mobile device 2 is located is held in the SG / MG 35. Here, MA and CA are No. 7 is code information added to the communication control signal in the circuit switching network of the common line signal system, and is information corresponding to the circuit switching nodes MSC34 (1) and 44 (1) through which the HTTP request first passes.

FIGS. 17A to 17C are explanatory views illustrating the data structure of the code description portion in which the MA or CA information of the communication control signal is described. The code description part shown in FIG. 17A is composed of an MA / CA identification part and an MA / CA code part. In the MA and CA identification section, for example, “0” is written in the case of MA, and “1” is written in the case of CA. In the MA and CA code sections, code values corresponding to the circuit switching node MSC through which a call signal from the mobile device first passes in the service area where the mobile device is located are written. For example, a code value as shown in Table 1 is written. FIG. 17B is an example of the code description part of the MA when the outgoing call signal first passes through the circuit switching node MSC in the Tokyo area. FIG. 17B shows an example of a CA code description portion when a call signal first passes through the circuit switching node MSC in the Osaka area.

At present, these MAs and CAs are always added when a call is made from a mobile station 2 located in Japan, and are not added when a call is made from a mobile station 2 located outside the country. There are many. In consideration of such circumstances, the service area where the mobile device 2 is located can be determined as follows based on the MA and CA. That is, when neither the MA nor the CA is included in the signal reaching the SG / MG 35, it is determined that the mobile device 2 is located outside Japan. On the other hand, when either of the MA and CA is included in the signal that has reached the SG / MG 35, the contents of the MA and CA information are further examined. Here, if the MA and CA are contents that specify a domestic telecommunications carrier, it is determined that the mobile device 2 is located in Japan. Further, if the MA and CA are contents that specify a telecommunications carrier outside Japan, the country, telecommunications carrier, area, etc. are specified based on the contents, and the area where the mobile device 2 is located is determined. To do.
As described above, when the SG / MG 35 receives an HTTP request from the mobile device 2, the SG / MG 35 determines the service area in which the mobile device 2 is located based on the MA or CA information, and information on the determined service area. Is added to the HTTP request.
Note that the information used for determining the service area in the SG / MG 35 is not limited to the MA or CA, and may be other information capable of determining the service area.

[Data communication example 4-2]
FIG. 18 shows the MSC address of the circuit switching center 34 (1), 44 (1) that the circuit switching gateway (SG / MG) 35 first passes through the home location register HLR 36 in the data communication system of FIG. It is a sequence diagram which shows an example of the data communication procedure in the case of acquiring and adding a region header to an HTTP request. Note that description of portions common to FIG. 7 is omitted.

In the data communication procedure of FIG. 18, when the location of the mobile device 2 is registered at a predetermined timing, the MSC address of the MSC 34 (1) or MSC 44 (1) in the service area where the mobile device 2 is located. Is held in the home location register HLR 36 for the mobile device 2. When the mobile device 2 receives the HTTP request (without the region header) transmitted from the personal computer 1 in the state where the above-described TCP / IP communication preparation is performed, the mobile device 2 receives the request from the personal computer 1. After the HTTP request is converted into predetermined communication data, it is transmitted to the network side. The SG / MG 35 that has received this HTTP request, based on the telephone number of the mobile device 2, has MSC 34 (1) or MSC 44 (1) closer to the mobile device 2 through which the HTTP request transmitted from the mobile device 2 has first passed. Is obtained from the home location register HLR 36. Then, the SG / MG 35 determines a service area where the mobile device 2 is located based on the acquired MSC address, and adds a region header in which information of the determined service area is described to the HTTP request.
In this [Data Communication Example 4-2], as in [Data Communication Example 4-1], the service area code (MA) or the billing area code (CA) included in the communication control signal may be used. . In this case, the SG / MG 35 adds MA or CA information to the HTTP request.

FIG. 19 is an explanatory diagram illustrating an example of a display screen when the music distribution service is used by the data communication system according to the present embodiment. Here, a case where music download from outside the country is regulated will be described. When a specific music title (song title b) is specified and download is requested, responses “usable” and “unusable” are returned.
The display screen 71 of the display unit 101 of the personal computer 1 connected to the mobile device 2 is when “Song Title b” is selected. From the content provider server 6, URI information indicating the location of the music melody of “song name b” is transmitted by an HTTP response.
The personal computer 1 designates this URI and transmits an HTTP request with a region header added to the content provider server 6 over the network.
Depending on the country to which the service area in which the mobile device 2 is located, which is described in the region header, is “available”, the display screen 72 is being downloaded, and the music melody of “song name b” The data is downloaded to a predetermined storage area in the storage device in the computer 1. The billing process is performed, for example, after the download is completed.
On the other hand, in the case of “unusable”, the display screen 73 is displayed to notify that the music distribution service cannot be used because the use is from overseas (the mobile device 2 is located outside the country).

