CN105557017B

CN105557017B - A kind of data transmission method and device

Info

Publication number: CN105557017B
Application number: CN201480022009.0A
Authority: CN
Inventors: 石小丽; 罗海燕; 邓天乐; 周凯捷
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2014-08-28
Filing date: 2014-08-28
Publication date: 2019-10-01
Anticipated expiration: 2034-08-28
Also published as: CN105557017A; WO2016029409A1

Abstract

The present invention relates to fields of communication technology, more particularly to a kind of data transmission method and device, to the continuity transmission for solving not can guarantee business after the business of user is diverted to another RAT from a kind of wireless access technology RAT, so that the problem of service transmission quality reduces.A kind of data transmission method provided includes: that UE receives the downlink data that non-cellular net radio reception device is sent, and indicates information according to the first of the data type for being used to indicate downlink data the convergence, determines the data type of the received downlink data；UE handles the downlink data using cellular network protocol after the data type for determining the downlink data is honeycomb network data.Due to UE can receive non-cellular net radio reception device forwarding from the downlink data of Cellular Networks radio reception device when, the downlink data is handled using cellular network protocol, the fusion between different RAT is realized, the continuity transmission of business is ensure that, improves service transmission quality.

Description

A kind of data transmission method and device

Technical field

The present invention relates to field of communication technology more particularly to a kind of data transmission methods and device.

Background technique

With the rapid development of mobile application, mobile data flow increases severely, and the Internet resources of current Cellular Networks is caused to be got over To be more difficult to meet the needs of data traffic increases.

Currently, mobile operator wishes the network flow for being carried out bearing part Cellular Networks by means of the Internet resources of non-cellular net Amount, to alleviate the traffic load of Cellular Networks.The emphasis currently considered the cooperation between Cellular Networks and non-cellular net is: in what feelings All or part of business of user is shunted from a kind of wireless access technology (Radio Access Technology, RAT) under condition To another RAT.For example, when long term evolution (Long Term Evolution, LTE) network service overload, part non- User equipment (User in Wireless LAN (Wireless Local Area Networks, WLAN) coverage area Equipment, UE) all or part of service traffics be diverted to wlan network, to alleviate LTE network pressure.Here LTE net Network and wlan network are respectively Cellular Networks and non-cellular net.

But after the business of user is diverted to another RAT from a kind of RAT, due between two different RAT The seamless undertaking of Business Stream difficult to realize, therefore not can guarantee the continuity of customer service, so that service transmission quality drops It is low.For example, assisting the evolution base station (evolved in LTE network by the access point (Access Point, AP) in wlan network Node B, eNB) to UE send downlink data after, UE handles the downlink data according to WLAN data, by eNB send It cannot achieve seamless undertaking between WLAN Business Stream after former LTE Business Stream and shunting, to influence the company that the UE receives business Continuous property.For another example, the upstream data for needing to be sent to eNB is diverted to AP and handled by UE, AP by its according to WLAN data into Row processing, by cannot achieve seamless undertaking between the WLAN Business Stream after the UE former LTE Business Stream sent and shunting, thus shadow The continuity transmission of the business of sound, so that service transmission quality reduces.

Summary of the invention

The embodiment of the present invention provides a kind of data transmission method and device, to solve when by the business of user from one kind RAT is diverted to after another RAT, and the continuity due to not can guarantee business is transmitted, so that service transmission quality reduces The problem of.

In a first aspect, providing a kind of data transmission method, comprising:

User equipment (UE) receives the downlink data that non-cellular net radio reception device is sent；

The UE indicates information according to the first of the data type for being used to indicate downlink data the convergence, determines received described The data type of downlink data；

The UE handles institute after the data type for determining the downlink data is honeycomb network data, using cellular network protocol State downlink data.

With reference to first aspect, in the first possible implementation, the method also includes:

The UE receives Cellular Networks radio reception device and passes through radio resource control RRC reconfiguration message or broadcast message The the first convergence instruction information sent.

With reference to first aspect or the first possible implementation of first aspect, in second of possible implementation In,

The first convergence instruction information includes the corresponding relationship of the value of identification field and data type in downlink data；Institute Stating identification field is that the traffic in media access control MAC head in service quality control domain identifies frame control domain in TID or MAC header In frame type or the type field in MAC payload payload；Alternatively,

It is described first convergence instruction information include in downlink data basic service set identification BSSID it is corresponding with data type Relationship；Alternatively,

The first convergence instruction information includes the combination and data type of the value of BSSID and identification field in downlink data Corresponding relationship.

The possible implementation of second with reference to first aspect, in the third possible implementation, described first Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in downlink data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；

The UE handles institute after the data type for determining the downlink data is honeycomb network data, using cellular network protocol State downlink data, comprising:

The UE gets the bid after the data type for determining the downlink data is honeycomb network data according to the downlink data Shunting mode corresponding to the value of the field of awareness handles the downlink data using cellular network protocol.

Any one possible reality with reference to first aspect or in the first to three kind of possible implementation of first aspect Existing mode, in the fourth possible implementation, the UE receives the downlink data that non-cellular net radio reception device is sent Before, further includes:

The UE receives the polymerizing power for the ability information for inquiring the UE that Cellular Networks radio reception device is sent Query messages；

The UE feeds back the ability information of itself to the Cellular Networks radio reception device, and the ability information is used to indicate UE described in the Cellular Networks radio reception device has using cellular network protocol processing non-cellular net radio reception device transmission The ability of downlink data.

Second aspect provides a kind of data transmission method, comprising:

After needing non-cellular net radio reception device to transmit honeycomb network data, determination is used for Cellular Networks radio reception device First convergence instruction information of the data type of indicating downlink data；The data type is non-cellular network data or honeycomb netting index According to；

The first convergence instruction information is sent to the UE by the Cellular Networks radio reception device.

In conjunction with second aspect, in the first possible implementation, the Cellular Networks radio reception device is by described One convergence instruction information is sent to the UE, comprising:

The Cellular Networks radio reception device is by radio resource control RRC reconfiguration message or broadcast message, by institute It states the first convergence instruction information and is sent to the UE.

In conjunction with the possible implementation of the first of second aspect or second aspect, in second of possible implementation In,

The first convergence instruction information includes the corresponding relationship of the value of identification field and data type in downlink data；Institute Identification field is stated as the frame type in frame control domain in the traffic mark TID or MAC header in service quality control domain in MAC header, or Type field in MAC payload payload；Alternatively,

In conjunction with second of possible implementation of second aspect, in the third possible implementation, described first Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in downlink data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；The value of the identification field with point The corresponding relationship of stream mode determines the shunting mode of honeycomb network data for the UE, and based on determining shunting mode, uses The cellular network protocol processing downlink data.

In conjunction with the second of second aspect or the third possible implementation, in the fourth possible implementation, if The first convergence instruction information includes the value of TID and the corresponding relationship of data type, then the Cellular Networks wireless access is set For after needing non-cellular net radio reception device transmission honeycomb network data, determine that the first convergence indicates information, comprising: the bee Nest net radio reception device sends the downlink data when needing non-cellular net radio reception device to transmit honeycomb network data To the non-cellular net radio reception device, and the non-cellular net radio reception device is being received as downlink data choosing After the value of the TID selected, determine that the corresponding data type of the value of the TID is honeycomb network data；Alternatively,

If described first converges the corresponding relationship of the combination for the value that instruction information includes BSSID and TID and data type, Then the Cellular Networks radio reception device determines the first remittance after needing non-cellular net radio reception device to transmit honeycomb network data Poly- instruction information, comprising: the Cellular Networks radio reception device is needing non-cellular net radio reception device transmission honeycomb netting index According to when, the downlink data is sent to the non-cellular net radio reception device, and wireless receiving the non-cellular net Access device be the downlink data selection TID value after, determine the non-cellular net radio reception device BSSID and The corresponding data type of the combination of the value of the TID is honeycomb network data.

In conjunction with any one possible reality in the possible implementation of first to fourth of second aspect or second aspect kind First convergence is indicated information by existing mode, in a fifth possible implementation, the Cellular Networks radio reception device It is sent to before the UE, further includes:

The Cellular Networks radio reception device sends the polymerizing power for inquiring the ability information of the UE to the UE Query messages；

The Cellular Networks radio reception device receives the ability information of the UE feedback, and the ability information is used to indicate bee UE described in nest net radio reception device has the lower line number sent using cellular network protocol processing non-cellular net radio reception device According to ability.

The third aspect provides a kind of data transmission method, comprising:

Non-cellular net radio reception device receives the upstream data that user equipment (UE) is sent；

The non-cellular net radio reception device is indicated according to the second of the data type for being used to indicate upstream data the convergence Information determines the data type of the upstream data；

After the data type for determining the upstream data is honeycomb network data, Cellular Networks are sent by the upstream data Radio reception device is handled.

In conjunction with the third aspect, in the first possible implementation,

The second convergence instruction information includes the corresponding relationship of UE mark and data type in upstream data；Alternatively,

The second convergence instruction information includes the corresponding relationship of the value of identification field and data type in upstream data；Institute Stating identification field is that the traffic in media access control MAC head in service quality control domain identifies frame control domain in TID or MAC header In frame type or the type field in MAC payload payload；Alternatively,

The second convergence instruction information includes the combination of the value of identification field and UE mark and data class in upstream data The corresponding relationship of type.

In conjunction with the first possible implementation of the third aspect, in the second possible implementation, described second Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in upstream data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；

The non-cellular net radio reception device, will after the data type for determining the upstream data is honeycomb network data The upstream data is sent to Cellular Networks radio reception device and is handled, comprising:

The non-cellular net radio reception device is after the data type for determining the upstream data is honeycomb network data, root According to the corresponding shunting mode of value of identification field in the upstream data, Cellular Networks wireless access is sent by the upstream data Equipment is handled.

In conjunction with the possible implementation of first or second kind of the third aspect, in the third possible implementation, if The second convergence instruction information includes the value of TID and the corresponding relationship of data type, then the method also includes: it is described non- Cellular Networks radio reception device is after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE, under being described Row data select the value of TID, and determine the corresponding data type of value of the TID of the selection described in received upstream data For honeycomb network data；Alternatively,

If the second convergence instruction information includes the combination pass corresponding with data type of UE mark and the value of TID System, then the method also includes: the non-cellular net radio reception devices needs to send out receiving Cellular Networks radio reception device After giving the downlink data of UE, the value of TID is selected for the downlink data, and determine the UE UE mark and it is received on The corresponding data type of the combination of the value of the TID selected described in row data is honeycomb network data.

In conjunction with any one possible reality in the first to three kind of possible implementation of the third aspect or the third aspect Existing mode, in the fourth possible implementation, the non-cellular net radio reception device receive what user equipment (UE) was sent Before upstream data, further includes:

The non-cellular net radio reception device receives the second convergence instruction that Cellular Networks radio reception device is sent Information.

Fourth aspect provides a kind of data transmission method, comprising:

After needing non-cellular net radio reception device to transmit honeycomb network data, determination is used for Cellular Networks radio reception device Indicate the second convergence instruction information of the data type of upstream data；The data type is honeycomb network data or non-cellular netting index According to；

The second convergence instruction information is sent to Cellular Networks radio reception device by the Cellular Networks radio reception device.

In conjunction with fourth aspect, in the first possible implementation,

The second convergence instruction information includes the corresponding relationship of the value of identification field and data type in upstream data；Institute Identification field is stated as the frame type in frame control domain in the traffic mark TID or MAC header in service quality control domain in MAC header, or Type field in MAC payload payload；Alternatively,

The second convergence instruction information includes the combination of the value of identification field and UE mark and number in the upstream data According to the corresponding relationship of type.

In conjunction with the first possible implementation of fourth aspect, in the second possible implementation, described second Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in upstream data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；The value of the identification field with point The corresponding relationship of stream mode determines the shunting mode of honeycomb network data for the non-cellular net radio reception device, and based on true Fixed shunting mode sends Cellular Networks radio reception device for the upstream data and handles.

5th aspect, provides a kind of data transmission device, comprising:

Receiving module, the downlink data for being sent to user equipment (UE) for receiving non-cellular net radio reception device；

Determining module determines institute for the first convergence instruction information according to the data type for being used to indicate downlink data State the data type of the received downlink data of receiving module；

Processing module, for determined in the determining module downlink data data type be honeycomb network data after, The downlink data is handled using cellular network protocol.

