CN103826319A - Message transmission method, home eNB gateway, home eNB, core network equipment - Google Patents
Message transmission method, home eNB gateway, home eNB, core network equipment Download PDFInfo
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- CN103826319A CN103826319A CN201410043058.4A CN201410043058A CN103826319A CN 103826319 A CN103826319 A CN 103826319A CN 201410043058 A CN201410043058 A CN 201410043058A CN 103826319 A CN103826319 A CN 103826319A
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Abstract
The application provides a message transmission method, a home eNB gateway, a home eNB, core network equipment. The method comprises: A home eNB gateway receives a first message from a home eNB, wherein the first message includes an identifier of the home eNB; the home eNB gateway forwards the first message to core network equipment; the home eNB gateway receives a second message sent by the core network equipment, wherein the second message includes the identifier of the home eNB; and the home eNB gateway sends the second message to the home eNB according to the identifier. According to the application, a message from core network equipment can be routed to a correct home eNB.
Description
Technical field
The application relates to the communications field, particularly relates to a kind of method for message transmission, femto gateway, Home eNodeB and equipment of the core network.
Background technology
Along with scientific and technological development, mobile Internet business demand is day by day vigorous.According to statistics, 70% mobile communication data business occurs in indoor, is mainly derived from the hot spot regions such as station, airport, office, family, therefore, has produced the mode of Home eNodeB networking.
General continental rise wireless access network (the Evolved Universal Terrestrial Radio Access Network of evolution, E-UTRAN) framework can be disposed femto gateway (Home eNB GateWay, HeNB GW), its objective is the signaling plane pressure that reduces core net, now, HeNB GW has played the effect of a chain of command centralized node.Fig. 1 is the Home eNodeB networking schematic diagram according to prior art, as shown in Figure 1, evolution block core net (Evolved Packet Core, EPC) comprise mobile management entity (Mobility Management Entity, MME), gateway (Serving Gate Way, and grouped data network gateway (P-GW) S-GW), interface between interface, Home eNodeB (Home eNB, HeNB) and HeNB GW between HeNB GW and EPC and the interface between HeNB and EPC core net are all S1 interfaces.From MME side, HeNB GW is a base station (eNB, also referred to as enode b); From HeNB base station angle, HeNB GW is an EPC.
At present, in S1 interface, come unique identification base station by global identity (GLOBAL ID).HeNB GW may be connected with tens thousand of HeNB, and HeNB GW is a HeNB for EPC, according to current S1 interface definition, when the descending signaling message of MME reaches HeNB GW, HeNB GW cannot judge this signaling message and send to which HeNB, therefore, cannot be routed to corresponding HeNB.
HeNB also can be directly connected to EPC, and the S1 interface between the S1 interface between HeNB and EPC and HeNB and HeNB GW is the same.Fig. 2 is the another kind of Home eNodeB networking schematic diagram according to prior art, as shown in Figure 2, HeNB is directly connected with EPC, in MME, record the global evolution Node B mark (Global eNB ID) and SCTP (Stream Control Transmission Protocol of HeNB, SCTP) corresponding relation between connection, in the time that MME sends downstream message, can find corresponding HeNB according to this corresponding relation.But, because HeNB quantity is larger, adopt in this way and can cause larger pressure to EPC.
Summary of the invention
The application's technical problem to be solved is to provide a kind of method for message transmission, femto gateway, Home eNodeB and equipment of the core network, can make femto gateway be routed to correct HeNB from the downstream message of equipment of the core network.
In order to address the above problem, the application discloses a kind of method for message transmission, comprising: femto gateway receives the first message from Home eNodeB, wherein, comprises the mark of Home eNodeB in the first message; The first message is transmitted to equipment of the core network by femto gateway; Femto gateway receives the second message that equipment of the core network sends, and wherein, comprises the mark of Home eNodeB in the second message; Femto gateway, according to mark, sends to Home eNodeB by the second message.