FIG. 20 is an explanatory diagram showing an example of a display screen when network banking is used by the data communication system of the present embodiment. Here, a case will be described in which deposit processing from overseas is regulated in consideration of time differences and the like.
The display screen 81 is obtained when the bank account transfer page is accessed and the “account number” and “deposit amount” are entered.
Depending on the country of the service area in which the mobile device 2 is located, which is described in the region header, the display screen 82 is displayed in the case of “available”, and notification that the specified account is to be charged is notified.
On the other hand, in the case of “unusable”, the display screen 83 is displayed to notify that network banking cannot be used because the use is from overseas (the mobile device 2 is located outside the country).

FIG. 21 is an explanatory diagram showing an example of a display screen when character image distribution such as animation is used by the data communication system of the present embodiment. Here, a case will be described in which downloading to overseas countries without permission of the copyright owner is restricted.
The display screen 91 shows the result of selecting a specific character image A on the character image download site.
Depending on the country of the service area where the mobile device 2 is located, which is described in the region header, in the case of “available”, the display screen 92 is displayed, and the character image A is downloaded to the personal computer 1 and displayed. .
On the other hand, in the case of “unusable”, the display screen 93 is displayed to notify that the character image distribution cannot be used because the use is from overseas (the mobile device 2 is located outside the country).

  As described above, according to this embodiment, the server 6 of the content provider that provides the service can determine the area where the mobile device 2 connected to the personal computer 1 that transmits the HTTP request that requests the service is located. Therefore, it is possible to provide a service according to the area where the mobile device 2 connected to the personal computer 1 requesting the service is located.

  Further, according to the present embodiment, by extending the header area of the HTTP request, it is possible to easily put information on the service area where the mobile station is located in the existing HTTP request. In addition, since it is compatible with the existing HTTP request, it is possible to notify the server of the service area where the mobile device is located without causing any trouble to the existing server.

  Moreover, according to this embodiment, the SGSN address and MSC address for the gateway apparatus 7 and the exchange nodes GGSN33, SG / MG35 provided in the existing mobile communication network to determine the service area where the mobile station is located. The area related information such as the above is acquired, and the region header is added to the HTTP request. Therefore, no major change in the configuration in the existing mobile communication network is required.

  In particular, the exchange nodes GGSN 33 and SG / MG 35 can acquire and hold area-related information such as an SGSN address and an MSC address. In this case, a process for inquiring area-related information to the user authentication system RADIUS 9 or the home location register HLR 36 becomes unnecessary, and the communication procedure can be simplified.

In the above embodiment, the content provider server 6 is described as being in the same country as the home network. However, the content provider server 6 may be in any country, and the company location of the content provider may be in any country.
Further, instead of the content provider server 6, the business operator operating the mobile communication network may be a server operating the content service business.
In addition, the content provider server 6 determines the service mode in advance in consideration of the laws and contracts of each country, according to the country where the service area in which the mobile device 2 requesting the service is located. Just keep it.
The area-related information used for determining the area where the mobile device 2 is located includes information specified in advance by 3GPP, such as the “mobile communication network identifier PLMN”, or a specific communication carrier. Information that is uniquely defined may be used.

  In the above-described embodiment, a case has been described in which a mobile device that supports international roaming by terminal roaming is used. In addition to this, the mobile device of the present invention includes a device that supports international roaming by replacing the mobile device chip. In such a mobile device, similarly, when the server receives a request having a region header, the mode of service can be controlled in accordance with the country of the service area in which the mobile device is located.

  In the above embodiment, the user accesses a predetermined website prepared by a telecommunications carrier or the like via the personal computer 1 and the mobile device 2, and the customer information is obtained from the content provider via the site. The consent (permission) to notify the server 6 may be obtained in advance. In this case, the gateway 7 or the like to which the area-related information is added acquires information about whether or not the user has obtained consent from the website, and the operation for adding the area-related information based on the information is performed. To control.