In conjunction with the 5th aspect, in the first possible implementation, the receiving module is also used to:

Receive what Cellular Networks radio reception device was sent by radio resource control RRC reconfiguration message or broadcast message The first convergence instruction information.

In conjunction with the first possible implementation of the 5th aspect or the 5th aspect, in second of possible implementation In,

In conjunction with second of possible implementation of the 5th aspect, in the third possible implementation, described first Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in downlink data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；

The processing module is specifically used for:

After the data type for determining the downlink data is honeycomb network data, according to identification field in the downlink data Shunting mode corresponding to value handles the downlink data using cellular network protocol.

In conjunction with any one possible reality in the first to three kind of possible implementation of the 5th aspect or the 5th aspect Existing mode, may starve in implementation at the 4th kind, and the receiving module is also used to, and receive non-cellular net radio reception device Before the downlink data of transmission, the polymerization for the ability information for inquiring the UE that Cellular Networks radio reception device is sent is received Capability query message；

Described device further include: sending module, for feeding back the ability of the UE to the Cellular Networks radio reception device Information, it is non-with being handled using cellular network protocol that the ability information is used to indicate UE described in the Cellular Networks radio reception device The ability for the downlink data that Cellular Networks radio reception device is sent.

6th aspect, provides a kind of data transmission device, comprising:

Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate First convergence instruction information of the data type of downlink data；The data type is non-cellular network data or honeycomb network data；

Sending module, the first convergence instruction information for determining the determining module are sent to the UE.

In conjunction with the 6th aspect, in the first possible implementation, the sending module is specifically used for: by wirelessly providing Source controls RRC reconfiguration message or broadcast message, and the first convergence instruction information is sent to the UE.

In conjunction with the first possible implementation of the 6th aspect or the 6th aspect, in second of possible implementation In,

In conjunction with second of possible implementation of the 6th aspect, in the third possible implementation, described first Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in downlink data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；The value of the identification field with point The corresponding relationship of stream mode determines the shunting mode of honeycomb network data for the UE, and based on determining shunting mode, uses The cellular network protocol processing downlink data.

In conjunction with second or the third possible implementation of the 6th aspect, in the fourth possible implementation, if The first convergence instruction information includes the value of TID and the corresponding relationship of data type, then the determining module is specifically used for: Need non-cellular net radio reception device transmit honeycomb network data when, by the downlink data be sent to the non-cellular net without Line access device, and after the value for receiving the TID that the non-cellular net radio reception device is downlink data selection, Determine that the corresponding data type of the value of the TID is honeycomb network data；Alternatively,

If described first converges the corresponding relationship of the combination for the value that instruction information includes BSSID and TID and data type, Then the determining module is specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, by the downlink Data are sent to the non-cellular net radio reception device, and in the case where receiving the non-cellular net radio reception device and being described After the value of the TID of row data selection, the group of the value of the BSSID and the TID of the non-cellular net radio reception device is determined Closing corresponding data type is honeycomb network data.

In conjunction with any one possible reality in first to fourth kind of possible implementation of the 6th aspect or the 6th aspect Existing mode, in a fifth possible implementation, the sending module is also used to, and the first convergence instruction information is sent Before the UE, Xiang Suoshu UE sends the polymerizing power query messages for inquiring the ability information of the UE；

Described device further include: receiving module, for receiving the ability information of the UE feedback, the ability information is used for Indicate that UE described in Cellular Networks radio reception device has using cellular network protocol processing non-cellular net radio reception device transmission The ability of downlink data.

7th aspect, provides a kind of data transmission device, comprising:

Receiving module, for receiving the upstream data of user equipment (UE) transmission；

Determining module determines institute for the second convergence instruction information according to the data type for being used to indicate upstream data State the data type of the received upstream data of receiving module；

Sending module, for determined in the determining module upstream data data type be honeycomb network data after, Cellular Networks radio reception device is sent by the upstream data to handle.

In conjunction with the 7th aspect, in the first possible implementation, the second convergence instruction information includes uplink number According to the corresponding relationship of middle UE mark and data type；Alternatively,

In conjunction with the first possible implementation of the 7th aspect, in the second possible implementation, described second Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in upstream data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；

The sending module is specifically used for:

After the determining module determines the data type of the upstream data for honeycomb network data, according to the upper line number According to the corresponding shunting mode of the value of middle identification field, send the upstream data at Cellular Networks radio reception device Reason.

In conjunction with the possible implementation of first or second kind of the 7th aspect, in the third possible implementation, if The second convergence instruction information includes the value of TID and the corresponding relationship of data type, then the determining module is also used to: After receiving the downlink data that Cellular Networks radio reception device needs to be sent to UE, the value of TID is selected for the downlink data, And determine that the corresponding data type of value of the TID selected described in received upstream data is honeycomb network data；Alternatively,

If the second convergence instruction information includes the combination pass corresponding with data type of UE mark and the value of TID System, then the determining module is also used to: after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE, being The value of the downlink data selection TID, and determine the TID of the UE mark and selection described in received upstream data of the UE Value the corresponding data type of combination be honeycomb network data.

In conjunction with any one possible reality in the first to three kind of possible implementation of the 7th aspect or the 7th aspect Existing mode, in the fourth possible implementation, the receiving module is also used to, in the uplink for receiving user equipment (UE) transmission Before data, the second convergence instruction information that Cellular Networks radio reception device is sent is received.

Eighth aspect provides a kind of data transmission device, comprising:

Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate Second convergence instruction information of the data type of upstream data；The data type is honeycomb network data or non-cellular network data；

Sending module, the second convergence instruction information for determining the determining module are sent to Cellular Networks wireless access Equipment.

In conjunction with eighth aspect, in the first possible implementation,

In conjunction with the first possible implementation of eighth aspect, in the second possible implementation, described second Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in upstream data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；The value of the identification field with point The corresponding relationship of stream mode determines the shunting mode of honeycomb network data for the non-cellular net radio reception device, and based on true Fixed shunting mode sends Cellular Networks radio reception device for the upstream data and handles.

9th aspect, provides a kind of data transmission device, comprising:

Receiver, the downlink data for being sent to user equipment (UE) for receiving non-cellular net radio reception device；

Processor indicates information for converging according to the first of the data type for being used to indicate downlink data, described in determination The data type of the received downlink data of receiver；It is honeycomb network data in the data type for determining the downlink data Afterwards, the downlink data is handled using cellular network protocol.

In conjunction with the 9th aspect, in the first possible implementation, the receiver is also used to:

In conjunction with the first possible implementation of the 9th aspect or the 9th aspect, in second of possible implementation In,

In conjunction with second of possible implementation of the 9th aspect, in the third possible implementation, described first Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in downlink data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；

The processor is specifically used for:

In conjunction with any one possible reality in the first to three kind of possible implementation of the 9th aspect or the 9th aspect Existing mode, may starve in implementation at the 4th kind, and the receiver is also used to, and receive non-cellular net radio reception device hair Before the downlink data sent, the polymerization energy for the ability information for inquiring the UE that Cellular Networks radio reception device is sent is received Power query messages；

Described device further include: transmitter, the ability for feeding back the UE to the Cellular Networks radio reception device are believed Breath, the ability information, which is used to indicate UE described in the Cellular Networks radio reception device and has, handles non-bee using cellular network protocol The ability for the downlink data that nest net radio reception device is sent.

Tenth aspect, provides a kind of data transmission device, comprising:

Processor, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate down First convergence instruction information of the data type of row data；The data type is non-cellular network data or honeycomb network data；

Transmitter, the first convergence instruction information for determining the processor are sent to the UE.

In conjunction with the tenth aspect, in the first possible implementation, the transmitter is specifically used for: passing through radio resource RRC reconfiguration message or broadcast message are controlled, the first convergence instruction information is sent to the UE.

In conjunction with the first possible implementation of the tenth aspect or the tenth aspect, in second of possible implementation In,

In conjunction with second of possible implementation of the tenth aspect, in the third possible implementation, described first Convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in downlink data；The shunting mode packet It includes and shunts from PDCP layers of Packet Data Convergence Protocol and shunted from wireless spread-spectrum technology rlc layer；The value of the identification field with point The corresponding relationship of stream mode determines the shunting mode of honeycomb network data for the UE, and based on determining shunting mode, uses The cellular network protocol processing downlink data.

In conjunction with second or the third possible implementation of the tenth aspect, in the fourth possible implementation, if The first convergence instruction information includes the value of TID and the corresponding relationship of data type, then the processor is specifically used for: When non-cellular net radio reception device being needed to transmit honeycomb network data, it is wireless that the downlink data is sent to the non-cellular net Access device, and after the value for receiving the TID that the non-cellular net radio reception device is downlink data selection, really The corresponding data type of value of the fixed TID is honeycomb network data；Alternatively,

If described first converges the corresponding relationship of the combination for the value that instruction information includes BSSID and TID and data type, Then the processor is specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, by the lower line number It according to being sent to the non-cellular net radio reception device, and is the downlink receiving the non-cellular net radio reception device After the value of the TID of data selection, the combination of the value of the BSSID and the TID of the non-cellular net radio reception device is determined Corresponding data type is honeycomb network data.

In conjunction with any one possible reality in first to fourth kind of possible implementation of the tenth aspect or the tenth aspect Existing mode, in a fifth possible implementation, the transmitter is also used to, and the first convergence instruction information is sent to Before the UE, Xiang Suoshu UE sends the polymerizing power query messages for inquiring the ability information of the UE；

Described device further include: receiver, for receiving the ability information of the UE feedback, the ability information is for referring to Show that UE described in Cellular Networks radio reception device has using under cellular network protocol processing non-cellular net radio reception device transmission The ability of row data.

On the one hand tenth, provides a kind of data transmission device, comprising:

Receiver, for receiving the upstream data of user equipment (UE) transmission；

Processor indicates information for converging according to the second of the data type for being used to indicate upstream data, described in determination The data type of the received upstream data of receiver；

Transmitter, for determined in the processor upstream data data type be honeycomb network data after, by institute It states upstream data and is sent to Cellular Networks radio reception device and handled.

On the one hand in conjunction with the tenth, in the first possible implementation, the second convergence instruction information includes uplink The corresponding relationship of UE mark and data type in data；Alternatively,

In conjunction with the first possible implementation of the tenth one side, in the second possible implementation, described Two convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in upstream data；The shunting mode Including shunting from PDCP layers of Packet Data Convergence Protocol and being shunted from wireless spread-spectrum technology rlc layer；

The transmitter is specifically used for:

After the processor determines the data type of the upstream data for honeycomb network data, according to the upstream data The corresponding shunting mode of the value of middle identification field sends Cellular Networks radio reception device for the upstream data and handles.

In conjunction with the possible implementation of first or second kind of the tenth one side, in the third possible implementation, If the second convergence instruction information includes the value of TID and the corresponding relationship of data type, the processor is also used to: After receiving the downlink data that Cellular Networks radio reception device needs to be sent to UE, the value of TID is selected for the downlink data, And determine that the corresponding data type of value of the TID selected described in received upstream data is honeycomb network data；Alternatively,

If the second convergence instruction information includes the combination pass corresponding with data type of UE mark and the value of TID System, then the processor is also used to: after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE, for institute The value of downlink data selection TID is stated, and determines the UE mark of the UE with the TID's of selection described in received upstream data The corresponding data type of the combination of value is honeycomb network data.

It may in conjunction with the tenth any one on the one hand or in the first to three kind of possible implementation of the tenth one side Implementation, in the fourth possible implementation, the receiver is also used to, receive user equipment (UE) send it is upper Before row data, the second convergence instruction information that Cellular Networks radio reception device is sent is received.

12nd aspect, provides a kind of data transmission device, comprising:

Processor, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate Second convergence instruction information of the data type of row data；The data type is honeycomb network data or non-cellular network data；

Transmitter, the second convergence instruction information for determining the processor are sent to Cellular Networks wireless access and set It is standby.

In conjunction with the 12nd aspect, in the first possible implementation,

In conjunction with the first possible implementation of the 12nd aspect, in the second possible implementation, described the Two convergence instruction information further include: the corresponding relationship of the value of identification field and shunting mode in upstream data；The shunting mode Including shunting from PDCP layers of Packet Data Convergence Protocol and being shunted from wireless spread-spectrum technology rlc layer；The value of the identification field with The corresponding relationship of shunting mode determines the shunting mode of honeycomb network data for the non-cellular net radio reception device, and is based on Determining shunting mode sends Cellular Networks radio reception device for the upstream data and handles.