Preferably, femto gateway receives and comprises from the first message of Home eNodeB: femto gateway receives and sets up request message from the S1 of Home eNodeB; The second message that femto gateway receives equipment of the core network transmission comprises: the S1 that femto gateway receives equipment of the core network transmission sets up response message, or the S1 that femto gateway reception equipment of the core network sends sets up failed message.
Preferably, femto gateway receives and comprises from the first message of Home eNodeB: femto gateway receives the base station configuration updating request message from Home eNodeB; The second message that femto gateway receives equipment of the core network transmission comprises: femto gateway receives base station configure-ack message or the base station configuration failure message that equipment of the core network sends.
Preferably, after femto gateway receives the first message from Home eNodeB, the corresponding relation between femto gateway record identification and first connects, wherein, the first connection is the connection between femto gateway and Home eNodeB; Femto gateway, according to mark, sends to Home eNodeB by the second message, comprising: femto gateway, according to mark and corresponding relation, is determined the first connection; Femto gateway sends to Home eNodeB by the first connection by the second message.
Preferably, equipment of the core network is mobile management entity MME, and/or, the global identity that is designated Home eNodeB of Home eNodeB.
In order to address the above problem, the application discloses a kind of method for message transmission, comprising: Home eNodeB adds the mark of Home eNodeB in the first message to; Home eNodeB sends the first message by femto gateway to equipment of the core network; Home eNodeB receives the second message from equipment of the core network that femto gateway forwards, and wherein, in the second message, comprises mark, and the second message is that femto gateway is transmitted to Home eNodeB according to mark.
Preferably, Home eNodeB sends the first message by femto gateway to equipment of the core network and comprises: Home eNodeB sends S1 by femto gateway to equipment of the core network and sets up request message; The second message from equipment of the core network that Home eNodeB receives femto gateway forwarding comprises: the S1 from equipment of the core network that Home eNodeB receives femto gateway forwarding sets up response message, or the S1 from equipment of the core network that Home eNodeB reception femto gateway forwards sets up failed message.
Preferably, Home eNodeB sends the first message by femto gateway to equipment of the core network and comprises: Home eNodeB sends base station configuration updating request message by femto gateway to equipment of the core network; The second message from equipment of the core network that Home eNodeB receives femto gateway forwarding comprises: Home eNodeB receives the base station configure-ack message from equipment of the core network or the base station configuration failure message that femto gateway forwards.
Preferably, equipment of the core network is mobile management entity MME, and/or, the global identity that is designated Home eNodeB of Home eNodeB.
In order to address the above problem, the application discloses a kind of method for message transmission, comprising: equipment of the core network receives the first message from Home eNodeB that femto gateway forwards, and wherein, comprises the mark of Home eNodeB in the first message; Equipment of the core network adds mark in the second message to; Equipment of the core network sends the second message to femto gateway, and wherein, the mark in the second message is used at femto gateway place as the foundation that the second message is sent to Home eNodeB.
Preferably, the first message from Home eNodeB that equipment of the core network reception femto gateway forwards comprises: the S1 from Home eNodeB that equipment of the core network receives femto gateway forwarding sets up request message; Equipment of the core network sends the second message to femto gateway and comprises: equipment of the core network sends S1 to femto gateway and sets up response message, or equipment of the core network is set up failed message to femto gateway transmission S1.
Preferably, the first message from Home eNodeB that equipment of the core network reception femto gateway forwards comprises: equipment of the core network receives the base station configuration updating request message from Home eNodeB that femto gateway forwards; Equipment of the core network sends the second message to femto gateway and comprises: equipment of the core network sends base station configure-ack message or base station configuration failure message to femto gateway.
Preferably, equipment of the core network is mobile management entity MME, and/or, the global identity that is designated Home eNodeB of Home eNodeB.
In order to address the above problem, the application discloses a kind of femto gateway, comprising: receiving element, for receiving the first message from Home eNodeB, wherein, comprises the mark of Home eNodeB in the first message; Transmitting element, for being transmitted to equipment of the core network by the first message; The second message that receiving element also sends for receiving equipment of the core network, wherein, comprises the mark of Home eNodeB in the second message; Transmitting element also, for according to mark, sends to Home eNodeB by the second message.
