JP2008306382A - Radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a radio communication system which efficiently achieves FMC. <P>SOLUTION: The present invention relates to the radio communication system including a communication network which includes a mobile communication network including an exchange having an authentication function, a charging function, and a PDP context setting function, and a fixed communication network having a radio communication function, and a radio terminal having a radio communication function for the mobile communication network and fixed communication network. The radio terminal performs terminal authentication and setting a PDP context using the functions that the exchange has and transmits and receives user data via the fixed communication network after the terminal authentication and PDP context setting are completed, and the exchange charges for the transmission and reception via the fixed communication network. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a wireless communication system for efficiently realizing a FMC (Fixed Mobile Convergence) service in which a single operator provides a mobile communication service and a fixed communication service.

  In FMC (Fixed Mobile Convergence), for example, a mobile wireless terminal having two wireless interfaces, W-CDMA (Wideband Code Division Multiple Access) of a mobile network and WLAN (Wireless Local Area Network) of a fixed network, is used outdoors. The goal of W-CDMA is to realize a unified service in mobile and fixed networks using WLAN at home. As a typical example of the unified service, there is an outdoor / indoor telephone call incoming / outgoing service with one telephone number called OnePhone.

  In order to realize such a service, it is assumed that a network called IMS (IP Multimedia Subsystem) in NGN (Next Generation Network) or 3GPP (3rd Generation Partnership Project) is used. In order to realize FMC, for example, IMS accommodates a plurality of IP access networks such as W-CDMA and Internet and provides a unified service.

  For example, Patent Document 1 below describes a technique for realizing FMC. In the technology described in Patent Document 1 below, when a user using W-CDMA outdoors enjoys a telephone call / incoming service such as VoIP outdoors, the mobile terminal receives a user ID (for example, USIM (Universal The W-CDMA and WLAN common ID) stored in the Subscriber Identity Module) and the IP address assigned from the W-CDMA network are registered. Thereafter, when the user moves to the home, the portable terminal switches the interface manually or automatically, and re-registers the user ID and the IP address assigned to the WLAN in the SIP server. This mechanism allows incoming calls with the same user ID in both W-CDMA and WLAN.

JP-T-2001-517910

  For example, when a W-CDMA operator provides an FMC service and constructs a new WLAN system, the system such as authentication / confidential / billing inside the already constructed W-CDMA wireless system is utilized to the maximum extent. There is a need to minimize investment for systems. However, for example, when a system having a configuration as shown in FIG. 5 is provided, the W-CDMA operator needs to construct a new system such as authentication / secret / billing for the WLAN system, and the existing system is effective. There is a problem that it cannot be used. In addition, there is a high possibility that a W-CDMA operator who does not have a WLAN system cannot independently construct a WLAN authentication / secret / billing system.

  In addition, when a mobile terminal has a plurality of interfaces, it always waits for an incoming call with an interface with a standby function (in this case W-CDMA), and automatically powers the interface that is actually used for paging at the time of incoming call. A method of inputting was proposed. However, when the mobile terminal is located at home in the FMC environment, it is expected that the paging control is performed more efficiently from the viewpoint of the operator because of the user characteristics unique to the FMC.

  The present invention has been made in view of the above, and it is an object of the present invention to provide a communication system in which an operator of mobile communication such as W-CDMA makes maximum use of existing facilities and efficiently realizes FMC. To do.

  In order to solve the above-described problems and achieve the object, the present invention provides a mobile communication network including an exchange having an authentication function, a charging function, and a PDP context setting function, and a communication including a fixed communication network having a wireless communication function. A wireless communication system including a network and a wireless terminal having a wireless communication function with the mobile communication network and the fixed communication network, wherein the wireless terminal performs communication using the mobile communication network The terminal authentication and the PDP context setting using the functions of the exchange are performed, and after the terminal authentication and the PDP context setting are completed, user data is transmitted and received via the fixed communication network. Charging is performed for transmission / reception via the fixed communication network.

