CN105557017A - Data transmission method and apparatus - Google Patents

Abstract

The present invention relates to the technical field of communications, and in particular to a data transmission method and apparatus, which are used for solving the problem that the transmission quality of service is reduced caused by the fact that continuous transmission of the service cannot be ensured after the service of a user is shunted from one radio access technology (RAT) to another RAT. The data transmission method provided comprises: receiving, by a UE, downlink data sent by a non-cellular network radio access device, and determining a data type of the received downlink data according to first convergence indication information for indicating the data type of the downlink data; and after it is determined that the data type of the downlink data is cellular network data, processing, by the UE, the downlink data by means of a cellular network protocol. Due to the fact that a UE can process downlink data by means of a cellular network protocol after receiving the downlink data which is forwarded by a non-cellular network radio access device and comes from a cellular network radio access device, different RATs are fused, continuous transmission of service is ensured, and the transmission quality of services is improved.

Description

Data transmission method and apparatus

A kind of data transmission method and device

Technical field

The present invention relates to communication technical field, more particularly to a kind of data transmission method and device.Background technology

With developing rapidly for Mobile solution, mobile data flow increases severely, and causes the Internet resources of current Cellular Networks to be increasingly difficult to meet the demand that data traffic increases.

At present, mobile operator wishes to be carried out the network traffics of bearing part Cellular Networks by means of the Internet resources of non-cellular net, and the traffic load of Cellular Networks is solved with Slow.It is to the emphasis that the cooperation between Cellular Networks and non-cellular net considers currently：When by all or part of business of user from a kind of wireless access technology

(Radio Access Technology, RAT) is diverted to another RAT.Such as, Long Term Evolution is worked as（Long Term Evolution, LTE) Network overload when, partly in network of non-radio local network

All or part of service traffics of user equipment (User Equipment, UE) in (Wireless Local Area Networks, WLAN) coverage are diverted to wlan network, and LTE network pressure is solved with Slow.Here LTE network and wlan network is respectively Cellular Networks and non-cellular net.

But, after the business of user is diverted into another RAT from a kind of RAT, due to being difficult to realize the seamless undertaking of Business Stream between two kinds of different RAT, therefore the continuity of customer service can not be ensured, so that service transmission quality is reduced.Such as, by the access point in wlan network（Access Point, AP) assist LTE network in evolution base station（Evolved Node B, eNB) sent to UE after downlink data, UE is handled the downlink data according to WLAN data, seamless undertaking can not be realized between the WLAN Business Streams after the eNB former LTE Business Streams sent and shunting, so as to influence the continuity of UE reception business.For another example, UE will need the upstream data for being sent to eNB to be diverted to AP processing, AP is handled it according to WLAN data, seamless undertaking can not be realized between the WLAN Business Streams after the UE former LTE Business Streams sent and shunting, so as to the transmission of traffic affecting continuity, so that service transmission quality is reduced. The content of the invention

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

First aspect there is provided a kind of data transmission method, including：

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

The UE converges configured information according to first of the data type for indicating downlink data, it is determined that the data type of the downlink data received；

The UE it is determined that the downlink data data type be honeycomb network data after, handle the downlink data using cellular network protocol.

With reference in a first aspect, in the first possible implementation, methods described also includes：The UE receives the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

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

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

With reference to second of possible implementation of first aspect, in the third possible implementation, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer； The UE it is determined that the downlink data data type be honeycomb network data after, handle the downlink data using cellular network protocol, including：

The UE it is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol.

With reference to first aspect, or any one possible implementation in the first to three kind of possible implementation of first aspect, in the 4th kind of possible implementation, the UE is received before the downlink data that non-cellular net radio reception device is sent, in addition to：

The UE receives the polymerizing power query messages for being used to inquire about the ability information of the UE that Cellular Networks radio reception device is sent；

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

Second aspect there is provided a kind of data transmission method, including：

Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-cellular network data or honeycomb network data；

Described first convergence configured information is sent to the UE by the Cellular Networks radio reception device.

With reference to second aspect, in the first possible implementation, the described first convergence configured information is sent to the UE by the Cellular Networks radio reception device, including：

Described first convergence configured information is sent to the UE by the Cellular Networks radio reception device by radio resource control RRC reconfiguration message or broadcast message.

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

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

The first convergence configured information includes basic service set identification BSSID and data class in downlink data The corresponding relation of type；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

With reference to second of possible implementation of second aspect, in the third possible implementation, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the UE determines honeycomb network data, and the shunting mode based on determination, and the downlink data is handled using cellular network protocol.

With reference to the second of second aspect or the third possible implementation, in the 4th kind of possible implementation, if the first convergence configured information includes the corresponding relation of TID value and data type, then the Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, the first convergence configured information is determined, including：The Cellular Networks radio reception device is when needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

If the first convergence configured information includes combination and the corresponding relation of data type of BSSID and TID value, then the Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, the first convergence configured information is determined, including：The Cellular Networks radio reception device is when needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of combination for determining the BSSID and the TID of the non-cellular net radio reception device value is honeycomb network data.

With reference to second aspect, or any one possible implementation in first to fourth kind of possible implementation of second aspect, in the 5th kind of possible implementation, the described first convergence configured information is sent to before the UE by the Cellular Networks radio reception device, in addition to：

The Cellular Networks radio reception device sends the ability information for inquiring about the UE to the UE Polymerizing power query messages；

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

The third aspect there is provided a kind of data transmission method, including：

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

The non-cellular net radio reception device determines the data type of the upstream data according to the second convergence configured information of the data type for indicating upstream data；

It is determined that the upstream data data type be honeycomb network data after, the upstream data is sent to Cellular Networks radio reception device and handled.

With reference to the third aspect, in the first possible implementation,

The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

With reference to the first possible implementation of the third aspect, in second of possible implementation, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The non-cellular net radio reception device it is determined that the upstream data data type be honeycomb network data after, the upstream data is sent to Cellular Networks radio reception device and handled, including：

The non-cellular net radio reception device it is determined that the upstream data data type be honeycomb network data after, according to the corresponding shunting mode of the value of identification field in the upstream data, by the upstream data Cellular Networks radio reception device is sent to be handled.