Using the above method or device, UE can be in the honeycomb network data for receiving the transmission of non-cellular net radio reception device When the downlink data of type, the downlink data is handled using cellular network protocol.Non-cellular net radio reception device can receive When the upstream data of the Cellular Networks data type sent to UE, sends it to Cellular Networks radio reception device and handled, from And the fusion between different radio access technologies RAT is realized, it ensure that the continuity transmission of business, improve business transmission matter Amount.

Detailed description of the invention

Fig. 1 is the network architecture schematic diagram of the embodiment of the present invention；

Fig. 2 (a) is the network architecture schematic diagram that SRC and eNB is the same node in the embodiment of the present invention one；

Fig. 2 (b) is SRC and the network architecture schematic diagram that eNB is different nodes in the embodiment of the present invention one；

Fig. 3 is the downlink data transmission method flow chart that the embodiment of the present invention one provides；

Fig. 4 is that the downlink data in embodiment one shunts schematic diagram；

Fig. 5 is the uplink data transmission method flow chart that the embodiment of the present invention one provides；

Fig. 6 is that the upstream data in embodiment one shunts schematic diagram；

Fig. 7 (a) is the network architecture schematic diagram that SRC and eNB is the same node in the embodiment of the present invention two；

Fig. 7 (b) is SRC and the network architecture schematic diagram that eNB is different nodes in the embodiment of the present invention two；

Fig. 8 is that the downlink data in embodiment two shunts schematic diagram；

Fig. 9 is the uplink data transmission method flow chart in the embodiment of the present invention two；

Figure 10 is that the upstream data in embodiment two shunts schematic diagram；

Figure 11 (a) is the network architecture schematic diagram that SRC and eNB is the same node in the embodiment of the present invention three；

Figure 11 (b) is SRC and the network architecture schematic diagram that eNB is different nodes in the embodiment of the present invention three；

Figure 12 is the downlink data transmission method flow chart that the embodiment of the present invention three provides；

Figure 13 is that the downlink data in embodiment three shunts schematic diagram；

Figure 14 is the uplink data transmission method flow chart that the embodiment of the present invention three provides；

Figure 15 is that the upstream data in embodiment three shunts schematic diagram；

Another network architecture schematic diagram of Figure 16 embodiment of the present invention three；

Figure 17 is a kind of network architecture schematic diagram of the embodiment of the present invention four；.

Figure 18 is the downlink data transmission method flow chart that the embodiment of the present invention four provides；

Figure 19 is that the downlink data in the embodiment of the present invention four shunts schematic diagram；.

Figure 20 is that the upstream data in the embodiment of the present invention four shunts schematic diagram；

Figure 21 is a kind of network architecture schematic diagram of the embodiment of the present invention five；

Figure 22 is the downlink data transmission method flow chart that the embodiment of the present invention five provides；

Figure 23 is that the downlink data in embodiment five shunts schematic diagram；

Figure 24 is that the upstream data in embodiment five shunts schematic diagram；

Figure 25 (a) is the network architecture schematic diagram that SRC and eNB is the same node in the embodiment of the present invention six；

Figure 25 (b) is SRC and the network architecture schematic diagram that eNB is different nodes in the embodiment of the present invention six；

Figure 26 is that the downlink data in embodiment six shunts schematic diagram；

Figure 27 is the uplink data transmission method flow chart that the embodiment of the present invention six provides；

Figure 28 is that the upstream data in embodiment six shunts schematic diagram；

Figure 29 is the data transmission device structural schematic diagram that the embodiment of the present invention eight provides；

Figure 30 is the data transmission device structural schematic diagram that the embodiment of the present invention nine provides；

Figure 31 is the data transmission device structural schematic diagram that the embodiment of the present invention ten provides；

Figure 32 is the data transmission device structural schematic diagram that the embodiment of the present invention 11 provides；

Figure 33 is the data transmission device structural schematic diagram that the embodiment of the present invention 12 provides；

Figure 34 is the data transmission device structural schematic diagram that the embodiment of the present invention 13 provides；

Figure 35 is the data transmission device structural schematic diagram that the embodiment of the present invention 14 provides；

Figure 36 is the data transmission device structural schematic diagram that the embodiment of the present invention 15 provides.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained without creative labor, shall fall within the protection scope of the present invention.? In reconcilable situation, following embodiment can be quoted mutually.

Technical solution described in the embodiment of the present invention can be used for various communication systems, such as the protocol-dependent whole world 3GPP Mobile communication (GSM, Global System for Mobile communications), CDMA (CDMA, Code Division Multiple Access), time division multiple acess (TDMA, Time Division Multiple Access), broadband code Divide multiple access (WCDMA, Wideband Code Division Multiple Access Wireless), frequency division multiple access (FDMA, Frequency Division Multiple Addressing), orthogonal frequency division multiple access (OFDMA, Orthogonal Frequency-Division Multiple Access), Single Carrier Frequency Division Multiple Access (SC-FDMA), General Packet Radio Service (GPRS, General Packet Radio Service), long term evolution (LTE, Long Term Evolution), Yi Jifei The protocol-dependent Wireless LAN of 3GPP (Wireless Local Area Networks, WLAN).In addition, the present invention is implemented Character "/" in example, typicallys represent the relationship that forward-backward correlation object is a kind of "or".

There are two kinds of network architectures by WLAN AP in the embodiment of the present invention: autonomous management framework and concentration management framework.From Main management framework is also known as " fat " AP framework, and WLAN AP is responsible for user equipment access, user equipment disconnection, purview certification, safety The tasks such as strategy implement, data forwarding, data encryption, network management, the configuration of autonomous control WLANAP and radio function.It concentrates Management framework is also known as " thin " AP framework, and administrative power is generally concentrated on wireless controller (Access Controller, AC). The AC manages Internet protocol (Intermet Protocol, IP) address, certification and encryption etc. of user equipment, and WLAN AP is only With encryption, data forwarding, radio-frequency enabled, cannot work independently.Using control and configuration wireless access between WLAN AP and AC Point (Control And Provisioning of Wireless Access Points, abbreviation CAPWAP) specification protocol carries out Communication.Optionally, above-mentioned WLANAP can be with base station integrated setting.Because the embodiment of the present invention relates generally to WLAN AP's Data forwarding function, therefore two kinds of network architectures of above-mentioned WLAN AP can be applied.For ease of understanding and illustrate, it is related below For diagram by taking " fat " AP framework as an example, but in actual implementation, the embodiment of the present invention does not limit a kind of this framework.

As shown in Figure 1, being the network architecture schematic diagram of the embodiment of the present invention.The basic thought of the embodiment of the present invention Be: for downlink data transmission, UE converges after the downlink data for receiving the transmission of non-cellular net radio reception device according to first Poly- instruction information judges that the data type of the downlink data is honeycomb network data or non-cellular network data, if it is honeycomb netting index According to then handling the downlink data using cellular network protocol.For transmitting uplink data, non-cellular net radio reception device is being connect After the upstream data for receiving UE transmission, judge that the data type of the upstream data is honeycomb netting index according to the second convergence instruction information According to or non-cellular network data, if it is honeycomb network data, then by the upstream data be sent to Cellular Networks radio reception device into Row processing.Using the embodiment of the present invention, UE can be in the Cellular Networks data class for receiving the transmission of non-cellular net radio reception device When the downlink data of type (deriving from the data of Cellular Networks), the downlink data is handled using cellular network protocol.Non-cellular net without Line access device can be in the upper line number for the Cellular Networks data type (i.e. the cellular network protocol layer from UE) for receiving UE transmission According to when, send it to Cellular Networks radio reception device and handled, to realize between different radio access technologies RAT Fusion ensure that the continuity transmission of business, improve service transmission quality.

In embodiments of the present invention, the Cellular Networks radio reception device is in accordance with cellular network protocol (such as 3GPP agreement) Radio reception device, such as the eNB in LTE network, the non-cellular net radio reception device is then not abide by Cellular Networks to assist The radio reception device of view, such as the AP in WLAN.

The upstream data or downlink data can be the association of some protocol layer in wireless cellular network air protocol stack It discusses data cell (protocol data unit, abbreviation PDU), the present invention does not limit.

In the following, using above-mentioned non-cellular net radio reception device as the AP in wlan network (or WIFI network), Cellular Networks For radio reception device is the eNB in LTE network, described in detail by several embodiments to inventive concept.

Embodiment one

It is the network architecture schematic diagram of the embodiment of the present invention one as shown in Fig. 2 (a) and Fig. 2 (b).In embodiment one In, LTE data are transmitted in AP collaboration；In addition, can also include for controlling AP in the network system of the embodiment of the present invention With the fusing wireless network controller (Single Radio Controller, SRC) of eNB, the SRC and eNB can be same Node (Fig. 2 (a)) is also possible to different nodes (Fig. 2 (b)).If SRC and eNB are not the same node, the embodiment of the present invention The first and second convergence instruction information in one, which can be, to be determined by SRC and is sent to eNB's；SRC can should by X2 mouthfuls First and second convergence instruction information are indicated to eNB, the first convergence instruction information are then handed down to UE respectively by eNB, by the Two convergence instruction information are handed down to AP.In the embodiment of the present invention one first and second convergence instruction information can also directly by ENB is determining and issues, and is introduced in such a way that eNB is determining and issues below.

The basic thought of embodiment one is that direct converge by first indicates that information indicates that UE comes from LTE net for what AP was sent The downlink data of network is handled using LTE protocol layer, and by second convergence instruction information indicate AP by UE send come ENB is sent to from the upstream data of the LTE protocol layer of UE to be handled.

In the following, introducing the downlink data transmission method in the embodiment one first.

As shown in figure 3, the downlink data transmission method flow chart provided for the embodiment of the present invention one, comprising the following steps:

S301:eNB sends the polymerizing power query messages for inquiring the ability information of the UE to UE.

In actual implementation, for the downlink data that AP is sent, different UE may have different processing capacities, wrap It includes: the ability (namely only supporting ability that the downlink data of AP transmission is handled using LTE protocol) of only support LTE shunting polymerization, Only support WLAN (or WIFI) business processing ability (namely only support using AP send downlink data as WLAN data hair It is sent to the ability that UE operating system is handled), while LTE being supported to shunt the ability and timesharing of polymerization and WIFI business processing The ability for supporting LTE to shunt polymerization and WIFI business processing.It, can be by existing message, such as UE energy in the embodiment of the present invention Power query messages (UE Capability Enquiry) or UE information request message (UE Information Request), hair It send in the embodiment of the present invention for inquiring the polymerizing power query messages of the polymerizing power of UE.

For S302:UE after the polymerizing power query messages for receiving eNB transmission, Xiang Suoshu eNB feeds back the ability of the UE Information, the ability information are used to indicate the energy for the downlink data that UE described in the eNB has using LTE protocol processing AP transmission Power.

In embodiment one, UE has the ability that LTE shunts polymerizing power namely UE can only support LTE to shunt polymerization, The ability that LTE can be supported to shunt polymerization and WIFI business processing simultaneously can support LTE to shunt polymerization and WIFI industry with timesharing The ability of business processing.

In actual implementation, eNB can also default all UE and have the ability for supporting LTE to shunt polymerization, at this moment, ENB does not just have to send polymerizing power query messages to UE, just reduces above-mentioned steps S301 and S302 yet.

S303:eNB determines the data type for being used to indicate downlink data after the ability information for receiving the UE feedback First convergence instruction information.

Here, since the AP data type for being sent to the downlink data of UE may be LTE data (i.e. from LTE network Streamed data), it is also possible to the WLAN data data of wlan network (derive from), therefore, it is necessary to be referred to by the first convergence Show information to indicate that UE determines the data type of received downlink data.For example convergence instruction is carried out using 0,1, wherein 0 table Show that data type is LTE data, namely indicate that UE is needed to handle received downlink data using LTE protocol, more specifically, needing The WIFI module (using the module of WIFI protocol processes WIFI data) of UE converges to the AP received the downlink data sent The respective protocol layer of LTE module (using the module of LTE protocol processing LTE data) is handled；1 indicates that data type is WLAN Data, namely indicate that UE is needed to handle the AP downlink data sent directly as WLAN data.

The first convergence instruction information is passed through wireless heterogeneous networks (Radio Resource by S304:eNB Control, RRC) reconfiguration message or broadcast message be sent to the UE.

In actual implementation, RRC reconfiguration message specifically can be RRC connection reconfiguration and set (RRC Connection Reconfiguration) message.