  According to the present invention, since the authentication / billing of the wireless terminal connected to the WLAN network (fixed communication network) is performed using the terminal authentication / billing system of the existing mobile communication network, user authentication, billing, etc. There is no need to construct a new system on the WLAN network side. Thereby, for example, when an operator of a mobile communication network newly constructs a fixed communication network and provides an FMC service, the facilities of the fixed communication network can be simplified and FMC can be realized efficiently.

  Embodiments of a communication system according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration example of a first embodiment of a communication system according to the present invention. This communication system includes a wireless terminal 11 having two wireless interfaces of W-CDMA (mobile communication) and WLAN (fixed communication), and a WLAN 12 constructed by a user using the wireless terminal 11 at home. The wireless terminal 11 transmits / receives user data to / from the server 14 by a base station 13 of a W-CDMA network. The W-CDMA network and IMS (IP Multimedia Subsystem) are connected via a connection point 15, and the Internet (Internet) to which the WLAN 12 is connected and IMS are connected via a connection point 16.

  A control procedure when the wireless terminal 11 of the communication system having the configuration shown in FIG. 1 performs a telephone call or packet communication via the WLAN 12 will be described below. It is assumed that the wireless terminal 11 can access the base station 13 of the W-CDMA network even when located in the WLAN 12. The W-CDMA network has a user (wireless terminal) authentication system and a billing system, and can authenticate and bill the user.

  When a call or packet communication is performed when the wireless terminal 11 is in the home WLAN 12, the wireless terminal 11 first performs a user authentication control or the like via the base station 13 of the W-CDMA network. 18 settings are made. The wireless terminal 11 that has established the wireless control path 18 then performs communication using the wireless control path 18 to request a service for a switch (not shown) in the W-CDMA network and to perform user authentication. Then, when the exchange executes a predetermined process, the service request and the user authentication are completed and the connection is permitted, the exchange is reported to the exchange as a wireless interface using the WLAN 12. As a result, the PDP context is set, access to the Internet via the WLAN 12 is enabled, and the interface 17 is established. Thereafter, the wireless terminal 11 transmits and receives only user data such as voice, packets, and control SIP messages to and from the server 14 via the WLAN 12 (using the interface 17).

  Note that various functions such as reception of service requests and user authentication may be included in the exchange, or may be included in other devices connected to the exchange. Moreover, the implementation method does not ask | require that each apparatus has each function.

  By performing the control as described above, an operator of W-CDMA (mobile communication) can perform terminal authentication and charging when a wireless terminal communicates with a fixed communication network via a WLAN by using the existing equipment W-CDMA. Therefore, it is not necessary to construct a system such as user authentication and billing in the WLAN network. That is, the existing equipment can be used effectively and the FMC service can be efficiently realized. In addition, when an operator newly constructs a mobile communication network and a fixed communication network to realize an FMC service, it is only necessary to construct a terminal authentication / billing system only on the mobile communication network side, thus simplifying the equipment configuration. Can be

Embodiment 2. FIG.
Next, the communication system according to the second embodiment will be described. FIG. 2 is a diagram illustrating a configuration example of the second embodiment of the communication system according to the present invention. This communication system includes a wireless terminal 11 having two wireless interfaces of W-CDMA and WLAN, a WLAN 12 built at home by a user using the wireless terminal 11, and a base station 13 of a W-CDMA network. And a gateway 24 for inducing traffic in an ISP (Internet Service Provider) operated by the W-CDMA operator. The wireless terminal 11 accesses the server 25 and transmits / receives user data. . The W-CDMA network and the IMS are connected via a connection point 15, and the Internet to which the WLAN 12 is connected and the IMS are connected via a connection point 16. Note that the wireless terminal 11, the WLAN 12, and the base station 13 are the same as the wireless terminal, the WLAN, and the base station of the first embodiment described above.

  A control procedure when the wireless terminal 11 of the communication system having the configuration shown in FIG. 2 performs a call or packet communication via the WLAN 12 will be described below. It is assumed that the wireless terminal 11 can access the base station 13 of the W-CDMA network even when located in the WLAN 12. The W-CDMA network has a user (wireless terminal) authentication system and a billing system, and can authenticate and bill the user.