With reference to the first of the third aspect or second of possible implementation, in the third possible implementation, if the second convergence configured information includes the corresponding relation of TID value and data type, methods described also includes：The non-cellular net radio reception device is being received after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and determines that the TID corresponding data type of value selected described in the upstream data of reception is honeycomb network data；Or,

If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, methods described also includes：The non-cellular net radio reception device is being received after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

With reference to the third aspect, or any one possible implementation in the first to three kind of possible implementation of the third aspect, in the 4th kind of possible implementation, the non-cellular net radio reception device is received before the upstream data that user equipment (UE) is sent, in addition to：

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

Fourth aspect there is provided a kind of data transmission method, including：

Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

Described second convergence configured information is sent to Cellular Networks radio reception device by the Cellular Networks radio reception device.

With reference to fourth aspect, in the first possible implementation,

The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The value that the second convergence configured information includes identification field in upstream data is corresponding with data type Relation；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

With reference to the first possible implementation of fourth aspect, in second of possible implementation, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled.

There is provided a kind of data transmission device in terms of 5th, including：

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

Determining module, for the first convergence configured information according to the data type for being used for indicating downlink data, determines the data type for the downlink data that the receiving module is received；

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

With reference to the 5th aspect, in the first possible implementation, the receiving module is additionally operable to：Receive the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

With reference to the first possible implementation of the 5th aspect, or the 5th aspect, in second of possible implementation,

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The first convergence configured information includes basic service set identification BSSID and data class in downlink data The corresponding relation of type；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

With reference to second of possible implementation of the 5th aspect, in the third possible implementation, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The processing module specifically for：

It is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol.

With reference to the 5th aspect, or any one possible implementation in the first to three kind of possible implementation in terms of the 5th, in implementation may being starved at the 4th kind, the receiving module is additionally operable to, before the downlink data that non-cellular net radio reception device is sent is received, the polymerizing power query messages for being used to inquire about the ability information of the UE that Cellular Networks radio reception device is sent are received；

Described device also includes：Sending module, ability information for feeding back from the UE to the Cellular Networks radio reception device, the ability information is used to indicate that UE described in the Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

There is provided a kind of data transmission device in terms of 6th, including：

Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-cellular network data or honeycomb network data；

Sending module, the first convergence configured information for the determining module to be determined is sent to described

UE。

With reference to the 6th aspect, in the first possible implementation, the sending module specifically for：By radio resource control RRC reconfiguration message or broadcast message, the described first convergence configured information is sent to the UE.

It is possible at second with reference to the first possible implementation of the 6th aspect, or the 6th aspect In implementation,

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

With reference to second of possible implementation of the 6th aspect, in the third possible implementation, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the UE determines honeycomb network data, and the shunting mode based on determination, and the downlink data is handled using cellular network protocol.

With reference to second or the third possible implementation of the 6th aspect, in the 4th kind of possible implementation, if the value and the corresponding relation of data type of the first convergence configured information including TID, the determining module specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

If combination and the corresponding relation of data type of the value of the first convergence configured information including BSSID and TID, the determining module specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, it is honeycomb network data to determine that the Group of the BSSID and the TID of the non-cellular net radio reception device value closes corresponding data type.

With reference to any one in the 6th aspect, or first to fourth kind of possible implementation of the 6th aspect Possible implementation, in the 5th kind of possible implementation, the sending module is additionally operable to, and the described first convergence configured information is sent to before the UE, the polymerizing power query messages of the ability information for inquiring about the UE are sent to the UE；

Described device also includes：Receiving module, the ability information for receiving the UE feedbacks, the ability information is used to indicate that UE described in Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

There is provided a kind of data transmission device in terms of 7th, including：

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

Determining module, for the second convergence configured information according to the data type for being used to indicate upstream data, determines the data type for the upstream data that the receiving module is received；

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

With reference to the 7th aspect, in the first possible implementation, the second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

With reference to the first possible implementation of the 7th aspect, in second of possible implementation, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The sending module specifically for：

After the determining module determines the data type of the upstream data for honeycomb network data, according to the corresponding shunting mode of the value of identification field in the upstream data, the upstream data is sent to Cellular Networks Radio reception device is handled.

With reference to first or second of possible implementation of the 7th aspect, in the third possible implementation, if the second convergence configured information includes the corresponding relation of TID value and data type, the determining module is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, be the value that the downlink data selects TID, and determining that the TID selected described in the upstream data of reception the corresponding data type of value is honeycomb network data；Or,

If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, the determining module is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

With reference to the 7th aspect, or any one possible implementation in the first to three kind of possible implementation in terms of the 7th, in the 4th kind of possible implementation, the receiving module is additionally operable to, before the upstream data that user equipment (UE) is sent is received, the second convergence configured information that Cellular Networks radio reception device is sent is received.

Eighth aspect there is provided a kind of data transmission device, including：

Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

Sending module, the second convergence configured information for the determining module to be determined is sent to Cellular Networks radio reception device.

With reference to eighth aspect, in the first possible implementation,

The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or, The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

With reference to the first possible implementation of eighth aspect, in second of possible implementation, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled.

There is provided a kind of data transmission device in terms of 9th, including：

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

Processor, for the first convergence configured information according to the data type for being used for indicating downlink data, determines the data type for the downlink data that the receiver is received；It is determined that the downlink data data type be honeycomb network data after, handle the downlink data using cellular network protocol.

With reference to the 9th aspect, in the first possible implementation, the receiver is additionally operable to：Receive the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

With reference to the first possible implementation of the 9th aspect, or the 9th aspect, in second of possible implementation,

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data. With reference to second of possible implementation of the 9th aspect, in the third possible implementation, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The processor specifically for：

It is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol.

With reference to the 9th aspect, or any one possible implementation in the first to three kind of possible implementation in terms of the 9th, in implementation may being starved at the 4th kind, the receiver is additionally operable to, before the downlink data that non-cellular net radio reception device is sent is received, the polymerizing power query messages for being used to inquire about the ability information of the UE that Cellular Networks radio reception device is sent are received；

Described device also includes：Transmitter, ability information for feeding back from the UE to the Cellular Networks radio reception device, the ability information is used to indicate that UE described in the Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

There is provided a kind of data transmission device in terms of tenth, including：

Processor, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-cellular network data or honeycomb network data；

Transmitter, the first convergence configured information for the processor to be determined is sent to the UE.With reference to the tenth aspect, in the first possible implementation, the transmitter specifically for：By radio resource control RRC reconfiguration message or broadcast message, the described first convergence configured information is sent to the UE.