1 is an overall configuration diagram of a mobile communication network utilization system according to an embodiment of the present invention. FIG. 2 is a block diagram showing a hardware configuration of a mobile device that can be used in the mobile communication network utilization system. Explanatory drawing which shows the principal part of the data communication system which concerns on a 1st structural example. Explanatory drawing which shows an example of an HTTP request and an HTTP header. Explanatory drawing which shows a specific example of the data described in the HTTP header area. (A) And (b) is a sequence diagram which shows an example of a process when accessing the server of a domestic content provider from the personal computer connected to the mobile station in the country or abroad. The sequence diagram which shows an example of the data communication procedure in the data communication system which concerns on a 1st structural example. The sequence diagram which shows the other example of the data communication procedure in the data communication system which concerns on a 1st structural example. Explanatory drawing which shows the principal part of the data communication system which concerns on a 2nd structural example. The sequence diagram which shows an example of the data communication procedure in the data communication system which concerns on a 2nd structural example. The sequence diagram which shows the other example of the data communication procedure in the data communication system which concerns on a 2nd structural example. Explanatory drawing which shows the principal part of the data communication system which concerns on a 3rd structural example. The sequence diagram which shows an example of the data communication procedure in the data communication system which concerns on a 3rd structural example. The sequence diagram which shows the other example of the data communication procedure in the data communication system which concerns on a 3rd structural example. Explanatory drawing which shows the principal part of the data communication system which concerns on a 4th structural example. The sequence diagram which shows an example of the data communication procedure in the data communication system which concerns on a 4th structural example. (A)-(c) is explanatory drawing which illustrates the data structure of the code description part in which the information of MA or CA of a communication control signal is described. The sequence diagram which shows the other example of the data communication procedure in the data communication system which concerns on a 4th structural example. Explanatory drawing which shows an example of the display screen in the case of using a music delivery service by the data communication system of this embodiment. Explanatory drawing which shows an example of the display screen in the case of using network banking by the data communication system of this embodiment. Explanatory drawing which shows an example of the display screen in the case of utilizing character image delivery, such as an animation, by the data communication system of this embodiment. Explanatory drawing which shows the problem of the content service by international roaming.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Personal computer 2 Mobile device 3 Domestic mobile communication network 4 Overseas mobile communication network 5 Internet 6 Content provider server 7 Internet gateway device 9 User authentication system (RADIUS)
31 Base station (BS)
32 packet switching node (serving GPRS support node: SGSN)
33 packet switching node (gateway GPRS support node: GGSN)
34 Circuit switching node (Circuit switching office: MSC)
35 Circuit switching node (circuit switching gateway: SG / MG)
36 Home Location Register (HLR)

Claims (5)

A communication network system for use when the information processing device connected to transfer motive sends a request to a server on the Internet via the mobile communication network,
A plurality of switching nodes that relay communications by mobile devices in a mobile communication network, and an Internet gateway device disposed between the mobile communication network and the Internet,
The Internet gateway device is:
When a request transmitted from the information processing device is received from a mobile device connected to the information processing device, the area-related information used for determining the area of the mobile device in the header area of the received request If there is no predetermined header in which the request is described, the address of the exchange node through which the request first passes is obtained, the header area of the request is expanded, and the predetermined header is added. A communication network system , wherein the address of the exchange node is described as the area-related information, and the request having the predetermined header is transmitted to the server .   A communication network system used when an information processing apparatus connected to a mobile device transmits a request to a server on the Internet via a mobile communication network,
  A plurality of switching nodes that relay communications by mobile devices in a mobile communication network, and an Internet gateway device disposed between the mobile communication network and the Internet,
  Among the plurality of switching nodes, the switching gateway node arranged on the Internet side of the mobile communication network is:
    When a request transmitted from the information processing device is received from a mobile device connected to the information processing device, the area-related information used for determining the area of the mobile device in the header area of the received request If there is no predetermined header in which the request is described, the address of the exchange node through which the request first passes is obtained, the header area of the request is expanded, and the predetermined header is added. A communication network system, wherein the address of the exchange node is described as the area-related information, and the request having the predetermined header is transmitted to the server. In a communication network system according to 請 Motomeko 1 or 2,
The mobile communication network has a packet switching network that relays a request transmitted from the mobile device via a plurality of packet switching nodes;
The area related information is an address of a packet switching node through which the request first passes,
The communication network system, wherein the switching gateway node is a packet switching gateway node arranged on the Internet side of the mobile communication network. The communication network system according to claim 1 or 2 ,
The mobile communication network includes a circuit switching network that relays a request transmitted from the mobile device via a plurality of circuit switching nodes.
The area related information is address line switching node to which the request is initially passed,
The communication network system, wherein the switching gateway node is a circuit switching gateway node arranged on the Internet side of the mobile communication network.   The communication network system according to claim 1, further comprising a mobile device connected to the information processing apparatus.

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