The downlink data for needing to be sent to UE is diverted to AP transmission by S305:eNB, which is sent to UE by AP.

In the step, the downlink data for needing to be sent to UE can be diverted to WIFI network from PDCP or rlc layer by eNB. As shown in figure 4, shunting schematic diagram for the downlink data in embodiment one.Long term evolution (Long Term Evolution, LTE) The one kind of network as Cellular Networks, its protocol layer mainly include Packet Data Convergence Protocol (Packet Data Convergence Protocol, PDCP), wireless spread-spectrum technology (Radio Link Control, RLC), media access control (Media Access Control, MAC) and physical layer (Physical Layer, PHY)；Wireless Fidelity (Wireless Fidelity, WIFI) protocol layer of network (namely wlan network) mainly includes two protocol layers of MAC and PHY.

In Fig. 4, for eNB from rlc layer streamed data to WIFI AP protocol layer, which is sent to the WIFI of UE by AP AP protocol layer.

In the specific implementation process, can the prespecified shunting mode when carrying out cooperative transmission, specifically, the shunting Mode includes shunting from PDCP layers and shunting from rlc layer.If eNB and UE can support a variety of shunting modes, eNB that can send out In the downlink data sent by identification field (traffic in such as media access control MAC head in service quality control domain identifies TID, Or the frame type in MAC header in frame control domain or the type field in MAC payload payload) value identify specific shunting Mode, for details, reference can be made to the introductions of subsequent embodiment three, and I will not elaborate.

S306:UE indicates information according to the first of the data type for being used to indicate downlink data the convergence, determines what AP was sent The data type of downlink data；After the data type for determining the downlink data is LTE data, institute is handled using LTE protocol State downlink data.

As shown in figure 4, instruction of the UE according to the first convergence instruction information, by received downlink data from the WIFI module of UE MAC protocol layer converge to the rlc protocol layer of LTE module and handled.

In the following, introducing the uplink data transmission method in the embodiment one again；

As shown in figure 5, the uplink data transmission method flow chart provided for the embodiment of the present invention one, comprising the following steps:

S501:eNB determines that the second of the data type for being used to indicate upstream data converges after needing AP to transmit LTE data Poly- instruction information；

Here, eNB can be determined when determining LTE network overload and be assisted transmission LTE data using wlan network, It may be LTE streamed data (i.e. the LTE business datum from UE) that then UE, which is sent to the data type of the upstream data of AP, can also It can be WLAN data (i.e. the WLAN business datum of UE), therefore, it is necessary to indicate that AP determination connects by the second convergence instruction information The data type of the upstream data of receipts.For example convergence instruction is carried out using 0,1, wherein 0 indicates that data type is LTE data, Namely indicate that needing AP that the upstream data received is sent to evolution base station eNB is handled, 1 indicates that data type is WLAN Data, namely indicate to need AP that received upstream data is transmitted directly to internet (internet).

S502:eNB is sent to AP by the interface between AP and eNB, by the second convergence instruction information.

Here, the interface between AP and eNB can be the z interface (interface-z) newly defined.

The upstream data for needing to be sent to eNB is diverted to AP by S503:UE.

As shown in fig. 6, shunting schematic diagram for the upstream data in embodiment one.In Fig. 6, UE will need to be sent to eNB's Upstream data is diverted to the MAC layer in the protocol layer of the WIFI module of UE from the rlc layer in the protocol layer of the LTE module of UE, then AP is sent to from the protocol layer of the WIFI module of UE.

If eNB and UE can support a variety of shunting modes, UE that can pass through upstream data in the upstream data of transmission In identification field (in such as media access control MAC head in service quality control domain traffic mark TID or MAC header in frame control The type field in frame type or MAC payload payload in domain) value identify specific shunting mode, for details, reference can be made to The introduction of subsequent embodiment three, I will not elaborate.

S504:AP indicates information according to the second of the data type for being used to indicate upstream data the convergence, determines what UE was sent The data type of upstream data sends the upstream data after the data type for determining the upstream data is LTE data It is handled to evolution base station eNB.

As shown in fig. 6, AP indicates information after the upstream data for receiving UE transmission, according to the second convergence, by the uplink The rlc protocol layer that data converge to LTE eNB is handled.

In specific implementation, if LTE data are transmitted in AP collaboration, transmission WLAN data is not supported, then UE is being received After the downlink data sent to the AP, the downlink can be handled using LTE protocol directly using the downlink data as LTE data Data, also will the AP send downlink data converged to from the protocol layer of the WIFI module of UE UE LTE module protocol layer It is handled.Correspondingly, AP is directly sent the upstream data as LTE data after the upstream data for receiving UE transmission It is handled to the respective protocol layer of eNB.

Embodiment two

It is the network architecture schematic diagram of the embodiment of the present invention two as shown in Fig. 7 (a) and Fig. 7 (b).In embodiment two In, AP and eNB co-sited or non-co-sited, the AP LTE data that both collaboration transmission shunts also support individually transmission WLAN number According to.The carry out LTE that the UE that the eNB is serviced has shunts convergence, and (i.e. UE WIFI module conveys the downlink data received from AP Protocol layer to UE LTE module handled or UE LTE module by LTE data distribution to WIFI module send), some into The transmission of row WIFI business；In addition, can also include SRC in the network system of the embodiment of the present invention, the SRC and eNB can be The same node (Fig. 7 (a)), is also possible to different nodes (Fig. 7 (b)).When SRC and eNB are different node, the present invention The first and second convergence instruction information in embodiment two, which can be, is determined by SRC and is sent to eNB, then respectively will by eNB First convergence instruction information is handed down to UE, and the second convergence instruction information is handed down to AP.The first He in the embodiment of the present invention one Second convergence instruction information directly can also determine by eNB and be issued, below be just situated between by eNB determination and in a manner of issuing It continues.

The basic thought of embodiment two is to be carried the corresponding relationship of UE mark and data type by eNB to refer in the second convergence Show that notice identifies according to the UE of the corresponding relationship and the UE of currently transmitted upstream data to AP, AP and determines line number on this in information According to data type, performed corresponding processing based on determining data type.

Downlink data transmission is introduced first；As shown in figure 8, shunting schematic diagram for the downlink data in embodiment two.For The WIFI module of the current UE (UE2 in such as Fig. 8) for only carrying out the transmission of WIFI business, UE are in the downlink data for receiving AP transmission Afterwards, UE operating system is directly transported to be handled.The UE of polymerization is shunted (in such as Fig. 8 for the current LTE that only carries out UE1), the method that can be introduced according to above-described embodiment one is LTE data in the data type for receiving indicating downlink data After first convergence instruction information, the downlink data is handled using LTE protocol, is no longer described in detail in the present embodiment two.

In the following, introducing the uplink data transmission method in embodiment two, implementation steps and above-described embodiment one are repeated Place repeats no more；

As shown in figure 9, for the uplink data transmission method flow chart in the embodiment of the present invention two, comprising:

S901:eNB determines that the second of the data type for being used to indicate upstream data converges after needing AP to transmit LTE data Poly- instruction information；The second convergence instruction information includes the corresponding relationship of UE mark and data type in upstream data.

Due in the embodiment two difference UE be sent to the upstream data of AP data type it is different, can be the The different corresponding data types of UE mark institute is indicated in two convergence instruction information.For example, the corresponding convergence instruction 0,0 of UE1 Mark data type is LTE data (i.e. the UE1 upstream data sent is sent to eNB by instruction AP), and the corresponding convergence of UE2 indicates 1, 1 mark data type is WLAN data (the UE2 upstream data sent is transmitted directly to Internet by instruction AP).

UE mark in the present embodiment two can be the MAC Address or cell temporary identifier (such as cell-radio network of UE Temporary identifier C-RNTI).

S902:eNB is sent to AP by the interface between AP and eNB, by the second convergence instruction information.

The upstream data for needing to be sent to eNB is diverted to AP transmission by S903:UE1.

As shown in Figure 10, schematic diagram is shunted for the upstream data in embodiment two.UE1 will need to be sent to the LTE's of eNB Upstream data is diverted to the protocol layer transmission of WIFI module from the protocol layer of LTE module, and when upstream data has arrived AP, AP is data It is sent to eNB, the upstream data of WLAN is sent to AP by the WIFI module of UE2, and AP directly gives data internet progress Processing.In the step, if eNB and UE1 can support a variety of shunting modes, UE1 that can pass through in the upstream data of transmission Identification field is (in the traffic mark TID or MAC header in such as media access control MAC head in service quality control domain in frame control domain Frame type or MAC payload payload in type field) value identify specific shunting mode, for details, reference can be made to subsequent The introduction of embodiment three, I will not elaborate.

S904:AP is according to the second of the data type for being used to indicate upstream data the convergence instruction information and the UE1 UE mark, determines the data type for the upstream data that UE1 is sent, and is LTE data in the data type for determining the upstream data Afterwards, the upstream data evolution base station eNB is sent to handle.

In the step, AP is indicated according to the corresponding convergence of UE mark different in the second convergence instruction information, and UE1 is sent out The protocol layer that the upstream data sent converges to LTE eNB is handled, and the UE2 upstream data sent is sent directly to Internet。

Embodiment three

It is a kind of network architecture schematic diagram of the embodiment of the present invention three as shown in Figure 11 (a) and Figure 11 (b).Wherein, Both LTE data are transmitted in collaboration to the AP, also support only to transmit WLAN data.UE under AP covering can simultaneously or timesharing carries out LTE shunts polymerization and the transmission of WIFI business；In addition, can also include for controlling in the network system of the embodiment of the present invention The SRC of AP and eNB processed, the SRC and eNB can be the same node (Figure 11 (a)), be also possible to different node (Figure 11 (b)).The value of identification field and the corresponding relationship of data type, which can be, in the embodiment of the present invention three is determined by SRC and is sent to Then the corresponding relationship is handed down to UE and AP respectively by eNB by eNB.The corresponding relationship can also directly be determined by eNB and under Hair.In addition to this, which is also possible to by making an appointment in agreement.When the identification field in the embodiment three is traffic When identifying TID, the value of TID corresponding to eNB, which can also be by AP, to be indicated.It will do it and illustrate below.

The basic thought of embodiment three is by the identification field in transmission data come mark data type, the identification field and class The corresponding relationship of type can be indicated by the first convergence instruction information and the second convergence instruction information.

In the following, introducing the downlink data transmission method in the embodiment three first.

As shown in figure 12, the downlink data transmission method flow chart provided for the embodiment of the present invention three, comprising the following steps:

S1201:eNB sends the polymerizing power query messages for inquiring the ability information of the UE to UE.

For S1202:UE after the polymerizing power query messages for receiving eNB transmission, Xiang Suoshu eNB feeds back the ability of the UE Information, the ability information are used to indicate the energy for the downlink data that UE described in the eNB has using LTE protocol processing AP transmission Power.

The downlink data for needing to be sent to UE is diverted to AP by S1203:eNB, which is sent to UE by AP.

As shown in figure 13, schematic diagram is shunted for the downlink data in embodiment three.ENB and AP sends lower line number to UE respectively According to the downlink data for needing to be sent to UE is diverted to AP from rlc layer by eNB, and the downlink data is sent to UE by AP.If eNB It can support a variety of shunting modes, then the eNB can be corresponding with identification field according to shunting mode in the first convergence instruction information Relationship, the carrying of identification field corresponding to the shunting mode by use are sent to AP in downlink data.Embodiment about identification field The description of form step as described below.

S1204:UE is according to the value of identification field in downlink data and the corresponding relationship of data type and received downlink The value of identification field in data determines the data type for the downlink data that AP is sent；In the data class for determining the downlink data Type be LTE data after, handle the downlink data using LTE protocol；The identification field is media access control (Media Access Control, MAC) traffic in head in service quality control domain identifies (Traffic identifier, TID), or Frame type in MAC header in frame control domain.

In the step, eNB is LTE data by into the downlink data that UE is sent, identification field value is mark data type Value.Wherein, identification field can have following several forms:

1) identification field is the TID in 802.11 frames.The TID is located at the service quality control domain (Qos in MAC header control field).For example, TID6 mark data type can be used for LTE data, namely indicate that UE is needed to assist using LTE The downlink data that view processing AP is sent；TID7 mark data type can be used for WLAN data, namely indicate that UE can be by AP The downlink data of transmission is handled directly as WIFI data.