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

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or, The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

With reference to second of possible implementation of the tenth aspect, in the third possible implementation, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the UE determines honeycomb network data, and the shunting mode based on determination, and the downlink data is handled using cellular network protocol.

With reference to second or the third possible implementation of the tenth aspect, in the 4th kind of possible implementation, if the value and the corresponding relation of data type of the first convergence configured information including TID, the processor specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

If combination and the corresponding relation of data type of the value of the first convergence configured information including BSSID and TID, the processor specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of combination for determining the BSSID and the TID of the non-cellular net radio reception device value is honeycomb network data.

With reference to the tenth aspect, or any one possible implementation in first to fourth kind of possible implementation in terms of the tenth, in the 5th kind of possible implementation, the transmitter is additionally operable to, described first convergence configured information is sent to before the UE, the polymerizing power query messages of the ability information for inquiring about the UE are sent to the UE；

Described device also includes：Receiver, the ability information for receiving the UE feedbacks, the ability Information is used to indicate that UE described in Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

Tenth one side there is provided a kind of data transmission device, including：

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

Processor, for the second convergence configured information according to the data type for being used to indicate upstream data, determines the data type for the upstream data that the receiver is received；

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

With reference to the tenth on the one hand, in the first possible implementation, the second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

With reference to the first possible implementation of the tenth one side, in second of possible implementation, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The transmitter specifically for：

After the processor determines the data type of the upstream data for honeycomb network data, according to the corresponding shunting mode of the value of identification field in the upstream data, the upstream data is sent to Cellular Networks radio reception device and handled.

With reference to first or second of possible implementation of the tenth one side, in the third possible implementation, if the second convergence configured information includes the corresponding relation of TID value and data type, the processor is additionally operable to：Need to be sent to UE lower line number receiving Cellular Networks radio reception device It is the value that the downlink data selects TID according to rear, and determines that the TID selected described in the upstream data of reception the corresponding data type of value is honeycomb network data；Or,

If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, the processor is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

With reference to the tenth on the one hand, or the tenth one side the first to three kind of possible implementation in any one possible implementation, in the 4th kind of possible implementation, the receiver is additionally operable to, before the upstream data that user equipment (UE) is sent is received, the second convergence configured information that Cellular Networks radio reception device is sent is received.

There is provided a kind of data transmission device in terms of 12nd, including：

Processor, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

Transmitter, the second convergence configured information for the processor to be determined is sent to Cellular Networks radio reception device.

With reference to the 12nd aspect, in the first possible implementation,

The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

With reference to the first possible implementation of the 12nd aspect, in second of possible implementation, the second convergence configured information also includes：The value of identification field is corresponding with shunting mode in upstream data Relation；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled.

Using the above method or device, UE can handle the downlink data when receiving the downlink data of Cellular Networks data type of non-cellular net radio reception device transmission using cellular network protocol.Non-cellular net radio reception device can be when receiving the upstream data of Cellular Networks data type of UE transmissions, Cellular Networks radio reception device is sent it to be handled, it is achieved thereby that the fusion between different radio access technologies RAT, the continuity transmission of business is ensure that, service transmission quality is improved.Brief description of the drawings

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

Fig. 2) it is SRC and e B are same node in the embodiment of the present invention one network architecture schematic diagram；

Fig. 2 (b) is SRC and the network architecture schematic diagram that e B are 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 is provided；

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

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

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

Fig. 7 (a) is the network architecture schematic diagram that SRC and eNB is 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 the downlink data shunting schematic diagram in embodiment two；

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

Figure 10 is the upstream data shunting schematic diagram in embodiment two； Figure 11 (a) is the network architecture schematic diagram that SRC and eNB is 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 is provided；

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

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

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

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 is provided；

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

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

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 is provided；

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

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

Figure 25 (a) is the network architecture schematic diagram that SRC and eNB is 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 the downlink data shunting schematic diagram in embodiment six；

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

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

Figure 29 is the data transmission device structural representation that the embodiment of the present invention eight is provided；

Figure 30 is the data transmission device structural representation that the embodiment of the present invention nine is provided；

Figure 31 is the data transmission device structural representation that the embodiment of the present invention ten is provided； Figure 32 is the data transmission device structural representation that the embodiment of the present invention 11 is provided；Figure 33 is the data transmission device structural representation that the embodiment of the present invention 12 is provided；

Figure 34 is the data transmission device structural representation that the embodiment of the present invention 13 is provided；

Figure 35 is the data transmission device structural representation that the embodiment of the present invention 14 is provided；

Figure 36 is the data transmission device structural representation that the embodiment of the present invention 15 is provided.Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained on the premise of creative work is not made belongs to the scope of protection of the invention.In the case of reconcilable, following embodiment can be quoted mutually.

Technical scheme described in the embodiment of the present invention can be used for various communication systems, the protocol-dependent global mobile communications of such as 3GPP（GSM, Global System for Mobile communications), CDMA（CDMA, Code Division Multiple Access), time division multiple acess（TDMA, Time Division Multiple Access), WCDMA（WCDMA, Wideband Code Division Multiple Access Wireless), step point multiple access (FDMA, Frequency Division Multiple Addressing), OFDM (OFDMA, Orthogonal Frequency-Division Multiple Access), Single Carrier Frequency Division Multiple Access (SC-FDMA), GPRS（GPRS, General Packet Radio Service), Long Term Evolution（LTE, Long Term Evolution), and the non-protocol-dependent WLANs of 3 GPP（Wireless Local Area Networks, WLAN ).Another sunset is foretold, character "/" in the embodiment of the present invention, typically represent forward-backward correlation object be it is a kind of " or " relation.