In order to address the above problem, the application discloses a kind of Home eNodeB, comprising: adding device, for adding the mark of Home eNodeB to first message; Transmitting element, for sending the first message by femto gateway to equipment of the core network; Receiving element, the second message from equipment of the core network forwarding for receiving femto gateway, wherein, comprises mark in the second message, and the second message is that femto gateway is transmitted to Home eNodeB according to mark.
In order to address the above problem, the application discloses a kind of equipment of the core network, comprising: receiving element, and the first message from Home eNodeB forwarding for receiving femto gateway, wherein, comprises the mark of Home eNodeB in the first message; Adding device, for adding mark to the second message; Transmitting element, for send the second message to femto gateway, wherein, the mark in the second message is used at femto gateway place as the foundation that the second message is sent to Home eNodeB.
Compared with prior art, the application has the following advantages:
In the prior art, after HeNB GW receives the signaling message from MME, cannot judge this message and should send to which HeNB, also just cannot be routed to corresponding HeNB.In this application, HeNB GW receives the mark that comprises HeNB in the message from equipment of the core network, according to this mark, can will be routed to correct HeNB from the message of equipment of the core network.
Accompanying drawing explanation
Fig. 1 is a kind of Home eNodeB networking schematic diagram according to prior art;
Fig. 2 is the another kind of Home eNodeB networking schematic diagram according to prior art;
Fig. 3 is according to the flow chart of a kind of method for message transmission of the embodiment of the present invention one;
Fig. 4 is according to the flow chart of a kind of method for message transmission of the embodiment of the present invention two;
Fig. 5 is according to the flow chart of a kind of method for message transmission of the embodiment of the present invention three;
Fig. 6 is according to the flow chart of a kind of method for message transmission of the embodiment of the present invention four;
Fig. 7 is according to the flow chart of a kind of method for message transmission of the embodiment of the present invention five;
Fig. 8 is according to the structured flowchart of a kind of femto gateway of the embodiment of the present invention six;
Fig. 9 is according to the structured flowchart of a kind of preferred femto gateway of the embodiment of the present invention six;
Figure 10 is according to the structured flowchart of a kind of Home eNodeB of the embodiment of the present invention seven;
Figure 11 is according to the structured flowchart of a kind of equipment of the core network of the embodiment of the present invention eight.
Embodiment
For the above-mentioned purpose, the feature and advantage that make the application can become apparent more, below in conjunction with the drawings and specific embodiments, the application is described in further detail.
With reference to Fig. 3, show a kind of method for message transmission of the application, the method can be for HeNB GW side, and as shown in Figure 3, the method comprises:
Step 302, HeNB GW receives the first message from HeNB, wherein, comprises the mark of HeNB in the first message;
In a preferred embodiment of the embodiment of the present invention, the mark of this HeNB can be the global identity (Global eNB ID) of HeNB, and this Global eNB ID is globally unique.By which, can multiplexing existing Global eNB ID, strengthen the compatibility of the present embodiment and existing procedure.
In specific implementation, the first message can be the message of transmitting on S1 interface, for example, can be request message.
Step 304, the first message is transmitted to equipment of the core network by HeNB GW;
In a preferred embodiment of the embodiment of the present invention, between HeNB and HeNB GW, can set up the first connection, for example, set up SCTP and connect.After HeNB GW receives the first message from HeNB, first obtain the mark in the first message, and record the corresponding relation of this mark and first between being connected, find the connection between HeNB and HeNB GW so that follow-up according to this corresponding relation and this mark.
Step 306, HeNB GW receives the second message that equipment of the core network sends, and wherein, comprises the mark of HeNB in the second message; Preferably, equipment of the core network can be MME.