  When a call or packet communication is performed when the wireless terminal 11 is in the home WLAN 12, the wireless terminal 11 first performs a user authentication control or the like via the base station 13 of the W-CDMA network. 29 is set. The wireless terminal 11 that has established the wireless control path 29 then performs communication using the wireless control path 29 to perform service request and user authentication for the exchange in the W-CDMA network. Then, when the exchange executes a predetermined process, the service request and the user authentication are completed, and the connection is permitted, the PDP context is set, and the IP address of the gateway 24 and the encapsulation transmitted in the tunnel By setting the IP address of the wireless terminal 11 thus set, the tunnel 28 is set between the wireless terminal 11 and the gateway 24. Thereby, WLAN traffic is induced in the ISP network operated by the W-CDMA operator, and communication of user data such as packets and control SIP messages is performed with the server 25.

  Note that various functions such as reception of service requests and user authentication may be included in the exchange, or may be included in other devices connected to the exchange. Moreover, the implementation method does not ask | require that each apparatus has each function.

  By performing the control as described above, the W-CDMA operator can perform terminal authentication and billing when the wireless terminal communicates with the fixed communication network via the WLAN by using terminal authentication / billing of the existing equipment. This can be done using the system. Thereby, the FMC service can be realized efficiently.

Embodiment 3 FIG.
Next, the communication system according to the third embodiment will be described. FIG. 3 is a diagram illustrating a configuration example of the third embodiment of the communication system according to the present invention. This communication system includes a wireless terminal 11 having two wireless interfaces of W-CDMA and WLAN, a WLAN 12 built at home by a user using the wireless terminal 11, and a base station 13 of a W-CDMA network. And the SIP server 35 that manages / controls the user ID stored in the USIM, the IP address assigned from the W-CDMA network, etc., and the wireless terminal 11 accesses the server 34 to Send and receive user data. Note that the server 34 may be replaced with a partner VoIP wireless terminal of the wireless terminal 11. The W-CDMA network and the IMS are connected via a connection point 15, and the Internet to which the WLAN 12 is connected and the IMS are connected via a connection point 16. The wireless terminal 11, the WLAN 12, and the base station 13 are the same as the wireless terminal, the WLAN, and the base station of the first embodiment described above.

  A control procedure when the wireless terminal 11 of the communication system having the configuration shown in FIG. 3 performs a call or packet communication via the WLAN 12 will be described below. It is assumed that the wireless terminal 11 can access the base station 13 of the W-CDMA network even when located in the WLAN 12. The W-CDMA network has a user (wireless terminal) authentication system and a billing system, and can authenticate and bill the user.

  When a call or packet communication is performed when the wireless terminal 11 is in the home WLAN 12, the wireless terminal 11 first performs a user authentication control or the like via the base station 13 of the W-CDMA network. 39 is set. The wireless terminal 11 that has established the wireless control path 39 then performs communication using the wireless control path 39 to perform a service request and user authentication for the exchange in the W-CDMA network. Then, when the exchange executes a predetermined process, the service request and the user authentication are completed, and the connection is permitted, the wireless control is performed via the path 40 and the connection point 36 for performing W-CDMA control. A SIP message is transmitted / received as user data to / from the SIP server 35 using the path 39.

  On the other hand, when performing communication of user data (other than the SIP message) such as a packet, the wireless terminal 11 transmits a SIP message (INVITE message) using the wireless control path 39 and sets a user data communication path 38. An IP address assigned by the WLAN is notified as an IP address to be used. As a result, a user data communication path 38 is established, and the wireless terminal 11 communicates user data such as packets with the server 34 using the established path 38.

  Note that various functions such as reception of service requests and user authentication may be included in the exchange, or may be included in other devices connected to the exchange. Moreover, the implementation method does not ask | require that each apparatus has each function.