There are two kinds of network architectures in the WLAN AP in the embodiment of the present invention：Manage independently framework and centralized management framework.Autonomous management framework is also known as " fat " AP frameworks, WLAN AP are responsible for task, autonomous control WLANAP configuration and the radio functions such as user equipment access, user equipment disconnection, purview certification, security strategy implementation, data forwarding, data encryption, network management.Centralized management framework is also known as " thin " AP Framework, administrative power is generally concentrated at wireless controller（Access Controller, AC) on.The AC manages the Internet protocol of user equipment（Intermet Protocol, IP) address, certification and encryption etc., WLAN AP only have encryption, data forwarding, radio-frequency enabled, it is impossible to work independently.Between WLAN AP and AC using control and it is western oneself put WAP (Control And Provisioning of Wireless Access Points, abbreviation CAPWAP) specification protocol and communicated.Optionally, above-mentioned WLANAP can be with base station integrated setting.Because the embodiment of the present invention relates generally to WLAN AP data forwarding function, therefore above-mentioned WLAN AP two Zhong Wang Network frameworks can be applied.For ease of understanding and illustrating, following relevant indicators with " it is fat, exemplified by AP frameworks, but actually implement in, the embodiment of the present invention does not limit a kind of this framework.

It is the network architecture schematic diagram of the embodiment of the present invention as shown in Fig. 1.The basic thought of the embodiment of the present invention is：For downlink data transmission, UE is after the downlink data of non-cellular net radio reception device transmission is received, judge that the data type of the downlink data is honeycomb network data or non-cellular network data according to the first convergence configured information, if honeycomb network data, then the downlink data is handled using cellular network protocol.For transmitting uplink data, non-cellular net radio reception device is after the upstream data of UE transmissions is received, judge that the data type of the upstream data is honeycomb network data or non-cellular network data according to the second convergence configured information, if honeycomb network data, then the upstream data is sent to Cellular Networks radio reception device and handled.Using the embodiment of the present invention, UE can receive the Cellular Networks data type of non-cellular net radio reception device transmission（Derive from the data of Cellular Networks）Downlink data when, handle the downlink data using cellular network protocol.Non-cellular net radio reception device can receive the Cellular Networks data type of UE transmissions（I.e. from UE cellular network protocol layer) upstream data when, Cellular Networks radio reception device is sent it to be handled, it is achieved thereby that the fusion between different radio access technologies AT, it is ensured that the continuity transmission of business, service transmission quality is improved.

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

Described upstream data or downlink data can be the protocol Data Units of some protocol layer in wireless cellular network air protocol stack（Protocol data unit, abbreviation PDU), the present invention is not limited. Below, using above-mentioned non-cellular net radio reception device as wlan network（Or WIFI network) in AP, Cellular Networks radio reception device be LTE network in eNB exemplified by, inventive concept is described in detail by several embodiments.

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, AP collaborations transmission LTE data；In addition, in the network system of the embodiment of the present invention, the fusing wireless network controller for being used to control AP and eNB can also be included（Single Radio Controller, SRC), the SRC and eNB can be same node（Fig. 2 (a)), can also be different nodes（Fig. 2 (b)).If SRC and eNB is not that the first and second convergence configured informations in same node, the embodiment of the present invention one can be determined by SRC and be sent to eNB；SRC can by X2 mouthfuls by this first and second convergence configured information be indicated to eNB, then by eNB respectively by first convergence configured information be handed down to UE, by second convergence configured information be handed down to AP.The first and second convergence configured informations in the embodiment of the present invention one directly can also be determined and issued by e B, be introduced below in the way of eNB is determined and is issued.

The basic thought of embodiment one is directly to indicate that the downlink data from LTE network that UE sends AP is handled using LTE protocol layer by the first convergence configured information, and indicates that the upstream data of the UE layers of the LTE protocol from UE sent is sent to eNB processing by AP by the second convergence configured information.

Below, the downlink data transmission method in the embodiment one is introduced first.

As shown in Fig. 3, it is the downlink data transmission method flow chart that the embodiment of the present invention one is provided, comprises the following steps：

S301：ENB sends the polymerizing power query messages of the ability information for inquiring about the UE to UE.In actually implementing, the downlink data sent for AP, different UE may have different disposal abilities, including：Only support the ability of LTE shunting polymerizations（Namely only support to handle the ability for the downlink data that AP is sent using LTE protocol）, only support WLAN (or WIFI) business processing ability（Namely only support the downlink data for sending AP as WLAN data and be sent to the ability that UE operating systems are handled）, while supporting the ability of LTE shuntings polymerization and WIFI business processings, and timesharing to support LTE Shunting polymerization and the ability of WIFI business processings.In the embodiment of the present invention, existing message, such as UE capability query messages can be passed through（UE Capability Enquiry) or UE information request messages（UE Information Request), sending is used for the polymerizing power query messages for inquiring about UE polymerizing power in the embodiment of the present invention.

S302:UE feeds back the ability information of the UE to the eNB after the polymerizing power query messages of eNB transmissions are received, and the ability information is used for the ability for indicating that UE described in the eNB has using the LTE protocol processes AP downlink datas sent.

In embodiment one, UE possesses LTE shunting polymerizing powers, namely UE can only support the ability of LTE shunting polymerizations, the ability of LTE shuntings polymerization and WIFI business processings can also be supported simultaneously, and the ability of LTE shuntings polymerization and WIFI business processings can be supported with timesharing.

In actually implementing, eNB can also give tacit consent to all UE and possess the ability for supporting LTE shunting polymerizations, at this moment, and eNB just without sending polymerizing power query messages to UE, also just reduces above-mentioned steps S301 and S302.

S303:ENB is after the ability information of the UE feedbacks is received, it is determined that the first convergence configured information of the data type for indicating downlink data.

Here, because the AP data types for being sent to UE downlink data are probably LTE data（Derive from the streamed data of LTE network）, it is also possible to WLA data are (i.e. from the data of wlan network）, accordingly, it would be desirable to the data type of the downlink data received by the first convergence configured information to indicate UE to determine.Convergence instruction such as is carried out using 0,1, wherein 0 represents that data type is LTE data, namely represents to need UE to handle the downlink data received using LTE protocol, more specifically, it is necessary to UE WIFI module（Use the module of WIFI protocol processes WIFI data) AP received the downlink datas sent are converged into LTE module（The module of LTE data is handled using LTE protocol）Respective protocol layer handled；1 represents that data type is WLAN data, namely represents to need UE to be handled the AP downlink datas sent directly as WLAN data.