In the specific implementation process, the corresponding relationship of the value and data type of TID can be determined and be issued by eNB, than Such as, eNB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to UE.Alternatively, the value and data type of TID Corresponding relationship can also determine that also, AP can pass through the interface between AP and eNB, such as z interface by AP (interface-z) notice is to eNB.Specifically, AP is after receiving eNB and being sent to the downlink data of UE, from already present TID A TID value (can be randomly selected) is selected for the downlink data in value, and (interface-z is arranged by z interface Setup), the signaling messages such as z interface resetting (interface-z reset) are sent to eNB, and eNB determines the TID's that AP is sent Data type corresponding to value is LTE data, and is indicated to UE by RRC reconfiguration message or broadcast message.The AP may be used also The value of used TID is notified to eNB when itself being sent downlink data to UE.Alternatively, the value and data type of TID Corresponding relationship be also possible to by preconfigured in agreement, AP and UE carry out data according to the preconfigured corresponding relationship of agreement Convergence.

TID can be also used for identifying specific shunting mode, here, shunting mode can in addition to for mark data type To include shunting from PDCP layers and being shunted from rlc layer.For example, it is LTE data that TID5 and TID6, which can be used for mark data type, then TID5 therein can be specifically identified from the PDCP layer of eNB and shunt, and TID6 is specifically identified from the rlc layer of eNB and shunts.

2) identification field is frame control domain (frame control field) inner frame type；Here, in frame control domain Frame type is in addition to control (control), data (data) and management (management) three types, and there are one reserved places (Reserved, type11), can be using the reserved place come designation date type.

In the specific implementation process, frame type and the corresponding relationship of data type can be determined and be issued by eNB, for example, ENB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to UE.It is also possible to by preconfigured in agreement.

The reserved place type11 of frame type has 16 kinds of subtype (subtype) values 0000~1111, can be using difference Subtype value identify shunting mode, such as can using subtype0000 mark from the PDCP layer of eNB shunt, use Subtype1111 mark is shunted from the rlc layer of eNB.

3) identification field is the type field (or type protocol number) in MAC payload；Here it is possible to by PDCP or RLC is added in the type field of 802.11 frame MAC payload, is for identifying the corresponding data type of downlink data LTE data.If eNB supports a variety of shunting modes, PDCP can be added simultaneously in the type field of 802.11 frame MAC payload And RLC only adds PDCP or RLC if only supporting a kind of shunting mode in the type field of 802.11 frame MAC payload.

Concrete meaning that in the specific implementation process, the type field in MAC payload is identified (namely type field and number According to type or the corresponding relationship of shunting mode) eNB, AP and UE can be it is known, such as can be in the protocol in advance It is defined.

As shown in figure 13, the WIFI module of UE determines in the downlink data after the downlink data for receiving AP transmission The data type that identification field is identified, after determining that data type is WLAN data, directly using the downlink data as WLAN number According to being handled, that is, the operating system for giving UE is handled, and after determining that data type is LTE data, then gives the LTE of UE Module handles the downlink data using LTE protocol.

In the following, introducing the uplink data transmission method in the embodiment three again.

As shown in figure 14, the uplink data transmission method flow chart provided for the embodiment of the present invention three, comprising the following steps:

The upstream data for needing to be sent to eNB is diverted to AP transmission by S1401:UE.

As shown in figure 15, schematic diagram is shunted for the upstream data in embodiment three.The UE line number in AP and eNB transmission respectively According to, wherein it is sent to after the upstream data of eNB is transmitted to AP from the WIFI module that the LTE module of UE is diverted to UE, then sent out by AP It send to eNB.If UE and eNB supports that a variety of shunting modes, the UE can be according to indicated in the first convergence instruction information Shunting mode and upstream data in identification field corresponding relationship, identification field corresponding to the shunting mode by use carries upper AP is sent in row data.The description of avatar step as described below about identification field.

S1402:AP sends upper according to the value of identification field in upstream data and the corresponding relationship of data type and UE The value of identification field in row data, determines the data type of the upstream data, is determining that the data type of the upstream data is After LTE data, the upstream data is sent to eNB and is handled.The identification field is in service quality control domain in MAC header TID or MAC header in the frame type in frame control domain or the type field in MAC payload.

In the step, it is LTE data that the identification field value into the upstream data that AP is sent is mark data type by UE Value.Wherein, identification field can have following several forms:

1) identification field is the TID in 802.11 frames.The TID is located at the service quality control domain (Qos in MAC header control field).For example, TID6 mark data type can be used for LTE data, namely indicate that AP is needed to send UE Upstream data be sent to eNB and handled；TID7 mark data type can be used for WLAN data, namely indicate that AP can be with The UE upstream data sent is sent to internet directly as WLAN data.

In the specific implementation process, the corresponding relationship of the value and data type of TID can be determined and be issued by eNB, than Such as, eNB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to AP.Alternatively, the value and data type of TID Corresponding relationship can also be determined and be notified to eNB by AP.Specifically, AP is after receiving eNB and being sent to the downlink data of UE, A TID value (can be randomly selected) is selected for the downlink data from already present TID value, and is sent to eNB, meanwhile, AP The data type for determining the upstream data that the corresponding UE of the value of the TID selected is sent also is eNB.Alternatively, the value and number of TID Be also possible to according to the corresponding relationship of type by preconfigured in agreement, AP and UE according to the preconfigured corresponding relationship of agreement into The convergence of row data.

TID can be also used for identifying specific shunting mode, here, shunting mode can in addition to for mark data type To include shunting from PDCP layers and being shunted from rlc layer.For example, it is LTE data that TID5 and TID6, which can be used for mark data type, then TID5 therein can be specifically identified from the PDCP layer of UE and shunt, and TID6 is specifically identified from the rlc layer of UE and shunts.

In the specific implementation process, frame type and the corresponding relationship of data type can be determined and be issued by eNB, for example, ENB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to AP.It is also possible to by preconfigured in agreement.

The reserved place type11 of frame type has 16 kinds of subtype (subtype) values 0000~1111, can be using difference Subtype value identify shunting mode, such as can using subtype0000 mark from the PDCP layer of UE shunt, use Subtype1111 mark is shunted from the rlc layer of UE.

3) identification field is the type field (or type protocol number) in MAC payload；Here it is possible to by PDCP or RLC is added in the type field of 802.11 frame MAC payload, is for identifying the corresponding data type of upstream data LTE data.If eNB supports a variety of shunting modes, PDCP can be added simultaneously in the type field of 802.11 frame MAC payload And RLC only adds PDCP or RLC if only supporting a kind of shunting mode in the type field of 802.11 frame MAC payload.

As shown in figure 15, AP determines that the identification field in the upstream data is marked after the upstream data for receiving UE transmission The upstream data is directly sent to internet, in determination after determining that data type is WLAN data by the data type of knowledge Data type be LTE data after, which is sent to eNB and is handled.

It as shown in figure 16, is another network architecture schematic diagram of the embodiment of the present invention three.Based on embodiment three The cooperation between Cellular Networks and non-cellular net not only may be implemented in identification means, can also realize the conjunction between different Cellular Networks Make, and realizes the cooperation between a variety of Cellular Networks and non-cellular net.For example, Figure 16 is related to eNB in LTE and General Mobile is logical Two kinds of base station (NodeB, NB) in letter system (Universal Mobile Telecommunications System, UMTS) Cellular Networks radio reception device, AP and eNB, NB co-sited, both LTE data are transmitted in collaboration to AP, and also UMTS is transmitted in collaboration Network data.At this moment, different Cellular Networks can be distinguished by identification field in transmission data, be embodied and pass through mark Data type is distinguished in domain and the process of shunting mode is similar, and I will not elaborate.

Example IV

It as shown in figure 17, is a kind of network architecture schematic diagram of the embodiment of the present invention four.Wherein, AP ' and AP covers UE is covered, LTE data are transmitted in AP collaboration, and WLAN data is transmitted in AP ' support.UE can simultaneously or timesharing carries out LTE shunting and gathers It closes and WLAN data is transmitted.In example IV, AP ' is different from the data type of AP to the UE downlink data sent, AP ' transmission Data type to the downlink data of UE is WLAN data itself, and the data type that AP is sent to the downlink data of UE is LTE number According to.

The basic thought of example IV is basic service set identification (the Basic Service Set by AP Identity, BSSID) identify the data type of the downlink data for being sent to UE.

In the following, introducing the downlink data transmission method in the example IV first.

As shown in figure 18, the downlink data transmission method flow chart provided for the embodiment of the present invention four, comprising the following steps:

S1801:eNB sends the polymerizing power query messages for inquiring the ability information of the UE to UE.

For S1802:UE after the polymerizing power query messages for receiving eNB transmission, Xiang Suoshu eNB feeds back the ability of the UE Information, the ability information are used to indicate the energy for the downlink data that UE described in the eNB has using LTE protocol processing AP transmission Power.

S1803:eNB determines BSSID and data type in downlink data after the ability information for receiving the UE feedback Corresponding relationship.

BSSID in downlink data and the corresponding relationship of data type are passed through RRC reconfiguration message or broadcast by S1804:eNB Message is sent to the UE.

The downlink data for needing to be sent to UE is diverted to AP by S1805:eNB, which is sent to UE by AP.

As shown in figure 19, schematic diagram is shunted for the downlink data in example IV.ENB is from rlc layer streamed data to AP The streamed data is sent to the WIFI protocol layer of UE by WIFI protocol layer, AP.The AP ' covered altogether with AP sends out WIFI network data It send to the WIFI protocol layer of UE.

S1806:UE is according to the corresponding relationship of BSSID in downlink data and data type and the AP for sending downlink data BSSID determines the data type for the downlink data that AP is sent；After the data type for determining the downlink data is LTE data, The downlink data is handled using LTE protocol layer.

As shown in figure 19, UE determines the data for the downlink data that AP is sent according to the corresponding relationship of BSSID and data type Type is LTE data, then the downlink data of AP transmission is converged to the agreement of UE LTE module from the protocol layer of UE WIFI module Layer is handled, and is determined that the data type of the downlink data of AP ' transmission is WLAN data, is then handed over the downlink data of AP ' transmission It is handled to UE operating system.

In the following, introducing the uplink data transmission method in the example IV again.

As shown in figure 20, schematic diagram is shunted for the upstream data in example IV.For upper in the embodiment of the present invention four The upstream data generated from WLAN protocol layer is sent to AP ' by row data transmission method, UE, and AP ' directly sends out the upstream data It is sent to internet.The upstream data generated from LTE protocol layer is branched to AP by UE, and AP converges to received upstream data The LTE protocol layer of eNB；Here, if all LTE data are transmitted in collaboration to AP in All Time, which can received To after upstream data, the data type for just defaulting the upstream data is LTE data, and the upstream data is sent to eNB.The AP It can also determine and receive according to the uplink data transmission method in embodiment one, the second convergence instruction information sent according to eNB Upstream data data type, which is not described herein again.

Embodiment five

It as shown in figure 21, is a kind of network architecture schematic diagram of the embodiment of the present invention five.Wherein, AP ' and AP covers UE is covered, both LTE data are transmitted in collaboration to AP, also support that individually WLAN data is individually transmitted in transmission WLAN data, Ap ' support. UE can simultaneously or timesharing carries out LTE and shunts polymerization and WLAN data transmission.

The basic thought of embodiment five is by the combination of identification field in downlink data and BSSID come mark data type, The combination of the identification field and BSSID and the corresponding relationship of data type can be indicated by the first convergence instruction information.

In the following, introducing the downlink data transmission method in the embodiment five first.

As shown in figure 22, the downlink data transmission method flow chart provided for the embodiment of the present invention five, comprising the following steps:

S2201:eNB sends the polymerizing power query messages for inquiring the ability information of UE to UE.

For S2202:UE after the polymerizing power query messages for receiving eNB transmission, Xiang Suoshu eNB feeds back the ability of the UE Information, the ability information, which is used to indicate UE described in the eNB, to be had using the LTE protocol layer processing AP downlink data sent Ability.

The downlink data for needing to be sent to UE is diverted to AP by S2203:eNB, which is sent to UE by AP.

As shown in figure 23, schematic diagram is shunted for the downlink data in embodiment five.Under eNB, AP and AP ' are sent to UE respectively The downlink data for needing to be sent to UE is diverted to AP from rlc layer by row data, eNB, and the downlink data is sent to UE by AP.

S2204:UE according to the corresponding relationship of the value of identification field in downlink data and the combination of BSSID and data type, And in received downlink data the value of identification field and AP BSSID, determine the AP send downlink data data type； After the data type for determining the downlink data is LTE data, the downlink data is handled using LTE protocol；The mark Domain is in frame type or MAC payload in TID or MAC header in MAC header in service quality control domain in frame control domain Type field.