In a preferred embodiment of the embodiment of the present invention, set up request message if the first message is S1, and equipment of the core network confirm can set up S1 connect, the second message that HeNB GW receives can be set up response message for S1; Set up request message if the first message is S1, and equipment of the core network confirm cannot set up S1 connect, the second message that HeNB GW receives can be set up failed message for S1; If the first message is base station configuration updating request message, and equipment of the core network confirms Reconfigurations, and the second message that HeNB GW receives can be base station configure-ack message; If the first message is base station configuration updating request message, and the failure of equipment of the core network confirmation Reconfigurations, the second message that HeNB GW receives can be base station configuration failure message.By this embodiment, connect in process of establishing and HeNB config update process at S1, the downlink signaling receiving is sent to corresponding HeNB by HeNB GW.
In specific implementation, the second message can be the message of transmitting on S1 interface, for example, can be response message.
Step 308, HeNB GW, according to this mark, sends to HeNB by the second message.
In a preferred embodiment of the embodiment of the present invention, if HeNB GW has recorded the corresponding relation of the mark and first of HeNB between being connected, HeNB finds the connection between HeNB and HeNB GW according to this corresponding relation and this mark, and uses this connection that the second message is sent to HeNB.
In the prior art, in the networking that comprises HeNB and HeNB GW (, networking shown in Fig. 1) in, in order to alleviate because HeNB quantity is compared with the pressure to EPC causing greatly, between HeNB GW and EPC, only set up one group of SCTP coupling, the message that MME sends to HeNB is what not carried about the mark of HeNB, therefore, after HeNB GW receives the signaling message from MME, cannot judge this message and should send to which HeNB, also just cannot be routed to corresponding HeNB.In the present embodiment, HeNB GW receives the mark that comprises HeNB in the message from equipment of the core network, according to this mark, can will be routed to correct HeNB from the message of equipment of the core network.
With reference to Fig. 4, show a kind of method for message transmission of the application, the method can be for HeNB side, and as shown in Figure 4, the method comprises:
In a preferred embodiment of the embodiment of the present invention, the mark of this HeNB can be the global identity (Global eNB ID) of HeNB, and this Global eNB ID is globally unique.By which, can multiplexing existing Global eNB ID, strengthen the compatibility of the present embodiment and existing procedure.
In specific implementation, the first message can be the message of transmitting on S1 interface, for example, can be request message.In the message that HeNB transmits on S1 interface, increase Global eNB ID parameter, MME, after judging that this parameter is HeNB identification parameter, carries this parameter in the message of returning to HeNB GW, so that HeNB GW can identify different HeNB according to this parameter.For example, can in following signaling message, increase Global eNB ID parameter: the base station configuration updating request message (ENB CONFIGURATION UPDATE) that HeNB GW sends to MME; The S1 that HeNB GW sends to MME sets up request message (S1SETUP REQUEST); The S1 that MME sends to HeNB GW sets up response message (S1SETUP RESPONSE); The S1 that MME sends to HeNB GW sets up failed message (S1SETUP FAILURE); The base station configure-ack message (ENB CONFIGURATION UPDATE ACKNOWLEDGE) that MME sends to HeNB GW; The base station configuration failure message (ENB CONFIGURATION UPDATE FAILURE) that MME sends to HeNB GW, the parameter of increase as shown in Table 1 and Table 2.
Table 1
Table 2
In a preferred embodiment of the embodiment of the present invention, set up request message if the first message is S1, and equipment of the core network confirm can set up S1 connect, the second message that HeNB receives can be set up response message for S1; Set up request message if the first message is S1, and equipment of the core network confirm cannot set up S1 connect, the second message that HeNB receives can be set up failed message for S1; If the first message is base station configuration updating request message, and equipment of the core network confirms Reconfigurations, and the second message that HeNB receives can be base station configure-ack message; If the first message is base station configuration updating request message, and the failure of equipment of the core network confirmation Reconfigurations, the second message that HeNB receives can be base station configuration failure message.By this embodiment, connect in process of establishing and HeNB config update process at S1, the downlink signaling receiving is sent to corresponding HeNB by HeNB GW.
In specific implementation, the second message can be the message of transmitting on S1 interface, for example, can be response message.