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

In actually implementing, RRC reconfiguration messages can be specifically that RRC connections are reconfigured（RRC Connection Reconfiguration) disappear ' breath-.

S305：ENB will need the downlink data for being sent to UE to be diverted to AP transmission, and the downlink data is sent to UE by AP.

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

In Fig. 4, eNB is from rlc layer streamed data to WIFI AP protocol layers, and AP sends the streamed data to UE WIFI AP protocol layers.

, can be with the prespecified shunting mode when carrying out cooperative transmission in specific implementation process, specifically, the shunting mode includes shunting from PDCP layers of shunting and from rlc layer.If eNB and UE can support a variety of shunting modes, eNB can pass through identification field in the downlink data of transmission（Such as the frame type in frame control domain in traffic the mark TID, or MAC header in service quality control domain in media access control MAC head, or the type field in MAC payloads payload）Value identify specific shunting mode, for details, reference can be made to the introduction of subsequent embodiment three, I will not elaborate.

S306:UE determines the data type for the downlink data that AP is sent according to the first convergence configured information of the data type for indicating downlink data；It is determined that the downlink data data type be LTE data after, handle the downlink data using LTE protocol.

As shown in Fig. 4, UE is handled the rlc protocol layer that the downlink data of reception converges to LTE module from the MAC protocol layer of UE WIFI module according to the instruction of the first convergence configured information.

Below, then uplink data transmission method in the embodiment one is introduced；

As shown in Fig. 5, it is the uplink data transmission method flow chart that the embodiment of the present invention one is provided, comprises the following steps：

S501 :ENB is after needing AP to transmit LTE data, it is determined that the data for indicating upstream data Second convergence configured information of type；

Here, eNB is it is determined that during LTE Wang Network overloads, it may be determined that assist transmission LTE data using wlan network, then the data type that UE is sent to AP upstream data is probably LTE streamed datas（LTE business datums i.e. from UE), it is also possible to WLAN data (i.e. the WLAN business datums of UE), accordingly, it would be desirable to the data type of the upstream data received by the second convergence configured information to indicate AP to determine.Such as convergence instruction is carried out using 0,1, wherein 0 represents that data type is LTE data, namely represent that needing AP that the upstream data received is sent into evolution base station eNB is handled, 1 represents that data type is WLAN data, namely represents to need AP that the upstream data of reception is transmitted directly into internet（ internet ).

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

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

S503：UE will need the upstream data for being sent to eNB to be diverted to AP.

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 the MAC layer that eNB upstream data is diverted to from the rlc layer in the protocol layer of UE LTE module in the protocol layer of UE WIFI module, then the protocol layer of the WIFI module from UE is sent to AP.

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

S504:AP converges configured information according to second of the data type for indicating upstream data, determine the data type for the upstream data that UE is sent, it is determined that the upstream data data type be LTE data after, the upstream data is sent to evolution base station eNB and handled.

As shown in fig. 6, AP is after the upstream data of UE transmissions is received, according to the second convergence configured information, the rlc protocol layer that the upstream data is converged into LTE eNB is handled.

In specific implementation, if AP collaboration transmission LTE data, do not support to transmit WLA numbers According to, then UE is after the downlink data of AP transmissions is received, directly the downlink data can be regard as LTE data, handle the downlink data using LTE protocol, also will the protocol layers of downlink data LTE module that UE is converged to from the protocol layer of UE WIFI module that send of the AP handled.Correspondingly, AP is directly handled the respective protocol layer that the upstream data is sent to e B as LTE data after the upstream data of UE transmissions is received.

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, AP and eNB co-sited or non-co-sited, the AP LTE data that both collaboration transmission is shunted also support individually transmission WLAN data.The carry out LTE shunting convergences that the UE that the eNB is serviced has（I.e. UE WIFI modules are handled the protocol layer that UE LTE modules are delivered to from the AP downlink datas received, or UE LTE modules send LTE data distributions to WIFI module）, some carry out WIFI business transmission；In addition, in the network system of the embodiment of the present invention, it can be same node that can also include SRC, the SRC and eNB（Fig. 7 (a)), can also be different nodes（Fig. 7 (b)).When SRC and eNB are different nodes, the first and second convergence configured informations in the embodiment of the present invention two can be determined by SRC and be sent to eNB, then the first convergence configured information is handed down to respectively by UE by eNB, the second convergence configured information is handed down to AP.In the embodiment of the present invention one first and second convergence configured informations directly can also be determined and be issued by eNB, below be just introduced in the way of eNB is determined and is issued.

The basic thought of embodiment two is to be notified by the eNB corresponding relation carryings identified UE with data type in the second convergence configured information to AP, AP identifies the data type for determining the upstream data according to the corresponding relation and the UE of currently transmitted upstream data UE, and the data type based on determination is handled accordingly.

Downlink data transmission is introduced first；It is the downlink data shunting schematic diagram in embodiment two as shown in Fig. 8.For the current UE (UE2 in such as Fig. 8) for only carrying out WIFI business transmission, UE WIFI modules are directly transported to UE operating systems and handled after the downlink data of AP transmissions is received.For the current UE (UE1 in such as Fig. 8) for only carrying out LTE shunting polymerizations, the method that can be introduced according to above-described embodiment one is receiving first convergence of the data type of indicating downlink data for LTE data After configured information, handled and be no longer described in detail in the downlink data, the present embodiment two using LTE protocol.Below, the uplink data transmission method in embodiment two is introduced, implementation steps repeat part with above-described embodiment one and repeated no more；

As shown in figure 9, be the uplink data transmission method flow chart in the embodiment of the present invention two, including： S901 :ENB is after needing AP to transmit LTE data, it is determined that the second convergence configured information of the data type for indicating upstream data；The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data.

Because difference UE is sent to the data type difference of AP upstream data in the embodiment two, it therefore, it can indicate that different UE marks distinguish corresponding data type in the second convergence configured information.Such as, UE1 correspondence convergences indicate 0,0 mark data type is LTE data (indicating that the UE1 upstream datas sent are sent to eNB by AP), UE2 correspondence convergences indicate that 1,1 mark data type is WLAN data (indicating that the UE2 upstream datas sent are transmitted directly to Internet by AP).