  A path for performing W-CDMA control in consideration of disconnection of the connection (user data communication path 38) via the WLAN when the wireless terminal 11 detects a problem such as a decrease in transmission quality. A secondary PDP context (Secondary Packet Data Protocol Context), which is a new path for transmitting and receiving user data, is set in 40. That is, by transmitting a SIP message for switching a path for transmitting / receiving user data to / from the server 34, the IP address for communicating user data to / from the server 34 is switched to the IP address on the W-CDMA side ( The user data communication path 38 via the WLAN is switched to a path newly set as the path 40). Thereafter, user data such as a packet is transmitted / received to / from the server 34 using the newly set path. Thereby, before the connection (path 38) via the WLAN is disconnected, the transmission / reception destination of the user data can be switched and the establishment of communication can be maintained.

  When a problem such as a decrease in transmission quality is detected during communication using WLAN, user data is transmitted / received using an existing path instead of setting a new path with the W-CDMA network. May be performed. Specifically, when the wireless terminal 11 detects a problem such as a decrease in transmission quality, the bandwidth of the wireless control path 39 (existing path) for transmitting and receiving SIP messages is extended to the W-CDMA network. A request is made using the path 40 for W-CDMA control. Then, as soon as it is confirmed that the bandwidth has been secured, the user data may be switched from the path 38 via the WLAN to the transmission / reception of user data using the path 39 after the bandwidth is expanded.

  In the configuration shown in FIG. 3, the path 39 and the path 40 both pass through the base station 13 of the W-CDMA network, and the wireless terminal 11 is located in the area of the base station 13 from the SIP server 35. Looks like you are. In this case, in the conventional W-CDMA network, a control signal for notifying the wireless terminal 11 of an incoming call (a paging signal for paging the wireless terminal 11) other than the base station 13 where the wireless terminal 11 is located. There is a problem that traffic is also increased due to transmission from the base station. Therefore, in the W-CDMA network according to the present embodiment, when it is detected that the wireless terminal 11 is at home (in the area of the WLAN 12), it is determined that the wireless terminal 11 is continuously located in the same base station. To do. When an incoming call to the wireless terminal 11 occurs in this state, a paging signal is transmitted only to the cell of the base station 13 where the wireless terminal 11 is located. Thereby, it is possible to prevent an increase in traffic in the W-CDMA network.

  On the other hand, when it is detected that the wireless terminal 11 has left the home (WLAN 12), the W-CDMA network shifts to a normal paging mode in which paging for the wireless terminal 11 is transmitted from a plurality of base station cells. Whether or not the wireless terminal 11 is at home can be recognized from a communication history or the like performed through the base station 13 of the W-CDMA network executed for communicating with the WLAN 12. This control (paging control of the wireless terminal) can also be applied to the first and second embodiments described above.

  Even when the W-CDMA network cannot dynamically control the paging area, it is possible to prevent traffic from increasing in the W-CDMA network by performing the following control.

  First, when the wireless terminal 11 selects to operate at home, the wireless terminal 11 notifies the SIP server 35 of the cell information that has established the connection held by using the path 39. After the cell information is registered in the SIP server 35, when an incoming call to the wireless terminal 11 occurs, the SIP server 35 transmits a paging trigger including the registered cell information to the W-CDMA network and receives it. The W-CDMA network transmits the paging signal only from the base station designated by the SIP server 35 (in this example, the base station 13 where the wireless terminal 11 is located).

  As described above, when transmitting and receiving user data such as packets via the WLAN, the wireless terminal according to the present embodiment makes a service request and user authentication to the W-CDMA exchange. In addition, transmission / reception of SIP messages to / from the SIP server is performed via the W-CDMA network instead of the WLAN. As a result, a W-CDMA operator can use a W-CDMA terminal authentication / billing system, and can perform user authentication / billing without constructing a user authentication / billing system in the WLAN network. As a result, the FMC service can be realized efficiently.

  In addition, when it is determined that there is a possibility that communication via the path via the WLAN may be impossible due to detection of a decrease in transmission quality, the path is set via the W-CDMA network, and user data is transmitted / received. Therefore, the communication path can be maintained even after the communication via the WLAN becomes difficult.

