JP5061159B2 - Mobile communication method, mobile communication system, and interworking apparatus - Google Patents

Description

  The present invention relates to a mobile communication method, a mobile communication system, and an interworking apparatus.

  EPC (Evolved Packet Core) networks that can accommodate LTE (Long Term Evolution) wireless access networks include MME (Mobility Management Entity), HSS (Home Subscriber Server), S-GW (S), W P-GW (Packet Data Network-Gateway), vPCRF (visited Policy and Charging Rules Function), hPCRF (Home Policy and Charging Rules Function), and the like are provided.

  Further, the EPC network is configured such that either a GTP (GPRS Tunneling Protocol) or a PMIP (Proxy Mobile IP) protocol is used between the S-GW and the P-GW.

3GPP TS 23.401 3GPP TS 23.402 3GPP TS 29.060 3GPP TS 29.274 3GPP TS 29.275 3GPP TS 23.203 3GPP TS 23.303

  FIG. 7 shows an EPC network architecture when roaming is performed by connecting the network operator A and the network operator B when GTP is used between the S-GW and the P-GW. FIG. 8 shows the architecture of the EPC network when roaming is performed by connecting the network operator A and the network operator B when PMIP is used between the S-GW and the P-GW. Show.

  As described above, the architecture of the EPC network in which GTP is used between the S-GW and the P-GW and the architecture of the EPC network in which PMIP is used between the S-GW and the P-GW. Different.

  Therefore, the EPC network in which GTP is used between the S-GW and the P-GW and the EPC network in which PMIP is used between the S-GW and the P-GW are directly connected to perform roaming. There was a problem that could not be implemented.

  Accordingly, the present invention has been made in view of the above-described problems, and a mobile communication method, a mobile communication system, and an interworking apparatus that enable roaming between network operators having different network architectures. The purpose is to provide.

  A first feature of the present invention is a mobile communication method, in which a first gateway device connected to an interworking device by a first protocol that cannot transmit service quality information transmits service quality information. Transmitting a mobile station connection request as a control signal for the second protocol to the interworking device and the first management device connected to the first gateway device by a second protocol capable of A management device transmitting a connection request for the mobile station as the control signal for the second protocol to the interworking device; and the interworking device according to the received connection request for the mobile station. , Determine provisional service quality information of the mobile station, and send a connection response including the provisional service quality information to the second A step of transmitting to the first management device as a protocol control signal; and a connection response including the provisional service quality information received by the first management device to the first gateway device as the second protocol control signal. Transmitting, and the first gateway device stores the provisional service quality information included in the received connection response, and the connection request of the mobile station including the provisional service quality information is controlled for the first protocol. Transmitting the signal as a signal to the interworking device, and the interworking device stores the provisional service quality information included in the received connection request and transmits the service quality information according to a third protocol capable of transmitting the service quality information. The provisional service for the second gateway device connected to the working device Transmitting a connection request of the mobile station including quality information as the control signal for the third protocol, and a second management in which the second gateway device is connected to the second gateway device by the second protocol. Transmitting the mobile station connection request including the provisional quality of service information to the apparatus as the second protocol control signal; and the second management apparatus responding to the received mobile station connection request. Extracting the formal service quality information of the mobile station and transmitting a connection response including the formal service quality information to the second gateway device as the second protocol control signal; and Transmitting a connection response including the formal quality of service information to the interworking device as the third protocol control signal; and The interworking apparatus transmits an update request including the formal service quality information as the second protocol control signal to the first management apparatus, and the first protocol apparatus uses the first protocol for the first protocol. A step of transmitting a connection response that does not include the formal service quality information as a control signal; and the first management device sends the formal service quality information as the second protocol control signal to the first gateway device. And the first gateway device has a step of updating the stored provisional service quality information to the formal service quality information in response to the received update request. The gist.