UE marks in the present embodiment two can be UE MAC Address or cell temporary mark（Such as Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI).

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

S903:UEl will need the upstream data for being sent to eNB to be diverted to AP transmission.

As shown in Figure 10, it is upstream data shunting schematic diagram in embodiment two.The protocol layer that the upstream data that UE1 will need to be sent to eNB LTE is diverted to WIFI module from the protocol layer of LTE module is transmitted, when upstream data has arrived AP, AP sends data to eNB, WLA upstream data is sent to AP by UE2 WIFI module, and AP directly gives data internet processing.In the step, if eNB and UEl can support a variety of shunting modes, then UE1 can by identification field, (traffic in such as media access control MAC head in service quality control domain identifies TID in the upstream data of transmission, or the type field in the frame type in MAC header in frame control domain, or MAC payloads payload）Value identify specific shunting mode, for details, reference can be made to the introduction of subsequent embodiment three, I will not elaborate.

S904:AP converges configured information according to second of the data type for indicating upstream data, and the UE of the UE1 is identified, and the data type for the upstream data that UE1 is sent is determined, it is determined that on described The data type of row data be LTE data after, the upstream data is sent to evolution base station eNB and handled.

In the step, AP identifies corresponding convergence according to UE different in the second convergence configured information and indicated, the protocol layer that the upstream data that UE1 is sent is converged into LTE eNB is handled, and the upstream data that UE2 is sent is sent directly into Intemet.

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 coverings can be while or timesharing progress LTE shuntings polymerization and the transmission of WIFI business；In addition, in the network system of the embodiment of the present invention, can also include being used to control AP and eNB SRC, the SRC and eNB to be same node（Figure 11)), it can also be different nodes（Figure 11 (b)).The corresponding relation of the value of identification field and data type can be determined by SRC and be sent to eNB in the embodiment of the present invention three, and the corresponding relation then is handed down into UE and AP respectively by eNB.The corresponding relation directly can also be determined and issued by eNB.In addition, the corresponding relation can also make an appointment in agreement.When the identification field in the embodiment three is that traffic identifies TID, the value of the TID corresponding to eNB can also be by AP to indicate.It can be specifically described below.

The basic thought of embodiment three is that, by transmitting the identification field in data come mark data type, the corresponding relation of the identification field and type can be indicated by the first convergence configured information and the second convergence configured information.

Below, the downlink data transmission method in the embodiment three is introduced first.

As shown in figure 12, it is the downlink data transmission method flow chart of the offer of the embodiment of the present invention three, comprises the following steps：

S 1201：ENB sends the polymerizing power query messages of the ability information for inquiring about the UE to UE.

S1202:UE feeds back the ability information of the UE to the eNB after the polymerizing power query messages of eNB transmissions are received, and the ability information is used for the ability for indicating that UE described in the eNB has using the LTE protocol processes AP downlink datas sent. S1203:E B will need the downlink data for being sent to UE to be diverted to AP, and the downlink data is sent to UE by AP.

As shown in figure 13, it is downlink data shunting schematic diagram in embodiment three.ENB and AP send downlink data to UE respectively, and eNB will need to be sent to UE downlink data and be diverted to AP from rlc layer, and the downlink data is sent into UE by AP.If eNB can support a variety of shunting modes, the identification field corresponding to the shunting mode of use can be carried and AP be sent in downlink data by the eNB according to shunting mode and the corresponding relation of identification field in the first convergence configured information.The description of avatar step as described below on identification field.

S1204:UE determines the data type for the downlink data that AP is sent according to the value of identification field in the value of identification field in downlink data and the corresponding relation of data type, and the downlink data of reception；It is determined that the downlink data data type be LTE data after, handle the downlink data using LTE protocol；The identification field is medium education（Media Access Control, MAC) traffic mark in head in service quality control domain（Traffic identifier, TID), or the frame type in MAC header in frame control domain.

In the step, identification field value is the value that mark data type is LTE data in the downlink data that eNB will be sent to UE.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 in MAC header（Qos control field ).Such as, TID6 mark datas type can be used for LTE data, namely represent to need UE to handle the downlink data that AP is sent using LTE protocol；TID7 mark datas type can be used for WLAN data, namely the downlink data that expression UE can send AP is handled directly as WIFI data.

In specific implementation process, TID value and the corresponding relation of data type can be determined and issued by eNB, such as, and eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to UE.Or, what TID value and the corresponding relation of data type can also be determined by AP, also, AP can pass through the interface between AP and eNB, such as z interfaces（Interface-z) notify to eNB.Specifically, AP is being received after eNB is sent to UE downlink data, and a TID value is selected for the downlink data from already present TID values（It can randomly choose）, and set by z interfaces（ interface-z setup )、 Z interfaces are reset（Interface-z reset) etc. signaling message be sent to eNB, eNB determines that the data type corresponding to the value for the TID that AP is sent is LTE data, and is indicated to UE by RRC reconfiguration messages or broadcast message.The value for the TID that the AP is used when itself can also be sent into downlink data to UE is notified to eNB.Or, TID value and the corresponding relation of data type can also be pre-configured with agreement, and the corresponding relation that AP and UE are pre-configured with according to agreement carries out convergence.

TID can be also used for identifying specific shunting mode in addition to for mark data type, here, and shunting mode can include shunting from PDCP layers of shunting and from rlc layer.Such as, TID5 and TID6 can be used for mark data type to be LTE data, then TID5 therein can be specifically identified the PDCP layers shunting from eNB, and TID6 is specifically identified the rlc layer shunting from eNB.

2) mark i or for frame control i or（Frame control field) inner frame type;Here, the frame type in frame control domain is except control（), control data（Data) and management（Management) outside three types, also one reserved place（Reserved, typell), data type can be indicated using the reserved place.

In specific implementation process, the corresponding relation of frame type and data type can be determined and issued by eNB, such as, and eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to UE.It can also be pre-configured with agreement.

Frame type reserved place typell has 16 kinds of subtypes（Subtype) value 0000-1111, can such as be identified and be shunted from eNB PDCP layers, be identified and shunted from eNB rlc layer using subtypellll using different subtype values mark shunting modes using subtypeOOOO.