In the prior art, after HeNB GW receives the signaling message from equipment of the core network, cannot judge this message and should send to which HeNB, also just cannot be routed to corresponding HeNB.In the present embodiment, HeNB GW receives the mark that comprises HeNB in the message from equipment of the core network, according to this mark, can will be routed to correct HeNB from the message of equipment of the core network.
With reference to Fig. 5, show a kind of method for message transmission of the application, the method can be for equipment of the core network side, and as shown in Figure 5, the method comprises:
In a preferred embodiment of the embodiment of the present invention, the mark of this HeNB can be the global identity (Global eNB ID) of HeNB, and this Global eNB ID is globally unique.By which, can multiplexing existing Global eNB ID, strengthen the compatibility of the present embodiment and existing procedure.
In specific implementation, the first message can be the message of transmitting on S1 interface, for example, can be request message.In the message that HeNB transmits on S1 interface, increase Global eNB ID parameter, MME is after judging that this parameter is HeNB identification parameter, in the message of returning to HeNB GW, carry this parameter, so that HeNB GW can identify different HeNB according to this parameter, the Global eNBID parameter of increase as shown in Table 1 and Table 2.
In a preferred embodiment of the embodiment of the present invention, equipment of the core network obtains the mark of HeNB from the first message, then the mark of obtaining is added in the second message.
In a preferred embodiment of the embodiment of the present invention, set up request message if the first message is S1, and equipment of the core network confirm can set up S1 connect, the second message that HeNB GW receives can be set up response message for S1; Set up request message if the first message is S1, and equipment of the core network confirm cannot set up S1 connect, the second message that HeNB GW receives can be set up failed message for S1; If the first message is base station configuration updating request message, and equipment of the core network confirms Reconfigurations, and the second message that HeNB GW receives can be base station configure-ack message; If the first message is base station configuration updating request message, and the failure of equipment of the core network confirmation Reconfigurations, the second message that HeNB receives can be base station configuration failure message.By this embodiment, connect in process of establishing and HeNB config update process at S1, the downlink signaling receiving is sent to corresponding HeNB by HeNB GW.
In specific implementation, the second message can be the message of transmitting on S1 interface, for example, can be response message.
In the prior art, after HeNB GW receives the signaling message from equipment of the core network, cannot judge this message and should send to which HeNB, also just cannot be routed to corresponding HeNB.In the present embodiment, HeNB GW receives the mark that comprises HeNB in the message from equipment of the core network, according to this mark, can will be routed to correct HeNB from the message of equipment of the core network.
With reference to Fig. 6, show a kind of method for message transmission of the application, the method is for S1 connection building process, and as shown in Figure 6, the method comprises:
Step 606, MME is after receiving S1SETUP REQUEST message, judge that in Global eNB ID parameter, fill in is Home eNB ID, increase Global eNB ID parameter returning in the S1SETUP RESPONSE message of HeNB GW or S1SETUP FAILURE message;
Step 610, HeNB GW, after receiving S1SETUP RESPONSE message or S1SETUP FAILURE message, according to the Global eNB ID parameter of wherein carrying, finds corresponding HeNB;
In the present embodiment, connect in process of establishing at S1, increased the identification parameter of HeNB in downlink signaling message, HeNBGW can be properly routed to downlink signaling message corresponding HeNB like this.
With reference to Fig. 7, show a kind of method for message transmission of the application, the method is for HeNB config update flow process, and as shown in Figure 7, the method comprises:
Step 702, after the configuration of HeNB is upgraded, HeNB sends ENB CONFIGURATION UPDATE message to HeNB GW, this message is for carrying out the configuration of HeNB to upgrade, HeNB increases Global eNB ID parameter in this message, in Global eNB ID parameter, fills in Home eNB ID;
Step 704, HeNB GW, after receiving ENB CONFIGURATION UPDATE message, is transmitted to MME by this message;
Step 706, MME is after receiving ENB CONFIGURATION UPDATE message, judge that in Global eNB ID parameter, fill in is Home eNB ID, increases Global eNB ID parameter in the ENB CONFIGURATION UPDATE ACKNOWLEDGE message that returns to HeNB GW;
Step 708, MME sends ENB CONFIGURATION UPDATE ACKNOWLEDGE message to HeNB GW;
Step 710, HeNB GW, after receiving ENB CONFIGURATION UPDATE ACKNOWLEDGE message, finds corresponding HeNB according to the Global eNB ID parameter of carrying in this message;
Step 712, ENB CONFIGURATION UPDATE ACKNOWLEDGE message is sent to corresponding HeNB by HeNB GW.