  A second feature of the present invention is a mobile communication system, an interworking device, a first gateway device connected to the interworking device by a first protocol that cannot transmit service quality information, a service, A first management device connected to the interworking device and the first gateway device by a second protocol capable of transmitting quality information, and the interworking device by a third protocol capable of transmitting service quality information A second gateway device connected to the second gateway device and a second management device connected to the second gateway device according to the second protocol, wherein the first gateway device is connected to the first management device. On the other hand, as the control signal for the second protocol, the mobile station The first management device is configured to transmit a connection request for the mobile station as the second protocol control signal to the interworking device. The interworking apparatus determines provisional service quality information of the mobile station in response to the received connection request of the mobile station, and uses a connection response including the provisional service quality information as the control signal for the second protocol. The first management device is configured to transmit to the first management device, and the first management device transmits the received connection response including the provisional service quality information to the first gateway device as the second protocol control signal. The first gateway device stores the provisional quality of service information included in the received connection response, and The mobile station connection request including fixed service quality information is configured to be transmitted to the interworking device as the first protocol control signal, and the interworking device is included in the received connection request. The temporary service quality information is stored, and the mobile station connection request including the temporary service quality information is transmitted to the second gateway device as the third protocol control signal, The second gateway device is configured to transmit a connection request of the mobile station including the provisional service quality information to the second management device as the second protocol control signal. 2 The management device extracts the formal service quality information of the mobile station in response to the received connection request of the mobile station, and A connection response including quality information is configured to be transmitted to the second gateway device as the second protocol control signal, and the second gateway device transmits the connection response including the formal service quality information to the second gateway device. The interworking device is configured to transmit to the interworking device as a third protocol control signal, and the interworking device sends the formal service quality information as the second protocol control signal to the first management device. Is sent to the first gateway device as a control signal for the first protocol, and a connection response not including the formal service quality information is transmitted to the first gateway device. The apparatus sends the formal service as the control signal for the second protocol to the first gateway apparatus. The first gateway device is configured to transmit an update request including quality information, and updates the stored provisional service quality information to the formal service quality information in response to the received update request. It is summarized as follows.

  The third feature of the present invention is an interworking device, which transmits a service quality information and a second gateway device function connected to the first gateway device by a first protocol that cannot transmit the service quality information. A second management device function connected to the first management device by a second protocol capable of transmitting, and a first gateway device connected to the second gateway device by a third protocol capable of transmitting service quality information The second management apparatus function determines provisional service quality information of the mobile station in response to the connection request of the mobile station received from the first management apparatus, and the provisional service quality information A connection response including the second protocol as a control signal for the second protocol is transmitted to the first management device, The first gateway device function is configured to transmit the connection request of the mobile station including the provisional service quality information to the second gateway device as the control signal for the third protocol, The second management device function includes, for the first management device, the formal service quality information of the mobile station included in the connection response received from the second gateway device as the second protocol control signal. The second gateway device function is configured to transmit an update request, and the second gateway device function transmits a connection response that does not include the formal service quality information as the first protocol control signal to the first gateway device. The gist of the configuration is as follows.

  As described above, according to the present invention, it is possible to provide a mobile communication method, a mobile communication system, and an interworking apparatus that enable roaming between network operators having different network architectures. .

1 is an overall configuration diagram of a mobile communication system according to a first embodiment of the present invention. It is a functional block diagram of IWF concerning a 1st embodiment of the present invention. It is a figure for demonstrating operation | movement of the mobile communication system which concerns on the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement of the mobile communication system which concerns on the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement of the mobile communication system which concerns on the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement of the mobile communication system which concerns on the 1st Embodiment of this invention. It is a whole block diagram of the conventional mobile communication system. It is a whole block diagram of the conventional mobile communication system.

(Configuration of mobile communication system according to the first embodiment of the present invention)
With reference to FIG.1 and FIG.2, the structure of the mobile communication system which concerns on the 1st Embodiment of this invention is demonstrated.

  As shown in FIG. 1, the mobile communication system according to the present embodiment includes an EPC network that can accommodate an LTE radio access network.

  Specifically, in the mobile communication system according to the present embodiment, an HPLMN (Home Public Land Mobile Network) which is a home network of a mobile station UE (not shown) and a VPLMN (Visible Public Land Mobile) which is a visited network of the mobile station. Roaming is performed with respect to (Network).

  VPLMN is an EPC network of a network operator using PMIP between S-GW and P-GW. In the example of FIG. 1, an LTE network, DNS (Domain Name Server) # 1, MME, HSS, S-GW, vPCRF, etc. are provided.

  On the other hand, HPLMN is an EPC network of a network operator using GTP between S-GW and P-GW. In the example of FIG. 1, DNS # 2, hPCRF, P-GW, external It has a network.

  Here, the MME is a switch that holds subscriber information necessary for connection of the mobile station UE and is configured to provide a C-Plane function in an LTE radio access network.

  The S-GW is a packet switch configured to provide a U-Plane function in an LTE wireless access network, and is an anchor node in a handover across an LTE wireless base station eNB (not shown).

  The P-GW is a connection point to an external network and is an anchor node in a handover across the S-GW.