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

In specific implementation process, the concrete meaning that the type field in MAC payload is identified（Namely type field and data type or the corresponding relation of shunting mode）It can be known for eNB, AP and UE, such as can be prespecified in the protocol. As shown in figure 13, UE WIFI module is after the downlink data of AP transmissions is received, determine the data type that the identification field in the downlink data is identified, it is determined that data type be WLAN data after, directly the downlink data is handled as WLAN data, that is, the operating system for giving UE is handled, it is determined that data type be LTE data after, UE LTE module is then given, the downlink data is handled using LTE protocol.

Below, then uplink data transmission method in the embodiment three is introduced.

As shown in figure 14, it is the uplink data transmission method flow chart of the offer of the embodiment of the present invention three, comprises the following steps：

S1401 :UE will need the upstream data for being sent to eNB to be diverted to AP transmission.

As shown in figure 15, it is upstream data shunting schematic diagram in embodiment three.UE sends upstream data to AP and eNB respectively, wherein, the WIFI module that the upstream data for being sent to eNB is diverted to UE from UE LTE module is transmitted to AP, then is sent by AP to eNB.If UE and eNB supports a variety of shunting modes, then the UE can the just blunt corresponding relation according to identification field in shunting mode and upstream data indicated in the described first convergence configured information, the identification field corresponding to the shunting mode of use is carried AP is sent in upstream data.The description of avatar step as described below on identification field.

S1402:AP is according to the value of identification field in upstream data and the corresponding relation of data type, and UE send upstream data in identification field value, determine the data type of the upstream data, it is determined that the upstream data data type be LTE data after, the upstream data is sent to eNB processing.The identification field is the TID in service quality control domain in MAC header, or the frame type in MAC header in frame control domain, or the type field in MAC payload.

In the step, the identification field value in the upstream data that UE will be sent to AP is the value that mark data type is LTE data.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 in MAC header（Qos control field ).Such as, TID6 mark datas type can be used for LTE data, namely represent to need AP that the UE upstream datas sent are sent into eNB processing；TID7 mark datas type can be used for WLAN data, namely the upstream data that expression AP can send UE is sent to internet directly as WLAN data In specific implementation process, TID value and the corresponding relation of data type can be determined and issued by e B, such as, and eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to AP.Or, TID value and the corresponding relation of data type can also be determined and notified to eNB by AP.Specifically, AP is being received after eNB is sent to UE downlink data, and a TID value is selected for the downlink data from already present TID values（It can randomly choose）, and eNB is sent to, meanwhile, AP determines that the data type for the upstream data that the corresponding UE of the TID of selection value is sent also is eNB.Or, TID value and the corresponding relation of data type can also be pre-configured with agreement, and the corresponding relation that AP and UE are pre-configured with according to agreement carries out convergence.

TID can be also used for identifying specific shunting mode in addition to for mark data type, here, and shunting mode can include shunting from PDCP layers of shunting and from rlc layer.Such as, TID5 and TID6 can be used for mark data type to be LTE data, then TID5 therein can be specifically identified the PDCP layers shunting from UE, and TID6 is specifically identified the rlc layer shunting from UE.

2) identification field is frame control domain（Frame control field) inner frame type;Here, the frame type in frame control domain is except control（), control data（Data) and management（Management) outside three types, also one reserved place（Reserved, typell), data type can be indicated using the reserved place.

In specific implementation process, the corresponding relation of frame type and data type can be determined and issued by eNB, such as, and eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to AP.It can also be pre-configured with agreement.

Frame type reserved place typell has 16 kinds of subtypes（Subtype) value 0000-1111, can such as be identified and be shunted from UE PDCP layers, be identified and shunted from UE rlc layer using subtypellll using different subtype values mark shunting modes using subtypeOOOO.

3) identification field is the type field in MAC payload（Or type protocol numbers）；Here it is possible to by adding PDCP or RLC in 802.11 frame MAC payload type field, for identifying the corresponding data type of upstream data for LTE data.If eNB supports a variety of shunting modes, PDCP and RLC can be added simultaneously in 802.11 frame MAC payload type field, if only supporting a kind of shunting mode, PDCP or RLC is only added in 802.11 frame MAC payload type field. In specific implementation process, the concrete meaning that the type field in MAC payload is identified（Namely type field and data type or the corresponding relation of shunting mode) can be known for eNB, AP and UE, such as can be prespecified in the protocol.

As shown in figure 15, AP is after the upstream data of UE transmissions is received, determine the data type that the identification field in the upstream data is identified, it is determined that data type be WLAN data after, the upstream data is directly sent to internet, it is determined that data type be LTE data after, the upstream data is sent to eNB processing.

As shown in figure 16, it is another network architecture schematic diagram of the embodiment of the present invention three.Based on the identification means of embodiment three, the cooperation between Cellular Networks and non-cellular net can be not only realized, the cooperation between different Cellular Networks can also be realized, and realize the cooperation between a variety of Cellular Networks and non-cellular net.Such as, Figure 16 is related to eNB and UMTS in LTE（Universal Mobile Telecommunications System, UMTS) in base station（NodeB, NB) two kinds of Cellular Networks radio reception devices, AP and eNB, NB co-sited, AP both collaboration transmission LTE data, also collaboration transmission UMTS network data.At this moment, different Cellular Networks can be distinguished by identification field in transmission data, specific implementation is similar to the process that data type and shunting mode are distinguished by identification field, and I will not elaborate.

Example IV

As shown in figure 17, it is a kind of network architecture schematic diagram of the embodiment of the present invention four.Wherein, AP' and AP cover UE, and AP collaborations transmission LTE data, AP' supports transmission WLAN data.UE can be while or timesharing carries out LTE shuntings polymerization and WLAN data is transmitted.In example IV, AP' is different from the data type of AP to the UE downlink datas sent, and AP' is sent to the data type of UE downlink data for WLAN data in itself, and the data type that AP is sent to UE downlink data is LTE data.

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

Below, the downlink data transmission method in the example IV is introduced first.

As shown in figure 18, it is the downlink data transmission method flow chart of the offer of the embodiment of the present invention four, including Following steps：

S 1801：ENB sends the polymerizing power query messages of the ability information for inquiring about the UE to UE.