In the step, the WIFI module of UE is true according to the BSSID of the AP first after the downlink data for receiving AP transmission Whether LTE data are transmitted in collaboration to the fixed AP, after determining AP collaboration transmission LTE data, then determine the lower line number Whether corresponding according to the value of middle identification field is LTE data, namely whether the downlink data for determining that the AP is sent derives from eNB, After the data type that is identified of value of identification field is LTE data in determining the downlink data that the AP is sent, by the lower line number It is handled according to the protocol layer for the LTE module for converging to UE.Correspondingly, the WIFI module of UE is in the lower line number for receiving AP transmission According to rear, if determining that the AP is that LTE data are transmitted in collaboration according to BSSID, but the mark in the downlink data that sends of the AP The data type that domain is identified is WLAN data, then handles using the downlink data as WLAN data, i.e., directly give UE Operating system is handled.UE determines that the AP ' not collaboration passes after the downlink data for receiving AP ' transmission, according to BSSID Defeated LTE data, then directly handled the downlink data of the AP ' transmission as WLAN data, i.e., directly gives UE operation system System is handled.

In the embodiment, identification field can have following several forms:

1) identification field is the TID in 802.11 frames.The TID is located at the service quality control domain (Qos in MAC header control field).For example, can be using the BSSID of the AP (hereinafter referred to as collaboration AP) of collaboration transmission LTE data Combination mark data type with TID6 is LTE data, namely indicates that the downlink data from eNB for needing UE to send AP converges Gather LTE protocol layer to be handled.

In the specific implementation process, the combination of the BSSID of the value of TID and collaboration AP and the corresponding relationship of data type can To be determined by eNB and be issued, for example, eNB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to UE.Alternatively, What the value of TID and the combination of BSSID of collaboration AP and the corresponding relationship of data type can also be determined by AP, also, AP can To be notified by the interface between AP and eNB, such as z interface (interface-z) to eNB.Specifically, AP is receiving eNB After being sent to the downlink data of UE, select a TID value (can select at random for the downlink data from already present TID value Select), and pass through the signaling messages such as z interface setting (interface-z setup), z interface resetting (interface-z reset) It is sent to eNB, eNB determines that data type corresponding to the value of the TID that AP is sent and the BSSID of the AP is LTE data, And UE is indicated to by RRC reconfiguration message or broadcast message.Alternatively, combination and the number of the BSSID of the value and collaboration AP of TID Be also possible to according to the corresponding relationship of type by preconfigured in agreement, AP and UE according to the preconfigured corresponding relationship of agreement into The convergence of row data.

TID can be also used for identifying specific shunting mode, here, shunting mode can in addition to for mark data type To include being shunted from Packet Data Convergence Protocol (Packet Data Convergence Protocol, PDCP) layer and from wireless Link controls (Radio Link Control, RLC) layer and shunts.For example, TID5 and the combination of the BSSID that cooperates with AP or TID6 Can be used for mark data type with the combination for the BSSID for cooperateing with AP is LTE data, then TID5 therein and the BSSID for cooperateing with AP Combination can be specifically identified from the PDCP layer of eNB and shunt, TID6 is specifically identified the RLC from eNB with the combination for the BSSID for cooperateing with AP Layer shunts.

2) identification field is the frame type in frame control domain；Here, the frame type in frame control domain is except control (control), data (data) and management (management) three types outside, there are one reserved place (Reserved, It type11), can be using the reserved place come designation date type.

In the specific implementation process, the combination of the BSSID of frame type and the AP of collaboration transmission LTE data and data class The corresponding relationship of type can be determined and be issued by eNB, for example, eNB, which passes through RRC reconfiguration message or broadcasts the message, issues this to UE Corresponding relationship.It is also possible to by preconfigured in agreement.

As shown in figure 23, the downlink data from eNB that UE sends AP converges to LTE protocol layer and handles, by AP It is handled with the downlink data from the AP and AP ' itself of AP ' transmission as WLAN data.

In the following, introducing the uplink data transmission method in the embodiment five again.

As shown in figure 24, schematic diagram is shunted for the upstream data in embodiment five.For transmitting uplink data, UE will be from The upstream data that WIFI protocol layer generates is sent to AP or AP ', AP or AP ' and directly sends internet for the upstream data. The upstream data generated from LTE protocol layer is branched to AP by UE, and received upstream data is converged to the LTE protocol layer of eNB by AP； Here, which can be according to the value of identification field in upstream data and the corresponding relationship of data type and received upper line number The value of identification field in determines the data type of received upstream data, and specific implementation can be referring to upper in embodiment three Row data transmission method, which is not described herein again.

Embodiment six

It is the network architecture schematic diagram of the embodiment of the present invention six as shown in Figure 25 (a) and Figure 25 (b).In embodiment In six, both LTE data are transmitted in collaboration to the AP, also support individually transmission WLAN data.The progress that UE under AP covering has WLAN data transmit (such as UE1), have can simultaneously or timesharing carry out LTE shunt polymerization and WLAN data transmission (such as UE2).Separately It outside, can also include that SRC, the SRC and eNB can be same node (Figure 25 in the network system of the embodiment of the present invention (a)), it is also possible to different nodes (Figure 25 (b)).If SRC and eNB are different node, X2 can be passed through between SRC and eNB Oral sex mutual information.

The basic thought of embodiment six is to identify number by the combination of value and the UE mark of identification field in upstream data According to type, the combination of value and the UE mark of the identification field and the corresponding relationship of data type can pass through the second convergence instruction letter Breath is to indicate.

Downlink data transmission is introduced first；As shown in figure 26, schematic diagram is shunted for the downlink data in embodiment six.For The WIFI module of the current UE (UE2 in such as Figure 26) for only carrying out the transmission of WIFI business, UE are in the lower line number for receiving AP transmission According to rear, directly handled as WLAN data, i.e., directly give UE operating system and handled.For simultaneously or timesharing The UE (UE1 in such as Figure 26) that LTE shunts polymerization and WLAN data transmission is carried out, the side that can be introduced according to above-described embodiment three Method is carried according in the downlink data of the corresponding relationship and AP of the value of identification field in downlink data and data type transmission Identification field value, determine the data type of the downlink data, the data type for determining the downlink data be WLAN data Afterwards, it is handled as WLAN data, i.e., directly gives UE operating system and handled, determining that data type is LTE After data, the WIFI module of UE handles the protocol layer for the LTE module that the downlink data received converges to UE, this implementation It is no longer described in detail in example six.

The transmission of upstream data in embodiment six is introduced below；

As shown in figure 27, the uplink data transmission method flow chart provided for the embodiment of the present invention six, comprising the following steps:

The upstream data for needing to be sent to eNB is diverted to AP by S2701:UE.

As shown in figure 28, schematic diagram is shunted for the upstream data in embodiment six.UE1 sent respectively to AP WLAN data and LTE data；UE2 sends WLAN data to AP.

The corresponding relationship of combination and data type that S2702:AP is identified according to the value and UE of identification field in upstream data, And the value of identification field and the UE of the UE1 are identified in the upstream data of UE1 transmission, determine the data type of the upstream data, After the data type for determining the upstream data is LTE data, the upstream data is sent to eNB and is handled.

In the step, UE1 is LTE data by into the upstream data that AP is sent, identification field value is mark data type Value.Wherein, identification field can have following several forms:

1) identification field is the TID in 802.11 frames.The TID is located at the service quality control domain (Qos in MAC header control field).For example, the combination with TID6 can be identified using the UE for the UE for supporting LTE to shunt polymerization come mark data Type is LTE data；It can be identified using the UE for the UE for not supporting LTE to shunt polymerization and the combination of TID7 is come mark data type For WLAN data.

In the specific implementation process, the combination of the value of TID and UE mark and the corresponding relationship of data type can be by eNB It determines and issues, for example, eNB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to AP.Alternatively, TID's takes The combination of value and UE mark and the corresponding relationship of data type can also be determined by AP and be notified to eNB.Specifically, AP is being received After being sent to the downlink data of UE to eNB, select a TID value (can be random for the downlink data from already present TID value Selection), and it is sent to eNB, meanwhile, AP determines uplink corresponding to the value of the TID of selection and the combination that the UE of the UE is identified The data type of data is LTE data.Alternatively, the corresponding relationship of combination and data type that the value and UE of TID identify can also To be by preconfigured in agreement, AP and UE are according to the preconfigured corresponding relationship progress data convergence of agreement.

TID can be also used for identifying specific shunting mode, here, shunting mode can in addition to for mark data type To include shunting from PDCP layers and being shunted from rlc layer.For example, LTE is supported to shunt the combination of the UE mark and TID5 of the UE of polymerization, And supporting the UE mark of the UE of LTE shunting polymerization and the combination of TID6 to may be used to mark data type is LTE data, then TID5 therein can be specifically identified from the PDCP layer of UE and shunt, and TID6 is specifically identified from the rlc layer of UE and shunts.

In the specific implementation process, the combination of frame type and UE mark and the corresponding relationship of data type can be true by eNB Determine and issue, for example, eNB, which passes through RRC reconfiguration message or broadcasts the message, issues the corresponding relationship to AP.It is also possible to by agreement In it is preconfigured.

As shown in figure 28, AP is identified according to the UE of the UE1 first after the upstream data for receiving UE1 transmission, and judgement should Whether UE1 is that the UE for supporting LTE to shunt convergence then further judges that the identification field in upstream data is identified after determination is Data type whether be LTE data, if it is, the protocol layer that the upstream data converges to eNB is handled, if not It is that the upstream data is then sent directly to internet.AP is after the upstream data for receiving UE2 transmission, and basis should first The UE of UE2 is identified, and judges whether the UE2 is that LTE is supported to shunt the UE of convergence, and determination is not the upper line number for then sending the UE2 According to being sent directly to internet.

Embodiment seven

In the embodiment, the thought of above-described embodiment five and embodiment six can be combined and be implemented.Specifically, in downlink data When transmission, by the combination of identification field in downlink data and BSSID come mark data type, the combination of the identification field and BSSID It can be indicated by the first convergence instruction information with the corresponding relationship of data type.In transmitting uplink data, pass through uplink The combination of the value of identification field and UE mark carrys out mark data type in data, the combination of value and the UE mark of the identification field with The corresponding relationship of data type can be indicated by the second convergence instruction information.Specific implementation can be respectively referring to above-described embodiment Five and embodiment six, which is not described herein again.

Based on the same inventive concept, a kind of data biography corresponding with data transmission method is additionally provided in the embodiment of the present invention Defeated device, since the principle that the device solves the problems, such as is similar to data transmission method of the embodiment of the present invention, the reality of the device The implementation for the method for may refer to is applied, overlaps will not be repeated.

As shown in figure 29, the data transmission device structural schematic diagram provided for the embodiment of the present invention eight, comprising:

Receiving module 291, the downlink data for being sent to user equipment (UE) for receiving non-cellular net radio reception device；

Determining module 292 is determined for the first convergence instruction information according to the data type for being used to indicate downlink data The data type of the received downlink data of receiving module 291；

Processing module 293, for determining that the data type of the downlink data is honeycomb netting index in the determining module 292 According to rear, the downlink data is handled using cellular network protocol.

Optionally, the receiving module 291 is also used to:

Optionally, it is described first convergence instruction information include in downlink data the value of identification field it is corresponding with data type Relationship；The identification field is that the traffic in media access control MAC head in service quality control domain identifies frame in TID or MAC header The type field in frame type or MAC payload payload in control domain；Alternatively,

Optionally, the first convergence instruction information further include: the value of identification field and shunting mode in downlink data Corresponding relationship；The shunting mode includes shunting from PDCP layers of Packet Data Convergence Protocol and dividing from wireless spread-spectrum technology rlc layer Stream；

The processing module 293 is specifically used for:

Optionally, the receiving module 291 is also used to, in the downlink data for receiving the transmission of non-cellular net radio reception device Before, the polymerizing power query messages for the ability information for inquiring the UE that Cellular Networks radio reception device is sent are received；

Described device further include: sending module 294, for feeding back the energy of the UE to the Cellular Networks radio reception device Force information, the ability information be used to indicate UE described in the Cellular Networks radio reception device have handled using cellular network protocol The ability for the downlink data that non-cellular net radio reception device is sent.