  The HSS is a subscriber database configured to manage contract information regarding the mobile station UE, location information of the mobile station UE, and the like.

  The hPCRF is a second management device configured to manage QoS information, charging information, and the like of the mobile station UE, and the vPCRF is configured to manage QoS information, charging information, and the like of the mobile station UE. The first management device. The vPCRF is configured to acquire QoS information, charging information, and the like of the mobile station UE managed by the hPCRF.

  The mobile communication system according to the present embodiment is further provided with an IWF connected to an S-GW or vPCRF in the VPLMN, a P-GW or DNS # 2 in the HPLMN, or the like.

  Here, the IWF is connected to the S-GW in the VPLMN by PMIP (first protocol), connected to the P-GW in the HPLMN by GTP (third protocol), and vPCRF by the Diameter (second protocol). Is an interworking device connected to

  Further, the S-GW and the vPCRF are connected by a Diameter, and the P-GW and the hPCRF are connected by a Diameter.

  GTP and Diameter are protocols that can transmit the QoS information (service quality information) of the mobile station, and PMIP is a protocol that cannot transmit the QoS information of the mobile station.

  As shown in FIG. 2, the IWF includes a P-GW function 11, an hPCRF function 12, a conversion function 13, and an S-GW function 14.

  The P-GW function 11 is configured to behave as a P-GW via PMIP with respect to the S-GW in the VPLMN.

  The hPCRF function 12 is configured to behave as an hPCRF via a Diameter with respect to the vPCRF in the VPLMN.

  The S-GW function 14 is configured to behave as an S-GW via GTP with respect to the P-GW in the HPLMN.

  The conversion function 13 is configured to perform conversion processing between a GTP-C signal (GTP control signal), a PMIP control signal, and a Diameter control signal. The conversion function 13 may be configured to perform conversion processing among the GTP-U signal, the PMIP data signal, and the Diameter data signal.

(Operation of the mobile communication system according to the first embodiment of the present invention)
Hereinafter, with reference to FIG. 3 to FIG. 6, the operation of the mobile communication system according to the first embodiment of the present invention, specifically, connection processing (for example, transmission processing, attach processing, etc.) explain.

  When the MME receives the connection request of the mobile station UE in step S101, in step S102, the MME sends a DNS request (P Point) including an APN (Access Point Name) of the network related to the connection request of the mobile station UE to the DNS # 1. -GW address resolution request) is transmitted.

  Here, DNS # 1 determines whether or not the connection request of the mobile station UE is for a specific network (HPLMN in the example of FIG. 1) based on the APN included in the DNS request.

  When the DNS # 1 determines that the connection request of the mobile station UE is for a specific network, the DNS # 1 transmits a DNS response including the S-GW address and the I-WF P-GW function 11 address to the MME. To do.

  The MME may hold in advance both the P-GW and S-GW addresses corresponding to the APN, or the P-GW address. In the former case, the MME does not use the P-GW address acquired from the DNS # 1 even if the above-described step S102 does not occur or the above-described step S102 occurs. In the latter case, the MME performs the conversion of only the address of the S-GW using the same procedure as Step 102.

  In step S103, the MME transmits a connection request for the mobile station UE including the addresses of the above-described APN and P-GW function 11 to the S-GW.

  In step S104, the S-GW acquires the address of the vPCRF by transmitting a DNS request as a vPCRF address resolution request to the DNS # 1.

  Further, the S-GW may hold in advance a vPCRF address corresponding to connection destination information such as APN. In this case, even if the above-described step S104 does not occur, or even when the above-described step 104 occurs, the S-GW does not use the vPCRF address acquired from DNS # 1.

  In step S105, the S-GW transmits a connection request for the mobile station UE including the APN described above as a Diameter control signal to the vPCRF.

  In step S106, the vPCRF transmits a DNS request as an address resolution request for the hPCRF to DNS # 1.

  Here, DNS # 1 determines whether or not the hPCRF is an hPCRF in a specific network (HPLMN in the example of FIG. 1).

  When the DNS # 1 determines that the hPCRF is an hPCRF in a specific network, the DNS # 1 transmits a DNS response including the address of the hWFF function 12 of the IWF to the vPCRF.

  The vPCRF may hold in advance the address of the IWF hPCRF function 12 corresponding to connection destination information such as APN. In this case, even if the above-described step S106 does not occur or the above-described step 106 occurs, the vPCRF does not use the address of the hWFF function 12 of the IWF acquired from DNS # 1.