In the present embodiment, in HeNB config update flow process, increased the identification parameter of HeNB in downlink signaling message, HeNB GW can be properly routed to downlink signaling message corresponding HeNB like this.
With reference to Fig. 8, show a kind of femto gateway of the application, this femto gateway can be for realizing said method, and therefore, the feature about femto gateway in said method can be applied in the present embodiment.This femto gateway comprises:
Receiving element 802, for receiving the first message from Home eNodeB, wherein, comprises the mark of Home eNodeB in the first message;
Transmitting element 804, for being transmitted to equipment of the core network by the first message;
The second message that receiving element 802 also sends for receiving equipment of the core network, wherein, comprises the mark of Home eNodeB in the second message;
Transmitting element 804 also, for according to this mark, sends to Home eNodeB by the second message.
In a preferred embodiment of the embodiment of the present invention, described receiving element 802 is set up request message for receiving from the S1 of Home eNodeB; Described receiving element 802 is also set up response message for the S1 that receives equipment of the core network transmission, or the S1 that reception equipment of the core network sends sets up failed message.
In a preferred embodiment of the embodiment of the present invention, described receiving element 802 is for receiving the base station configuration updating request message from Home eNodeB; Base station configure-ack message or base station configuration failure message that described receiving element 802 sends for receiving equipment of the core network.
In a preferred embodiment of the embodiment of the present invention, as shown in Figure 9, described femto gateway also comprises: record cell 902, for after femto gateway receives the first message from Home eNodeB, corresponding relation between record identification and first connects, wherein, the first connection is the connection between femto gateway and Home eNodeB; Transmitting element 804 also, for according to mark and corresponding relation, is determined the first connection, and by the first connection, the second message is sent to Home eNodeB.
In a preferred embodiment of the embodiment of the present invention, equipment of the core network is MME, and/or, the global identity that is designated Home eNodeB of Home eNodeB.
With reference to Figure 10, show a kind of Home eNodeB of the application, this Home eNodeB can be for realizing said method, and therefore, the feature about Home eNodeB in said method can be applied in the present embodiment.This Home eNodeB comprises:
Adding device 1002, for adding the mark of Home eNodeB to first message;
Transmitting element 1004, for sending the first message by femto gateway to equipment of the core network;
Receiving element 1006, the second message from equipment of the core network forwarding for receiving femto gateway, wherein, comprises this mark in the second message, and the second message is that femto gateway is transmitted to Home eNodeB according to this mark.
In a preferred embodiment of the embodiment of the present invention, transmitting element 1004 is set up request message for sending S1 by femto gateway to equipment of the core network; Receiving element 1006 is set up response message for the S1 from equipment of the core network that receives femto gateway forwarding, or the S1 from equipment of the core network that reception femto gateway forwards sets up failed message.
In a preferred embodiment of the embodiment of the present invention, transmitting element 1004 is for sending base station configuration updating request message by femto gateway to equipment of the core network; The base station configure-ack message from equipment of the core network or base station configuration failure message that receiving element 1006 forwards for receiving femto gateway.
In a preferred embodiment of the embodiment of the present invention, this equipment of the core network is MME, and/or, the global identity that is designated Home eNodeB of Home eNodeB.