As shown in figure 30, the data transmission device structural schematic diagram provided for the embodiment of the present invention nine, comprising:

Determining module 301, for determining for referring to after needing non-cellular net radio reception device to transmit honeycomb network data Show the first convergence instruction information of the data type of downlink data；The data type is non-cellular network data or honeycomb netting index According to；

Sending module 302, the first convergence instruction information for determining the determining module 301 are sent to the UE.

Optionally, the sending module 302 is specifically used for: by radio resource control RRC reconfiguration message or broadcast The first convergence instruction information is sent to the UE by message.

Optionally, it is described first convergence instruction information include in downlink data the value of identification field it is corresponding with data type Relationship；The identification field identifies the frame in TID or MAC header in frame control domain for the traffic in service quality control domain in MAC header Type field in type or MAC payload payload；Alternatively,

Optionally, the first convergence instruction information further include: the value of identification field and shunting mode in downlink data Corresponding relationship；The shunting mode includes shunting from PDCP layers of Packet Data Convergence Protocol and dividing from wireless spread-spectrum technology rlc layer Stream；The value of the identification field and the corresponding relationship of shunting mode determine the shunting mode of honeycomb network data for the UE, and Based on determining shunting mode, the downlink data is handled using cellular network protocol.

Optionally, described if the first convergence instruction information includes the value of TID and the corresponding relationship of data type Determining module 301 is specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, by the downlink data It is sent to the non-cellular net radio reception device, and is the lower line number receiving the non-cellular net radio reception device After value according to the TID of selection, determine that the corresponding data type of the value of the TID is honeycomb network data；Alternatively,

If described first converges the corresponding relationship of the combination for the value that instruction information includes BSSID and TID and data type, Then the determining module 301 is specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, under described Row data are sent to the non-cellular net radio reception device, and are described receiving the non-cellular net radio reception device After the value of the TID of downlink data selection, the value of the BSSID and the TID of the non-cellular net radio reception device are determined Combining corresponding data type is honeycomb network data.

Optionally, the sending module 302 is also used to, before the first convergence instruction information is sent to the UE, The polymerizing power query messages for inquiring the ability information of the UE are sent to the UE；

Described device further include: receiving module 303, for receiving the ability information of the UE feedback, the ability information Being used to indicate UE described in Cellular Networks radio reception device has using cellular network protocol processing non-cellular net radio reception device hair The ability of the downlink data sent.

As shown in figure 31, the data transmission device structural schematic diagram provided for the embodiment of the present invention ten, comprising:

Receiving module 311, for receiving the upstream data of user equipment (UE) transmission；

Determining module 312 is determined for the second convergence instruction information according to the data type for being used to indicate upstream data The data type of the received upstream data of receiving module 311；

Sending module 313, for determining that the data type of the upstream data is honeycomb netting index in the determining module 312 According to rear, Cellular Networks radio reception device is sent by the upstream data and is handled.

Optionally, the second convergence instruction information includes the corresponding relationship of UE mark and data type in upstream data； Alternatively,

Optionally, the second convergence instruction information further include: the value of identification field and shunting mode in upstream data Corresponding relationship；The shunting mode includes shunting from PDCP layers of Packet Data Convergence Protocol and dividing from wireless spread-spectrum technology rlc layer Stream；

The sending module 313 is specifically used for:

Optionally, described if the second convergence instruction information includes the value of TID and the corresponding relationship of data type Determining module 312 is also used to: after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE, under being described Row data select the value of TID, and determine the corresponding data type of value of the TID of the selection described in received upstream data For honeycomb network data；Alternatively,

If the second convergence instruction information includes the combination pass corresponding with data type of UE mark and the value of TID System, then the determining module 312 is also used to: in the downlink data for receiving Cellular Networks radio reception device and need to be sent to UE Afterwards, the value of TID is selected for the downlink data, and determines that the UE mark of the UE is selected with described in received upstream data TID value the corresponding data type of combination be honeycomb network data.

Optionally, the receiving module 311 is also used to, and before receiving the upstream data that user equipment (UE) is sent, is received The second convergence instruction information that Cellular Networks radio reception device is sent.

As shown in figure 32, the data transmission device structural schematic diagram provided for the embodiment of the present invention 11, comprising:

Determining module 321, for determining for referring to after needing non-cellular net radio reception device to transmit honeycomb network data Show the second convergence instruction information of the data type of upstream data；The data type is honeycomb network data or non-cellular netting index According to；

Sending module 322, for by the determining module 321 determine second convergence instruction information be sent to Cellular Networks without Line access device.

Optionally, the second convergence instruction information further include: the value of identification field and shunting mode in upstream data Corresponding relationship；The shunting mode includes shunting from PDCP layers of Packet Data Convergence Protocol and dividing from wireless spread-spectrum technology rlc layer Stream；The value of the identification field and the corresponding relationship of shunting mode determine Cellular Networks for the non-cellular net radio reception device The shunting mode of data, and based on determining shunting mode, by the upstream data be sent to Cellular Networks radio reception device into Row processing.

As shown in figure 33, the data transmission device structural schematic diagram provided for the embodiment of the present invention 12, comprising:

Receiver 331, the downlink data for being sent to user equipment (UE) for receiving non-cellular net radio reception device；

Processor 332 determines institute for the first convergence instruction information according to the data type for being used to indicate downlink data State the data type of the received downlink data of receiver 331；It is Cellular Networks in the data type for determining the downlink data After data, the downlink data is handled using cellular network protocol.

Optionally, the receiver 331 is also used to:

Optionally, in the second possible implementation,

The processor 332 is specifically used for:

Optionally, the receiver 331 is also used to, receive non-cellular net radio reception device send downlink data it Before, receive the polymerizing power query messages for the ability information for inquiring the UE that Cellular Networks radio reception device is sent；

Described device further include: transmitter 333, for feeding back the ability of the UE to the Cellular Networks radio reception device Information, it is non-with being handled using cellular network protocol that the ability information is used to indicate UE described in the Cellular Networks radio reception device The ability for the downlink data that Cellular Networks radio reception device is sent.

As shown in figure 34, the data transmission device structural schematic diagram provided for the embodiment of the present invention 13, comprising:

Processor 341, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate First convergence instruction information of the data type of downlink data；The data type is non-cellular network data or honeycomb network data；

Transmitter 342, the first convergence instruction information for determining the processor 341 are sent to the UE.

Optionally, the transmitter 342 is specifically used for: being disappeared by radio resource control RRC reconfiguration message or broadcast The first convergence instruction information is sent to the UE by breath.

Optionally, described if the first convergence instruction information includes the value of TID and the corresponding relationship of data type Processor 341 is specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data being sent out The non-cellular net radio reception device is given, and is the downlink data receiving the non-cellular net radio reception device After the value of the TID of selection, determine that the corresponding data type of the value of the TID is honeycomb network data；Alternatively,

If described first converges the corresponding relationship of the combination for the value that instruction information includes BSSID and TID and data type, Then the processor 341 is specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, by the downlink Data are sent to the non-cellular net radio reception device, and in the case where receiving the non-cellular net radio reception device and being described After the value of the TID of row data selection, the group of the value of the BSSID and the TID of the non-cellular net radio reception device is determined Closing corresponding data type is honeycomb network data.

Optionally, the transmitter 342 is also used to, before the first convergence instruction information is sent to the UE, to The UE sends the polymerizing power query messages for inquiring the ability information of the UE；

Described device further include: receiver 343, for receiving the ability information of the UE feedback, the ability information is used The UE described in instruction Cellular Networks radio reception device has to be sent using cellular network protocol processing non-cellular net radio reception device Downlink data ability.

As shown in figure 35, the data transmission device structural schematic diagram provided for the embodiment of the present invention 14, comprising:

Receiver 351, for receiving the upstream data of user equipment (UE) transmission；

Processor 352 determines institute for the second convergence instruction information according to the data type for being used to indicate upstream data State the data type of the received upstream data of receiver 351；

Transmitter 353, for determining that the data type of the upstream data is honeycomb network data in the processor 352 Afterwards, Cellular Networks radio reception device is sent by the upstream data to handle.

The transmitter 353 is specifically used for:

After the processor 352 determines the data type of the upstream data for honeycomb network data, according to the uplink The corresponding shunting mode of the value of identification field in data, sends the upstream data at Cellular Networks radio reception device Reason.

Optionally, described if the second convergence instruction information includes the value of TID and the corresponding relationship of data type Processor 352 is also used to: being the downlink after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE Data select the value of TID, and determine the corresponding data type of value of TID that is selected described in received upstream data for Honeycomb network data；Alternatively,

If the second convergence instruction information includes the combination pass corresponding with data type of UE mark and the value of TID System, then the processor 352 is also used to: after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE, The value of TID is selected for the downlink data, and the UE mark for determining the UE and selection described in received upstream data The corresponding data type of the combination of the value of TID is honeycomb network data.

Optionally, the receiver 351 is also used to, and before receiving the upstream data that user equipment (UE) is sent, receives bee The second convergence instruction information that nest net radio reception device is sent.

As shown in figure 36, the data transmission device structural schematic diagram provided for the embodiment of the present invention 15, comprising:

Processor 361, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate Second convergence instruction information of the data type of upstream data；The data type is honeycomb network data or non-cellular network data；

Transmitter 362, the second convergence instruction information for determining the processor 361 are sent to Cellular Networks and wirelessly connect Enter equipment.

It is apparent to those skilled in the art that for convenience and simplicity of description, only with above-mentioned each function The division progress of module can according to need and for example, in practical application by above-mentioned function distribution by different function moulds Block is completed, i.e., the internal structure of equipment is divided into different functional modules, to complete all or part of function described above Energy.The specific work process of the system of foregoing description, equipment and unit, can be with reference to corresponding in preceding method embodiment Journey, details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, device and method can be with It realizes by another way.For example, apparatus embodiments described above are merely indicative, for example, the module or The division of unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units Or component can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, institute Display or the mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, equipment or unit Indirect coupling or communication connection can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer It is each that equipment (can be personal computer, server or the network equipment etc.) or processor (processor) execute the application The all or part of the steps of embodiment the method.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic or disk Etc. the various media that can store program code.

The above, above embodiments are only described in detail to the technical solution to the application, but the above implementation The explanation of example is merely used to help understand method and its core concept of the invention, should not be construed as limiting the invention.This In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those skilled in the art, should all cover Within protection scope of the present invention.

Claims

1. a kind of data transmission method, which is characterized in that this method comprises:

The UE indicates information according to the first of the data type for being used to indicate downlink data the convergence, determines the received downlink The data type of data；

The UE the data type for determining the downlink data be honeycomb network data after, using cellular network protocol handle it is described under Row data；

The first convergence instruction information includes the corresponding relationship of the value of identification field and data type in downlink data；The mark The field of awareness is that the traffic in media access control MAC head in service quality control domain identifies in TID or MAC header in frame control domain Type field in frame type or MAC payload payload；Alternatively,

The first convergence instruction information includes pair of the combination of the value of BSSID and identification field and data type in downlink data It should be related to.

2. the method as described in claim 1, which is characterized in that the method also includes:

The UE receives Cellular Networks radio reception device and is sent by radio resource control RRC reconfiguration message or broadcast message It is described first convergence instruction information.

3. the method as described in claim 1, which is characterized in that the first convergence instruction information further include: in downlink data The value of identification field and the corresponding relationship of shunting mode；The shunting mode includes shunting from PDCP layers of Packet Data Convergence Protocol It is shunted with from wireless spread-spectrum technology rlc layer；

The UE the data type for determining the downlink data be honeycomb network data after, using cellular network protocol handle it is described under Row data, comprising:

The UE is after the data type for determining the downlink data is honeycomb network data, according to identification field in the downlink data Value corresponding to shunting mode, handle the downlink data using cellular network protocol.

4. the method as described in claims 1 to 3 is any, which is characterized in that the UE receives non-cellular net radio reception device Before the downlink data of transmission, further includes:

The UE receives the polymerizing power inquiry for the ability information for inquiring the UE that Cellular Networks radio reception device is sent Message；

The UE feeds back the ability information of itself to the Cellular Networks radio reception device, and the ability information is used to indicate described UE described in Cellular Networks radio reception device has the downlink sent using cellular network protocol processing non-cellular net radio reception device The ability of data.