  In step S107, the vPCRF transmits a connection request for the mobile station UE including the above-described APN as a Diameter control signal to the IWF hPCRF function 12.

  In step S108, the hWFF function 12 of the IWF determines provisional QoS information of the mobile station UE.

  For example, the hPCRF function 12 of the IWF may use the QoS information of the mobile station UE acquired from the HPLMN that is the home network of the mobile station UE as the provisional QoS information of the mobile station UE, or the randomly generated QoS information of the mobile station UE May be provisional QoS information of the mobile station UE.

  Also, the hWFF function 12 of the IWF determines the provisional QoS information of the mobile station UE based on at least one of the connection destination (APN) of the mobile station UE and information (IMSI: International Mobile Subscriber Identity) related to the mobile station UE. May be.

  In step S109, the IWF hPCRF function 12 transmits a protocol conversion request including the received connection request of the mobile station UE to the IWF conversion function 13. In step S110, the IWF conversion function 13 receives the received request. A connection request of the mobile station UE as a Diameter control signal is stored.

  In step S111, the hPCRF function 12 of the IWF transmits a connection response including provisional QoS information of the mobile station UE to the vPCRF as a Diameter control signal.

  In step S112, the vPCRF transmits a connection response including the provisional QoS information of the mobile station UE as a Diameter control signal to the S-GW.

  In step S113, the S-GW transmits a connection request for the mobile station UE including the above-described APN as a PMIP control signal to the IWF P-GW function 11.

  In step S114, the IWF P-GW function 11 transmits a protocol conversion request including a connection request of the mobile station UE as a PMIP control signal to the IWF conversion function 13.

  In step S115, the IWF conversion function 13 receives the connection request of the mobile station UE as the PMIP control signal included in the received protocol conversion request and the connection request of the mobile station UE as the Diameter control signal received in step S110. In step S116, a connection request for the mobile station UE as a GTP-C signal is generated based on the connection request for the mobile station UE.

  In step S118a, the conversion function 13 of the IWF acquires the address of the hPCRF and the address of the P-GW from the DNS # 2 by transmitting a DNS request including the above-described APN to the DNS # 2.

  Also, the IWF conversion function 13 may include a database or the like that holds the hPCRF address and the P-GW address. In this case, the conversion function 13 of the IWF does not make an inquiry to DNS # 2, or does not use the acquired information even if it makes it.

  In step S117, the conversion function 13 of the IWF transmits a connection request of the mobile station UE as the generated GTP-C signal to the S-GW function 14 of the IWF.

  In step S118b, the S-GW function 14 of the IWF may acquire a P-GW address by transmitting a DNS request as a P-GW address resolution request to the DNS # 2.

  Further, the S-GW function 14 of the IWF may include a database or the like that holds the hPCRF address and the P-GW address. In this case, the S-GW function 14 of the IWF does not make an inquiry to the DNS # 2 or does not use the acquired information even if it makes an inquiry.

  In step S119a, the S-GW function 14 of the IWF transmits a connection request of the mobile station UE including the same provisional QoS information acquired in step S108 as a GTP-C signal to the P-GW.

  In step S119b, the P-GW acquires the address of the hPCRF from DNS # 2 by transmitting a DNS request including the above-described APN to DNS # 2. The P-GW may hold the address of the hPCRF. In that case, step S119b is not performed.

  In step S120, the P-GW transmits a connection request for the mobile station UE to the hPCRF as a Diameter control signal.

  In step S121, the hPCRF extracts the formal QoS information of the mobile station UE in response to the received connection request of the mobile station UE, and sends a connection response including the formal QoS information of the mobile station UE to the P-GW. It transmits as a control signal for Diameter.

  Here, the setting of the downlink tunnel corresponding to the formal QoS information of the mobile station UE is completed between the S-GW and the P-GW. When data is transmitted from the P-GW in the direction of the mobile station UE, the data is converted into a GTP signal in the IWF via the IWF, and transferred from the IWF to the S-GW.

  In step S122, the P-GW transmits a connection response including the formal QoS information of the mobile station UE to the S-GW function 14 of the IWF as a GTP-C signal.

  In step S123, the S-GW function 14 of the IWF transmits a protocol conversion request including the received connection response to the conversion function 13 or the hPCRF function 12 of the IWF.

  In step S124, the IWF conversion function 13 or the hPCRF function 12 generates a connection response as a PMIP control signal based on the received connection response as a GTP-C signal in response to the received protocol conversion request.

  In step S125, the IWF conversion function 13 or the hPCRF function 12 transmits the generated connection response as the PMIP control signal to the IWF P-GW function 11.