With reference to Figure 11, show a kind of equipment of the core network of the application, this equipment of the core network can be for realizing said method, and therefore, the feature about equipment of the core network in said method can be applied in the present embodiment.This equipment of the core network comprises:
Receiving element 1102, the first message from Home eNodeB forwarding for receiving femto gateway, wherein, comprises the mark of Home eNodeB in the first message;
Adding device 1104, for adding this mark to second message;
Transmitting element 1106, for send the second message to femto gateway, wherein, the mark in the second message is used at femto gateway place as the foundation that the second message is sent to Home eNodeB.
In a preferred embodiment of the embodiment of the present invention, receiving element 1102 is set up request message for the S1 from Home eNodeB that receives femto gateway forwarding; Transmitting element 1106 is set up response message for sending S1 to femto gateway, or sets up failed message to femto gateway transmission S1.
In a preferred embodiment of the embodiment of the present invention, the base station configuration updating request message from Home eNodeB that receiving element 1102 forwards for receiving femto gateway; Transmitting element 1106 is for sending base station configure-ack message or base station configuration failure message to femto gateway.
In a preferred embodiment of the embodiment of the present invention, equipment of the core network is MME, and/or, the global identity that is designated Home eNodeB of Home eNodeB.
Each embodiment in this specification all adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment, between each embodiment identical similar part mutually referring to.For system embodiment, because it is substantially similar to embodiment of the method, so description is fairly simple, relevant part is referring to the part explanation of embodiment of the method.
A kind of method for message transmission, femto gateway, Home eNodeB and the equipment of the core network that above the application are provided, be described in detail, applied principle and the execution mode of specific case to the application herein and set forth, the explanation of above embodiment is just for helping to understand the application's method and core concept thereof; , for one of ordinary skill in the art, according to the application's thought, all will change in specific embodiments and applications, in sum, this description should not be construed as the restriction to the application meanwhile.
Claims (16)
1. a method for message transmission, is characterized in that, comprising:
Femto gateway receives the first message from Home eNodeB, wherein, and the mark that comprises described Home eNodeB in described the first message;
Described the first message is transmitted to equipment of the core network by described femto gateway;
Described femto gateway receives the second message that described equipment of the core network sends, wherein, and the mark that comprises described Home eNodeB in described the second message;
Described femto gateway, according to described mark, sends to described Home eNodeB by described the second message.
2. the method for claim 1, is characterized in that,
Femto gateway receives and comprises from the first message of Home eNodeB: described femto gateway receives and sets up request message from the S1 of described Home eNodeB;
Described femto gateway receives the second message that described equipment of the core network sends and comprises: described femto gateway receives the S1 that described equipment of the core network sends and sets up response message, or described femto gateway receives the S1 that described equipment of the core network sends and sets up failed message.
3. the method for claim 1, is characterized in that,
Femto gateway receives and comprises from the first message of Home eNodeB: described femto gateway receives the base station configuration updating request message from described Home eNodeB;
The second message that described femto gateway receives described equipment of the core network transmission comprises: described femto gateway receives base station configure-ack message or the base station configuration failure message that described equipment of the core network sends.
4. method as claimed any one in claims 1 to 3, is characterized in that,
After femto gateway receives the first message from Home eNodeB, described femto gateway records the corresponding relation between described mark and the first connection, and wherein, described the first connection is the connection between described femto gateway and described Home eNodeB;
Described femto gateway, according to described mark, sends to described Home eNodeB by described the second message, comprising:
Described femto gateway, according to described mark and described corresponding relation, determines that described first connects;
Described femto gateway connects described the second message is sent to described Home eNodeB by described first.
5. method as claimed any one in claims 1 to 3, is characterized in that, described equipment of the core network is mobile management entity MME, and/or, the global identity that is designated described Home eNodeB of described Home eNodeB.
6. a method for message transmission, is characterized in that, comprising:
Home eNodeB adds the mark of described Home eNodeB in the first message to;
Described Home eNodeB sends described the first message by femto gateway to equipment of the core network;
Described Home eNodeB receives the second message from described equipment of the core network that described femto gateway forwards, wherein, in described the second message, comprise described mark, described the second message is that described femto gateway is transmitted to described Home eNodeB according to described mark.