  Further, since the paging signal transmitted to the wireless terminal via the W-CDMA network is transmitted only from the cell of the base station where the wireless terminal is located, traffic is transmitted in the W-CDMA network when an incoming call occurs. It can be prevented from increasing.

  When paging transmitted to the wireless terminal via the W-CDMA network is transmitted only from the cell of the base station in which the wireless terminal is located, the response from the wireless terminal to the paging is within a predetermined time. If there is no response within a predetermined time, it may be possible to shift to a normal paging mode in which paging is transmitted from cells of a plurality of base stations. As a result, the incoming call can be reliably notified to the wireless terminal to be paged.

Embodiment 4 FIG.
Next, the communication system according to the fourth embodiment will be described. FIG. 4 is a diagram illustrating a configuration example of a fourth embodiment of a communication system according to the present invention. This communication system includes a wireless terminal 11 having two wireless interfaces of W-CDMA and WLAN, a WLAN 12 built at home by a user using the wireless terminal 11, and a base station 13 of a W-CDMA network. And a SIP server 45 that manages / controls the user ID stored in the USIM, the IP address assigned from the W-CDMA network, and the like. The wireless terminal 11 accesses the server 44 to Send and receive user data. Note that the server 44 may be replaced with the counterpart VoIP wireless terminal of the wireless terminal 11. The W-CDMA network and the IMS are connected via a connection point 15, and the Internet to which the WLAN 12 is connected and the IMS are connected via a connection point 16. The wireless terminal 11, the WLAN 12, and the base station 13 are the same as the wireless terminal, the WLAN, and the base station of the first embodiment described above.

  A control procedure when the wireless terminal 11 of the communication system having the configuration shown in FIG. 4 performs a call or packet communication via the WLAN 12 will be described below. It is assumed that the wireless terminal 11 can access the base station 13 of the W-CDMA network even when located in the WLAN 12. The W-CDMA network has a user (wireless terminal) authentication system and a billing system, and can authenticate and bill the user.

  When a call or packet communication is performed when the wireless terminal 11 is in the home WLAN 12, the wireless terminal 11 first performs a user authentication control or the like via the base station 13 of the W-CDMA network. Set 50. The wireless terminal 11 that has established the wireless control path 50 then performs communication using the wireless control path 50 to request a service for the exchange in the W-CDMA network and perform user authentication. Then, when the exchange executes a predetermined process, the service request and the user authentication are completed, and the connection is permitted, the radio control is performed via the path 51 and the connection point 46 for performing W-CDMA control. A SIP message is transmitted / received as user data to / from the SIP server 45 using the path 50.

  In addition, a path 49 is set for the wireless terminal 11 and the SIP server 45 to transmit and receive SIP messages via the WLAN 12.

  Note that various functions such as reception of service requests and user authentication may be included in the exchange, or may be included in other devices connected to the exchange. Moreover, the implementation method does not ask | require that each apparatus has each function.

  When the SIP server 45 detects an incoming call to the wireless terminal 11 in this state, the communication system according to the present embodiment performs paging from the SIP server 45 to the wireless terminal 11 using the path 49 via the WLAN. When the wireless terminal 11 starts communication in response to paging, a user data path 48 is set in order to transmit and receive user data, and the user data path 48 is used to transmit and receive data such as packets. I do. By performing such control, it is possible to prevent traffic from increasing in the W-CDMA network when paging to the wireless terminal 11 occurs. In addition, when there is no response within a predetermined time after the start of paging using the path 49, any of the paging via the W-CDMA network described in the third embodiment may be executed.

  As described above, in this embodiment, when transmitting and receiving user data such as packets via a WLAN, the wireless terminal makes a service request and user authentication to the W-CDMA exchange. In addition, when paging a wireless terminal, a path via a WLAN is used. Thus, a W-CDMA operator can prevent an increase in traffic on the W-CDMA network when paging a wireless terminal while using the W-CDMA terminal authentication / billing system.