  In step S126, the IWF conversion function 13 or the hPCRF function 12 generates a QoS information update request including the formal QoS information of the mobile station UE included in the protocol conversion request.

  Here, the IWF conversion function 13 or the hPCRF function 12 may generate the QoS information update request only when the provisional QoS information stored in step S110 is different from the official QoS information.

  In step S127, the IWF hPCRF function 12 transmits such a QoS information update request as a Diameter control signal to the vPCRF. In Step S128, the vPCRF transmits to the S-GW as a Diameter control signal. The QoS information update request is transmitted.

  In step S129, the S-GW updates the stored provisional QoS information to the formal QoS information in response to the received QoS information update request.

  In step S130, the P-GW function 11 of the IWF transmits a connection response that does not include the formal QoS information of the mobile station UE as a PMIP control signal to the S-GW. This step S130 may be performed before the above-described steps S127 and S128 occur.

  Here, the setup of the uplink tunnel corresponding to the formal QoS information of the mobile station UE is completed between the S-GW and the P-GW. When data is transmitted from the mobile station UE in the P-GW direction, the data is converted from the GTP signal to the PMIP U-Plane signal in the IWF via the IWF, and transferred from the IWF to the S-GW. The

  In step S131, the S-GW transmits a connection response to the connection request of the above-described mobile station UE to the MME, and the MME transmits the connection response to the mobile station UE, whereby the mobile station The connection process of the UE is completed, and communication by the mobile station UE is possible.

(Operations and effects of the mobile communication system according to the first embodiment of the present invention)
According to the mobile communication system according to the first embodiment of the present invention, the function of selecting S-GW and P-GW in MME, the function of selecting vPCRF in S-GW in VPLMN, and hPCRF in vPCRF in VPLMN Roaming between the vPLMN and the hPLMN can be performed without revising the DNS # 1 in the VPLMN or the DNS # 2 in the HPLMN.

  That is, according to the mobile communication system according to the first embodiment of the present invention, the function of selecting the S-GW and P-GW in the MME, the function of selecting the vPCRF in the S-GW in the VPLMN, and the vPCRF in the VPLMN Roaming can also be performed with a network operator that does not cooperate with the function of selecting the hPCRF in the network, DNS # 1 in the VPLMN, and DNS # 2 in the HPLMN.

  The characteristics of the present embodiment described above may be expressed as follows.

  A first feature of the present embodiment is a mobile communication method, which is connected to an IWF (interworking apparatus) by PMIP (first protocol) that cannot transmit QoS information (service quality information). The GW (first gateway device) can send the QoS information to the vPCRF (first management device) connected to the IWF and S-GW by the Diameter (second protocol). A step of transmitting a connection request of the mobile station UE as a second protocol control signal), and a step of establishing a communication path by the vPCRF transmitting a connection request of the mobile station UE as a Diameter control signal to the IWF. In response to the received connection request of the mobile station UE, the IWF receives the provisional QoS information (provisional service of the mobile station UE). Quality information) and transmitting a connection response including provisional QoS information as a control signal for Diameter to the vPCRF, and the S-GW apparatus using the connection response including the provisional QoS received by the vPCRF as a control signal for Diameter And the S-GW stores provisional QoS information included in the received connection response, and sends a connection request for the mobile station UE including the provisional QoS information to the PMIP control signal (first protocol control signal). The IWF is connected to the IWF by GTP (third protocol) capable of storing the provisional QoS information included in the received connection request and transmitting the QoS information. To the P-GW (second gateway device), the mobile station UE connection request including the provisional QoS information is sent to the GTP-C signal ( (3 protocol control signal) to establish a communication path, and the P-GW moves to the hPCRF (second management device) connected to the P-GW by the Diameter, including provisional QoS information A connection request for the station UE is transmitted as a Diameter control signal to establish a communication path, and the hPCRF responds to the received connection request for the mobile station UE with the formal QoS information (official service quality information). ) And sending a connection response including formal QoS information to the P-GW as a control signal for Diameter, and the P-GW transmits a connection response including formal QoS information to the IWF as a GTP-C signal. And the IWF sends an update request including the formal QoS information as a Diameter control signal to the vPCRF, and responds to the S-GW. Then, a step of transmitting a connection response not including the formal QoS information as the PMIP control signal, and the vPCRF transmits an update request including the formal QoS information to the S-GW apparatus as the Diameter control signal. The gist is that the S-GW includes a process and a process of updating the stored provisional QoS information to the formal QoS information in response to the received update request.