7. method as claimed in claim 6, is characterized in that,
Described Home eNodeB sends described the first message by femto gateway to equipment of the core network and comprises: described Home eNodeB sends S1 by described femto gateway to described equipment of the core network and sets up request message;
Described Home eNodeB receives the second message from described equipment of the core network that described femto gateway forwards and comprises: described Home eNodeB receives the S1 from described equipment of the core network that described femto gateway forwards and sets up response message, or described Home eNodeB receives the S1 from described equipment of the core network that described femto gateway forwards and sets up failed message.
8. method as claimed in claim 6, is characterized in that,
Described Home eNodeB sends described the first message by femto gateway to equipment of the core network and comprises: described Home eNodeB sends base station configuration updating request message by described femto gateway to described equipment of the core network;
The second message from described equipment of the core network that described Home eNodeB receives described femto gateway forwarding comprises: described Home eNodeB receives the base station configure-ack message from described equipment of the core network or the base station configuration failure message that described femto gateway forwards.
9. the method as described in any one in claim 6 to 8, is characterized in that, described equipment of the core network is mobile management entity MME, and/or, the global identity that is designated described Home eNodeB of described Home eNodeB.
10. a method for message transmission, is characterized in that, comprising:
Equipment of the core network receives the first message from Home eNodeB that femto gateway forwards, wherein, and the mark that comprises described Home eNodeB in described the first message;
Described equipment of the core network adds described mark in the second message to;
Described equipment of the core network sends described the second message to described femto gateway, and wherein, the described mark in described the second message is used at described femto gateway place as the foundation that described the second message is sent to described Home eNodeB.
11. methods as claimed in claim 10, is characterized in that,
The first message from Home eNodeB that equipment of the core network receives femto gateway forwarding comprises: the S1 from described Home eNodeB that described equipment of the core network receives described femto gateway forwarding sets up request message;
Described equipment of the core network sends described the second message to described femto gateway and comprises: described equipment of the core network sends S1 to described femto gateway and sets up response message, or described equipment of the core network is set up failed message to described femto gateway transmission S1.
12. methods as claimed in claim 10, is characterized in that,
The first message from Home eNodeB that equipment of the core network receives femto gateway forwarding comprises: described equipment of the core network receives the base station configuration updating request message from described Home eNodeB that described femto gateway forwards;
Described equipment of the core network sends described the second message to described femto gateway and comprises: described equipment of the core network sends base station configure-ack message or base station configuration failure message to described femto gateway.
13. methods as described in any one in claim 10 to 12, is characterized in that, described equipment of the core network is mobile management entity MME, and/or, the global identity that is designated described Home eNodeB of described Home eNodeB.
14. 1 kinds of femto gateways, is characterized in that, comprising:
Receiving element, for receiving the first message from Home eNodeB, wherein, the mark that comprises described Home eNodeB in described the first message;
Transmitting element, for being transmitted to equipment of the core network by described the first message;
The second message that described receiving element also sends for receiving described equipment of the core network, wherein, the mark that comprises described Home eNodeB in described the second message;
Described transmitting element also, for according to described mark, sends to described Home eNodeB by described the second message.
15. 1 kinds of Home eNodeB, is characterized in that, comprising:
Adding device, for adding the mark of described Home eNodeB to first message;
Transmitting element, for sending described the first message by femto gateway to equipment of the core network;
Receiving element, the second message from described equipment of the core network forwarding for receiving described femto gateway, wherein, in described the second message, comprise described mark, described the second message is that described femto gateway is transmitted to described Home eNodeB according to described mark.
16. 1 kinds of equipments of the core network, is characterized in that, comprising:
Receiving element, the first message from Home eNodeB forwarding for receiving femto gateway, wherein, the mark that comprises described Home eNodeB in described the first message;
Adding device, for adding described mark to second message;
Transmitting element, for send described the second message to described femto gateway, wherein, the described mark in described the second message is used at described femto gateway place as the foundation that described the second message is sent to described Home eNodeB.
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