  As described above, the communication system according to the present invention is useful for realizing the FMC service, and in particular, a communication operator who has already established a wireless communication network such as a W-CDMA network effectively uses existing equipment. However, it is suitable for a case where a WLAN system is newly constructed to provide an FMC service.

It is a figure which shows the structural example of Embodiment 1 of the communication system concerning this invention. It is a figure which shows the structural example of Embodiment 2 of the communication system concerning this invention. It is a figure which shows the structural example of Embodiment 3 of the communication system concerning this invention. It is a figure which shows the structural example of Embodiment 4 of the communication system concerning this invention. It is a figure for demonstrating the conventional communication system.

Explanation of symbols

11 Wireless terminal 12 WLAN
13 Base station 14, 25, 34, 44 Server 15, 16 Connection point 17 Interface 18, 29, 39, 50 Wireless control path 24 Gateway 28 Tunnel 35, 45 SIP server 38 User data communication path 40, 51 W-CDMA control 48 User data path 49 SIP message transmission / reception path

Claims (9)

A communication network including a mobile communication network including an exchange having an authentication function, an accounting function and a PDP context setting function, and a fixed communication network having a wireless communication function; and a wireless communication function between the mobile communication network and the fixed communication network A wireless communication system comprising: a wireless terminal having:
The wireless terminal is
By performing communication using the mobile communication network, terminal authentication using the functions of the exchange and setting of a PDP context are performed,
After the terminal authentication and the PDP context setting are completed, user data is transmitted / received via the fixed communication network,
The exchange is
A wireless communication system characterized by charging for transmission / reception via the fixed communication network.   When the wireless terminal transmits / receives user data to / from an external network via the fixed communication network, in the setting of the PDP context, the gateway connecting the communication network and the external network, and the wireless terminal The wireless communication system according to claim 1, wherein a tunnel for transmitting and receiving user data is set between the wireless communication systems. In addition, when the wireless terminal has a SIP signaling function provided with a SIP server,
The wireless terminal is
After the terminal authentication and the PDP context setting are completed,
When transmitting / receiving first user data including a SIP message to / from the SIP server, the mobile communication network is used,
The radio communication system according to claim 1, wherein the fixed communication network is used when second user data not including an SIP message is transmitted to the destination communication device.   When the wireless terminal detects communication quality degradation during transmission / reception of the second user data via the fixed communication network, the wireless terminal transmits a new PDP context for transmitting / receiving the second user data to the mobile communication network. The wireless communication system according to claim 3, wherein the second user data is transmitted / received using a newly set PDP context.   When the wireless terminal detects communication quality degradation during transmission / reception of the second user data via the fixed communication network, the wireless terminal has been set up with the mobile communication network to transmit / receive the first user data The wireless communication system according to claim 3, wherein the second user data is transmitted / received using the PDP context after the bandwidth of the PDP context is expanded and thereafter the bandwidth is expanded.   On the mobile communication network side, when an exchange in the network detects that the wireless terminal is in a state in which communication with the fixed communication network is possible, the wireless communication device in any one cell managed by itself When it is determined that the terminal is continuously present, and then an incoming call to the wireless terminal is detected, paging is performed for the cell in which the wireless terminal specified based on the communication history exists. The wireless communication system according to any one of claims 1 to 5. The SIP server
After detecting an incoming call to the wireless terminal, paging the wireless terminal via the fixed communication network, and when there is no response to the paging within a predetermined time, paging the wireless terminal via the mobile communication network The wireless communication system according to claim 3, 4 or 5. The wireless terminal registers information about the cell of the mobile communication network in which the wireless terminal is located at the time when communication with the fixed communication network becomes possible, to the SIP server,
On the mobile communication network side, when an exchange in the network receives an incoming notification to the wireless terminal via the SIP server, paging is performed on a cell indicated by information registered in the SIP server. The wireless communication system according to claim 7.   The mobile communication network side, wherein an exchange in the network performs paging for a plurality of cells in which the wireless terminal may exist when there is no response to the paging within a predetermined time. Item 9. The wireless communication system according to Item 6, 7 or 8.

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