  In the first feature of the present embodiment, when the MME (switch) receives a connection request from the mobile station UE, a step of transmitting a P-GW address resolution request to the DNS; And a step of transmitting an address resolution response including the address of the IWF to the MME in response to the address resolution request of the GW.

  In the first feature of the present embodiment, the MME directly holds the address of the IWF, and may use the address of the IWF for address resolution of the P-GW without going through the DNS. The IWF address may be regarded as the P-GW address.

  In the first feature of the present embodiment, the IWF is formalized as a Diameter control signal for the vPCRF only when the stored provisional QoS information is different from the formal QoS information included in the received connection response. An update request including QoS information may be transmitted.

  In the first feature of the present embodiment, the IWF may determine provisional QoS information based on at least one of a connection destination (APN) of the mobile station UE and information related to the mobile station UE.

  A second feature of the present embodiment is a mobile communication system, which is an IWF, an S-GW connected to the IWF by PMIP, a vPCRF connected to the IWF and S-GW by a Diameter, and GTP. The S-GW includes a P-GW connected to the IWF and an hPCRF connected to the P-GW by a Diameter, and the S-GW requests the vPCRF to connect the mobile station UE as a Diameter control signal. The vPCRF is configured to transmit a connection request of the mobile station UE as a Diameter control signal to the IWF, and the IWF receives the connection request of the received mobile station UE. Accordingly, the provisional QoS information of the mobile station UE is determined, and the connection response including the provisional QoS information is used for Diameter. The vPCRF is configured to transmit a connection response including the received provisional QoS information to the S-GW as a Diameter control signal, and the S-GW is configured to transmit to the vPCRF as a control signal. The provisional QoS information included in the received connection response is stored, and the mobile station UE connection request including the provisional QoS information is transmitted to the IWF as a PMIP control signal. The provisional QoS information included in the request is stored, and the mobile station UE connection request including the provisional QoS information is transmitted to the P-GW as a GTP-C signal. The hPCRF is configured to transmit a connection request of the mobile station UE including provisional QoS information as a control signal for Diameter. The mobile station UE is configured to extract the formal QoS information of the mobile station UE in response to the received connection request of the mobile station UE, and transmit a connection response including the formal QoS information to the P-GW as a Diameter control signal. The P-GW is configured to send a connection response including the official QoS information to the IWF as a GTP-C signal. The IWF updates the vPCRF including the official QoS information as a Diameter control signal. The request is transmitted, and a connection response not including formal QoS information is transmitted as a PMIP control signal to the S-GW. The vPCRF transmits a Diameter control signal to the S-GW. Is configured to send an update request including formal QoS information, and the S-GW stores the provisional QoS stored in response to the received update request. It is summarized as being configured to update the information formally QoS information.

  In the second feature of the present embodiment, an MME and a DNS are further provided. When the MME receives a connection request from the mobile station UE, the MME issues a P-GW address resolution request to the DNS. The DNS may be configured to transmit, and the DNS may be configured to transmit an address resolution response including the IWF address to the MME in response to the P-GW address resolution request.

  Alternatively, the MME may be configured to directly hold the IWF address and use the IWF address for P-GW address resolution without going through the DNS.

  In the second feature of the present embodiment, the IWF is officially used as a Diameter control signal for the vPCRF only when the stored provisional QoS information is different from the formal QoS information included in the received connection response. The update request including the QoS information may be transmitted.

  In the second feature of the present embodiment, the IWF may be configured to determine provisional QoS information based on at least one of information related to the connection destination (APN) of the mobile station UE and the mobile station UE. Good.

  The third feature of the present embodiment is an interworking device, which is a P-GW function 11 (second gateway device function) connected to the S-GW by PMIP, and an hPCRF connected to the vPCRF by Diameter. It has a function 12 (second management apparatus function) and an S-GW function 14 (first gateway apparatus function) connected to the P-GW by GTP. The hPCRF function 12 receives the movement received from the vPCRF. In response to the connection request of the station UE, the provisional QoS information of the mobile station UE is determined, and a connection response including the provisional QoS information is transmitted to the vPCRF as a Diameter control signal, and the S-GW function 14 Is configured to transmit a connection request of the mobile station UE including provisional QoS information as a GTP-C signal to the P-GW. The hPCRF function 12 is configured to transmit an update request including the official QoS information of the mobile station UE included in the connection response received from the P-GW as a Diameter control signal to the vPCRF. In summary, the P-GW function 11 is configured to transmit a connection response that does not include formal QoS information as a PMIP control signal to the S-GW.