5. a kind of data transmission method, which is characterized in that this method comprises:

After needing non-cellular net radio reception device to transmit honeycomb network data, determination is used to indicate Cellular Networks radio reception device First convergence instruction information of the data type of downlink data；The data type is non-cellular network data or honeycomb network data；

The first convergence instruction information is sent to UE by the Cellular Networks radio reception device；

The first convergence instruction information includes the corresponding relationship of the value of identification field and data type in downlink data；The mark The field of awareness identifies the frame type or MAC in TID or MAC header in frame control domain for the traffic in service quality control domain in MAC header Type field in payload payload；Alternatively,

6. method as claimed in claim 5, which is characterized in that the Cellular Networks radio reception device refers to first convergence Show that information is sent to the UE, comprising:

The Cellular Networks radio reception device is by radio resource control RRC reconfiguration message or broadcast message, by described the One convergence instruction information is sent to the UE.

7. method as claimed in claim 5, which is characterized in that the first convergence instruction information further include: in downlink data The value of identification field and the corresponding relationship of shunting mode；The shunting mode includes shunting from PDCP layers of Packet Data Convergence Protocol It is shunted with from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relationship of shunting mode are determined for the UE The shunting mode of honeycomb network data, and based on determining shunting mode, the downlink data is handled using cellular network protocol.

8. method as claimed in claim 5, which is characterized in that if it is described first convergence instruction information include TID value with The corresponding relationship of data type, then the Cellular Networks radio reception device is needing non-cellular net radio reception device to transmit honeycomb After network data, determine that the first convergence indicates information, comprising: the Cellular Networks radio reception device wirelessly connects needing non-cellular net When entering equipment transmission honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and receiving To after the value for the TID that the non-cellular net radio reception device is downlink data selection, determine that the value of the TID is corresponding Data type be honeycomb network data；Alternatively,

If the first convergence instruction information includes the combination of the value of BSSID and TID and the corresponding relationship of data type, institute Cellular Networks radio reception device is stated after needing non-cellular net radio reception device to transmit honeycomb network data, determines that the first convergence refers to Show information, comprising: the Cellular Networks radio reception device need non-cellular net radio reception device transmit honeycomb network data when, The downlink data is sent to the non-cellular net radio reception device, and is set receiving the non-cellular net wireless access After the value of the standby TID for downlink data selection, the BSSID and the TID of the non-cellular net radio reception device are determined Value the corresponding data type of combination be honeycomb network data.

9. the method as described in claim 5~8 is any, which is characterized in that the Cellular Networks radio reception device is by described One convergence instruction information is sent to before the UE, further includes:

The Cellular Networks radio reception device sends the polymerizing power inquiry of the ability information for inquiring the UE to the UE Message；

The Cellular Networks radio reception device receives the ability information of the UE feedback, and the ability information is used to indicate Cellular Networks UE described in radio reception device has the downlink data sent using cellular network protocol processing non-cellular net radio reception device Ability.

10. a kind of data transmission method, which is characterized in that this method comprises:

The non-cellular net radio reception device indicates information according to the second of the data type for being used to indicate upstream data the convergence, Determine the data type of the upstream data；

After the data type for determining the upstream data is honeycomb network data, it is wireless that Cellular Networks are sent by the upstream data Access device is handled；

The second convergence instruction information includes the corresponding relationship of the value of identification field and data type in upstream data；The mark The field of awareness is that the traffic in media access control MAC head in service quality control domain identifies in TID or MAC header in frame control domain Type field in frame type or MAC payload payload；Alternatively,

The second convergence instruction information includes the combination and data type of the value of identification field and UE mark in upstream data Corresponding relationship.

11. method as claimed in claim 10, which is characterized in that the second convergence instruction information further include: upstream data The value of middle identification field and the corresponding relationship of shunting mode；The shunting mode includes from PDCP layers of Packet Data Convergence Protocol points It flows and is shunted from wireless spread-spectrum technology rlc layer；

The non-cellular net radio reception device, will be described after the data type for determining the upstream data is honeycomb network data Upstream data is sent to Cellular Networks radio reception device and is handled, comprising:

The non-cellular net radio reception device is after the data type for determining the upstream data is honeycomb network data, according to institute The corresponding shunting mode of value for stating identification field in upstream data, sends Cellular Networks radio reception device for the upstream data It is handled.

12. method as claimed in claim 10, which is characterized in that if the second convergence instruction information includes the value of TID With the corresponding relationship of data type, then the method also includes: the non-cellular net radio reception device is receiving Cellular Networks After radio reception device needs to be sent to the downlink data of UE, the value of TID is selected for the downlink data, and determination is receiving Upstream data described in the corresponding data type of value of TID that selects be honeycomb network data；Alternatively,

If it is described second convergence instruction information include UE mark and TID value combination and data type corresponding relationship, The method also includes: the non-cellular net radio reception devices to need to be sent to UE receiving Cellular Networks radio reception device Downlink data after, the value of TID is selected for the downlink data, and determine the UE UE mark and received upstream data Described in the corresponding data type of combination of the value of TID that selects be honeycomb network data.

13. the method as described in claim 10~12 is any, which is characterized in that the non-cellular net radio reception device receives Before the upstream data that user equipment (UE) is sent, further includes:

The non-cellular net radio reception device receives the second convergence instruction information that Cellular Networks radio reception device is sent.

14. a kind of data transmission method, which is characterized in that this method comprises:

After needing non-cellular net radio reception device to transmit honeycomb network data, determination is used to indicate Cellular Networks radio reception device Second convergence instruction information of the data type of upstream data；The data type is honeycomb network data or non-cellular network data；

The second convergence instruction information is sent to non-cellular net radio reception device by the Cellular Networks radio reception device；

The second convergence instruction information includes the corresponding relationship of the value of identification field and data type in upstream data；The mark The field of awareness identifies the frame type or MAC in TID or MAC header in frame control domain for the traffic in service quality control domain in MAC header Type field in payload payload；Alternatively,

The second convergence instruction information includes the combination of the value of identification field and UE mark and data class in the upstream data The corresponding relationship of type.

15. method as claimed in claim 14, which is characterized in that the second convergence instruction information further include: upstream data The value of middle identification field and the corresponding relationship of shunting mode；The shunting mode includes from PDCP layers of Packet Data Convergence Protocol points It flows and is shunted from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relationship of shunting mode are used for the non-bee Nest net radio reception device determines the shunting mode of honeycomb network data, and based on determining shunting mode, by the upstream data Cellular Networks radio reception device is sent to be handled.

16. a kind of data transmission device, which is characterized in that the device includes:

Determining module connects described in determination for the first convergence instruction information according to the data type for being used to indicate downlink data Receive the data type of the received downlink data of module；

Processing module, for determining that the data type of the downlink data is use after honeycomb network data in the determining module The cellular network protocol processing downlink data；

17. device as claimed in claim 16, which is characterized in that the receiving module is also used to:

It receives Cellular Networks radio reception device and passes through radio resource control RRC reconfiguration message or the described of transmission that broadcast the message First convergence instruction information.

18. device as claimed in claim 16, which is characterized in that the first convergence instruction information further include: downlink data The value of middle identification field and the corresponding relationship of shunting mode；The shunting mode includes from PDCP layers of Packet Data Convergence Protocol points It flows and is shunted from wireless spread-spectrum technology rlc layer；

The processing module is specifically used for:

After the data type for determining the downlink data is honeycomb network data, according to the value of identification field in the downlink data Corresponding shunting mode handles the downlink data using cellular network protocol.

19. the device as described in claim 16~18 is any, which is characterized in that the receiving module is also used to, non-receiving Before the downlink data that Cellular Networks radio reception device is sent, the described for inquiring of Cellular Networks radio reception device transmission is received The polymerizing power query messages of the ability information of UE；

Described device further include: sending module, for feeding back the ability information of the UE to the Cellular Networks radio reception device, The ability information, which is used to indicate UE described in the Cellular Networks radio reception device, to be had using cellular network protocol processing non-cellular The ability for the downlink data that net radio reception device is sent.

20. a kind of data transmission device, which is characterized in that the device includes:

Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate downlink First convergence instruction information of the data type of data；The data type is non-cellular network data or honeycomb network data；

Sending module, the first convergence instruction information for determining the determining module are sent to UE；

21. device as claimed in claim 20, which is characterized in that the sending module is specifically used for: passing through radio resource control The first convergence instruction information is sent to the UE by RRC reconfiguration message or broadcast message processed.

22. device as claimed in claim 20, which is characterized in that the first convergence instruction information further include: downlink data The value of middle identification field and the corresponding relationship of shunting mode；The shunting mode includes from PDCP layers of Packet Data Convergence Protocol points It flows and is shunted from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relationship of shunting mode are true for the UE Determine the shunting mode of honeycomb network data, and based on determining shunting mode, handles the downlink data using cellular network protocol.

23. device as claimed in claim 20, which is characterized in that if the first convergence instruction information includes the value of TID With the corresponding relationship of data type, then the determining module is specifically used for: non-cellular net radio reception device being needed to transmit bee When nest network data, the downlink data is sent to the non-cellular net radio reception device, and receiving the non-cellular After value of the net radio reception device for the TID of downlink data selection, determine that the corresponding data type of the value of the TID is Honeycomb network data；Alternatively,

If the first convergence instruction information includes the combination of the value of BSSID and TID and the corresponding relationship of data type, institute It states determining module to be specifically used for: when needing non-cellular net radio reception device to transmit honeycomb network data, by the downlink data It is sent to the non-cellular net radio reception device, and is the lower line number receiving the non-cellular net radio reception device After value according to the TID of selection, the combination pair of the value of the BSSID and the TID of the non-cellular net radio reception device is determined The data type answered is honeycomb network data.

24. the device as described in claim 20~23 is any, which is characterized in that the sending module is also used to, by described One convergence instruction information is sent to before the UE, and Xiang Suoshu UE sends the polymerizing power for inquiring the ability information of the UE Query messages；

Described device further include: receiving module, for receiving the ability information of the UE feedback, the ability information is used to indicate UE described in Cellular Networks radio reception device has the downlink sent using cellular network protocol processing non-cellular net radio reception device The ability of data.

25. a kind of data transmission device, which is characterized in that the device includes:

Determining module connects described in determination for the second convergence instruction information according to the data type for being used to indicate upstream data Receive the data type of the received upstream data of module；

Sending module, for determined in the determining module upstream data data type be honeycomb network data after, by institute It states upstream data and is sent to Cellular Networks radio reception device and handled；

26. device as claimed in claim 25, which is characterized in that the second convergence instruction information further include: upstream data The value of middle identification field and the corresponding relationship of shunting mode；The shunting mode includes from PDCP layers of Packet Data Convergence Protocol points It flows and is shunted from wireless spread-spectrum technology rlc layer；

The sending module is specifically used for:

After the determining module determines the data type of the upstream data for honeycomb network data, according in the upstream data The corresponding shunting mode of the value of identification field sends Cellular Networks radio reception device for the upstream data and handles.

27. device as claimed in claim 25, which is characterized in that if the second convergence instruction information includes the value of TID With the corresponding relationship of data type, then the determining module is also used to: needing to send receiving Cellular Networks radio reception device After the downlink data of UE, the value of TID is selected for the downlink data, and is determined and selected described in received upstream data TID the corresponding data type of value be honeycomb network data；Alternatively,

If it is described second convergence instruction information include UE mark and TID value combination and data type corresponding relationship, The determining module is also used to: being described after receiving Cellular Networks radio reception device and needing to be sent to the downlink data of UE Downlink data selects the value of TID, and determines the UE mark of the UE and taking for the TID of selection described in received upstream data The corresponding data type of the combination of value is honeycomb network data.

28. the device as described in claim 25~27 is any, which is characterized in that the receiving module is also used to, and is used receiving Before the upstream data that family equipment UE is sent, the second convergence instruction information that Cellular Networks radio reception device is sent is received.

29. a kind of data transmission device, which is characterized in that the device includes:

Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, determination to be used to indicate uplink Second convergence instruction information of the data type of data；The data type is honeycomb network data or non-cellular network data；

Sending module, the second convergence instruction information for determining the determining module are sent to non-cellular net wireless access and set It is standby；

30. device as claimed in claim 29, which is characterized in that the second convergence instruction information further include: upstream data The value of middle identification field and the corresponding relationship of shunting mode；The shunting mode includes from PDCP layers of Packet Data Convergence Protocol points It flows and is shunted from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relationship of shunting mode are used for the non-bee Nest net radio reception device determines the shunting mode of honeycomb network data, and based on determining shunting mode, by the upstream data Cellular Networks radio reception device is sent to be handled.