  In the third feature of the present embodiment, the hPCRF function 12 is used as a Diameter control signal for the vPCRF only when the stored provisional QoS information and the formal QoS information included in the received connection response are different. The update request including the official QoS information may be transmitted.

  In the third feature of the present embodiment, the hPCRF function 12 is configured to determine provisional QoS information based on at least one of information related to the connection destination (APN) of the mobile station UE and the mobile station UE. May be.

  Note that the operation of the IWF described above may be implemented by hardware, may be implemented by a software module executed by a processor, or may be implemented by a combination of both.

  The software module includes a RAM (Random Access Memory), a flash memory, a ROM (Read Only Memory), an EPROM (Erasable Programmable ROM), an EEPROM (Electronically Erasable and Programmable ROM, a Hard Disk, a Registered ROM, a Hard Disk Alternatively, it may be provided in a storage medium of an arbitrary format such as a CD-ROM.

  Such a storage medium is connected to the processor so that the processor can read and write information from and to the storage medium. Further, such a storage medium may be integrated in the processor. Such a storage medium and processor may be provided in the ASIC. Such an ASIC may be provided in the IWF. Such a storage medium and processor may be provided in the IWF as a discrete component.

  Although the present invention has been described in detail using the above-described embodiments, it is obvious to those skilled in the art that the present invention is not limited to the embodiments described in this specification. The present invention can be implemented as modified and changed modes without departing from the spirit and scope of the present invention defined by the description of the scope of claims. Therefore, the description of the present specification is for illustrative purposes and does not have any limiting meaning to the present invention.

11 ... P-GW function 12 ... hPCRF function 13 ... conversion function 14 ... S-GW function

Claims (13)

The first gateway device connected to the interworking device by the first protocol that cannot transmit the quality of service information can transmit the quality of service information to the interworking device and the first gateway device by the second protocol. Transmitting a connection request of a mobile station as the control signal for the second protocol to the first management apparatus connected to
The first management device transmitting a connection request of the mobile station as the control signal for the second protocol to the interworking device;
The interworking apparatus determines provisional service quality information of the mobile station in response to the received connection request of the mobile station, and uses a connection response including the provisional service quality information as the second protocol control signal. Transmitting to the first management device;
The first management device transmitting a connection response including the received provisional service quality information to the first gateway device as the second protocol control signal;
The first gateway apparatus stores the provisional service quality information included in the received connection response, and the connection request of the mobile station including the provisional service quality information is used as the first protocol control signal as the interworking. Transmitting to the device;
The interworking device stores the provisional service quality information included in the received connection request, and transmits the service quality information to a second gateway device connected to the interworking device by a third protocol. On the other hand, transmitting the connection request of the mobile station including the provisional service quality information as the control signal for the third protocol,
The second gateway device sends a connection request for the mobile station including the provisional service quality information to the second management device connected to the second gateway device by the second protocol. Transmitting as a control signal;
The second management device extracts the formal service quality information of the mobile station in response to the received connection request of the mobile station, and uses a connection response including the formal service quality information as the control signal for the second protocol. Transmitting to the second gateway device;
The second gateway device transmits a connection response including the formal service quality information to the interworking device as the third protocol control signal;
The interworking apparatus transmits an update request including the formal service quality information as the second protocol control signal to the first management apparatus, and the first protocol is transmitted to the first gateway apparatus. Transmitting a connection response not including the formal service quality information as a control signal for
The first management device transmitting an update request including the formal service quality information as the second protocol control signal to the first gateway device;
The first gateway device includes a step of updating the stored provisional service quality information to the formal service quality information in response to the received update request. A step of transmitting an address resolution request of the second gateway device to the DNS when the exchange receives the connection request of the mobile station;
The DNS further comprises a step of transmitting an address resolution response including an address of the interworking device to the exchange in response to an address resolution request of the second gateway device. The mobile communication method described.   When the exchange directly holds the address of the interworking device and receives the connection request of the mobile station, the address of the interworking device is resolved to the address of the second gateway device without going through DNS. The mobile communication method according to claim 1, further comprising:   The interworking device uses the second protocol for the first management device only when the stored provisional service quality information and the formal service quality information included in the received connection response are different. The mobile communication method according to claim 1 or 2, wherein an update request including the formal service quality information is transmitted as a control signal.   5. The interworking apparatus determines the provisional quality of service information based on at least one of information on a connection destination of the mobile station and information on the mobile station. 6. The mobile communication method described in 1. An interworking device;
A first gateway device connected to the interworking device by a first protocol that cannot transmit quality of service information;
A first management device connected to the interworking device and the first gateway device by a second protocol capable of transmitting quality of service information;
A second gateway device connected to the interworking device by a third protocol capable of transmitting quality of service information;
A second management device connected to the second gateway device by the second protocol,
The first gateway device is configured to transmit a connection request of a mobile station as the second protocol control signal to the first management device,
The first management device is configured to transmit a connection request of the mobile station as the second protocol control signal to the interworking device,
The interworking apparatus determines provisional service quality information of the mobile station in response to the received connection request of the mobile station, and uses a connection response including the provisional service quality information as the second protocol control signal. Configured to transmit to the first management device;
The first management device is configured to transmit a connection response including the received provisional service quality information to the first gateway device as the second protocol control signal,
The first gateway device stores the provisional service quality information included in the received connection response, and the connection request of the mobile station including the provisional service quality information is used as the control signal for the first protocol as the interworking. Configured to transmit to the device,
The interworking apparatus stores the provisional service quality information included in the received connection request, and sends a connection request of the mobile station including the provisional service quality information to the second gateway apparatus. It is configured to transmit as a protocol control signal,
The second gateway device is configured to transmit a connection request of the mobile station including the provisional service quality information to the second management device as the control signal for the second protocol,
The second management device extracts the formal service quality information of the mobile station in response to the received connection request of the mobile station, and uses a connection response including the formal service quality information as the control signal for the second protocol. Configured to transmit to the second gateway device;
The second gateway device is configured to transmit a connection response including the formal service quality information to the interworking device as the control signal for the third protocol,
The interworking apparatus transmits an update request including the formal service quality information as the second protocol control signal to the first management apparatus, and the first protocol is transmitted to the first gateway apparatus. As a control signal, a connection response not including the formal service quality information is transmitted,
The first management device is configured to transmit an update request including the formal service quality information as the second protocol control signal to the first gateway device,
The mobile communication system, wherein the first gateway device is configured to update the stored provisional service quality information to the formal service quality information in response to the received update request. It further comprises an exchange and DNS,
The exchange is configured to transmit an address resolution request of the second gateway device to the DNS when receiving a connection request of the mobile station,
The DNS is configured to transmit an address resolution response including an address of the interworking device to the exchange in response to an address resolution request of the second gateway device. 6. The mobile communication system according to 6. It further comprises an exchange and DNS,
The exchange directly holds the address of the interworking device, and when the mobile station connection request is received, the address of the interworking device is set to the second gateway device without passing through the DNS. The mobile communication system according to claim 6, wherein the mobile communication system is configured to be used for address resolution.   The interworking device uses the second protocol for the first management device only when the stored provisional service quality information and the formal service quality information included in the received connection response are different. The mobile communication system according to claim 6 or 7, wherein an update request including the formal service quality information is transmitted as a control signal.   7. The interworking apparatus is configured to determine the provisional service quality information based on at least one of information related to a connection destination of the mobile station and the mobile station. The mobile communication system according to claim 9. A second gateway device function connected to the first gateway device by a first protocol that is unable to transmit quality of service information;
A second management device function connected to the first management device by a second protocol capable of transmitting quality of service information;
A first gateway device function connected to the second gateway device by a third protocol capable of transmitting quality of service information;
The second management apparatus function determines provisional service quality information of the mobile station in response to the mobile station connection request received from the first management apparatus, and sends a connection response including the provisional service quality information to the first 2 configured to transmit to the first management device as a control signal for two protocols,
The first gateway device function is configured to transmit a connection request of the mobile station including the provisional quality of service information as the third protocol control signal to the second gateway device,
The second management device function is configured to send, to the first management device, the formal service quality information of the mobile station included in the connection response received from the second gateway device as the second protocol control signal. Is configured to send an update request that contains
The second gateway device function is configured to transmit a connection response not including the formal service quality information as the first protocol control signal to the first gateway device. Interworking device.   The second management device function is configured so that the second management device function only applies the second management device to the first management device when the stored provisional service quality information is different from the formal service quality information included in the received connection response. 12. The interworking apparatus according to claim 11, wherein the interworking apparatus is configured to transmit an update request including the formal service quality information as a protocol control signal.   The said 2nd management apparatus function is comprised so that the said provisional quality of service information may be determined based on at least 1 of the connection destination of the said mobile station, and the information which concerns on the said mobile station. The interworking apparatus according to 11 or 12.

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