S1802:UE feeds back the ability information of the UE to the eNB after the polymerizing power query messages of eNB transmissions are received, and the ability information is used for the ability for indicating that UE described in the eNB has using the LTE protocol processes AP downlink datas sent.

S1803:ENB determines BSSID and the corresponding relation of data type in downlink data after the ability information of the UE feedbacks is received.

S1804:BSSID in downlink data and the corresponding relation of data type are sent to the UE by eNB by RRC reconfiguration messages or broadcast message.

S1805:ENB will need the downlink data for being sent to UE to be diverted to AP, and the downlink data is sent to UE by AP.

As shown in figure 19, it is downlink data shunting schematic diagram in example IV.WIFI protocol layers of the eNB from rlc layer streamed data to AP, AP sends the streamed data to UE WIFI protocol layers.The AP' covered altogether with AP sends WIFI network data to UE WIFI protocol layers.

S1806:UE determines the data type for the downlink data that AP is sent according to the AP of the corresponding relation and transmission downlink data of BSSID in downlink data and data type BSSID；After it is determined that the data type of the downlink data is LTE data, the LTE protocol layer processing downlink data is used.

As shown in figure 19, UE is according to BSSID and the corresponding relation of data type, the data type for determining the downlink data that AP is sent is LTE data, the protocol layer that the downlink data that then AP is sent converges to UE LTE modules from the protocol layer of UE WIFI modules is handled, the data type for determining the downlink data that AP' is sent is WLAN data, then gives UE operating systems by the downlink data that AP' is sent and handled.

Below, then uplink data transmission method in the example IV is introduced.

As shown in figure 20, it is upstream data shunting schematic diagram in example IV.For the uplink data transmission method in the embodiment of the present invention four, UE sends the upstream data produced from WLAN protocol layer to AP', and the upstream data is directly sent to the upstream data point that internet UE will be produced from LTE protocol layer by AP' AP is flow to, AP converges to the upstream data of reception on e B LTE protocol layer；Here, if all LTE data are transmitted in a collaboration to AP in All Time, the data type that the AP after upstream data is received, can just give tacit consent to the upstream data is LTE data, and the upstream data is sent into eNB.The AP can also be according to the uplink data transmission method in embodiment one, the second convergence configured information sent according to eNB, it is determined that the data type of the upstream data received, is repeated no more here.

Embodiment five

As shown in figure 21, it is a kind of Wang Network system structure diagrams of the embodiment of the present invention five.Wherein, AP' and AP cover UE, and both LTE data are transmitted in collaboration to AP, also support individually transmission WLAN data, and AP' supports independent transmission WLAN data.UE can be while or timesharing progress LTE shuntings polymerization and WL AN data transfers.

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

Below, the downlink data transmission method in the embodiment five is introduced first.

As shown in figure 22, it is the downlink data transmission method flow chart of the offer of the embodiment of the present invention five, comprises the following steps：

S2201 :ENB sends the polymerizing power query messages of the ability information for inquiring about UE to UE. S2202:UE feeds back the ability information of the UE to the eNB after the polymerizing power query messages of eNB transmissions are received, and the ability information is used for the ability for indicating that UE described in the eNB has using the LTE protocol layers processing AP downlink datas sent.

S2203:ENB will need the downlink data for being sent to UE to be diverted to AP, and the downlink data is sent to UE by AP.

It is the downlink data shunting schematic diagram in embodiment five as shown in Figure 23.ENB, AP and AP' send downlink data to UE respectively, and eNB will need to be sent to UE downlink data and be diverted to AP from rlc layer, and the downlink data is sent into UE by AP.

S2204:UE according to the corresponding relation of the value of identification field in downlink data and BSSID combination and data type, and in the downlink data received identification field value and AP BSSID, determine the AP The data type of the downlink data of transmission；It is determined that the downlink data data type be LTE data after, handle the downlink data using LTE protocol；The identification field is the TID in service quality control domain in MAC header, or the frame type in MAC header in frame control domain, or the type field in MAC payload.

In the step, UE WIFI module is after the downlink data of AP transmissions is received, determine whether LTE data are transmitted in collaboration to the AP according to the BSSID of the AP first, it is determined that after AP collaborations transmission LTE data, determine whether the value of identification field in the downlink data is corresponding for LTE data again, namely determine whether the downlink data that the AP is sent derives from eNB, after it is determined that the data type that is identified of value of identification field is LTE data in the downlink data that the AP is sent, the protocol layer that the downlink data is converged to UE LTE module is handled.Correspondingly, UE WIFI module is after the downlink data of AP transmissions is received, if determining that the AP transmits LTE data for collaboration according to BSSID, but the data type that the identification field in the downlink data of AP transmissions is identified is WLAN data, then the downlink data is handled as WLAN data, i.e., directly gives UE operating systems and is handled.UE determines that LTE data are transmitted in the AP' not collaborations according to BS SID, then directly the AP' downlink datas sent is handled as WLAN data, i.e., directly give UE operating systems and handled after the downlink data of AP' transmissions is received.

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 in MAC header（Qos control field ).Such as, the AP (hereinafter referred to as cooperateing with AP) of collaboration transmission LTE data BSSID and TID6 combination mark data type can be used for LTE data, namely represent that needing UE that the AP downlink datas from eNB sent are converged into LTE protocol layer is handled.

In specific implementation process, TID value and AP BSSID combination and the corresponding relation of data type is cooperateed with to be determined and be issued by eNB, such as, eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to UE.Or, what TID value and collaboration AP BSSID combination and the corresponding relation of data type can also be determined by AP, also, AP can pass through the interface between AP and eNB, such as z interfaces（Interface-z) notify to eNB.Specifically, AP is being received after eNB is sent to UE downlink data, and a TID value is selected for the downlink data from already present TID values（Can randomly choose), and set by z interfaces（Interface-z setup), z interfaces reset Signaling messages such as (interface-z reset) is sent to eNB, eNB determines that the data type corresponding to the value of the TID and the BSSID of the AP of AP transmissions is LTE data, and is indicated to UE by RRC reconfiguration messages or broadcast message.Or, TID value and collaboration AP BSSID combination and the corresponding relation of data type can also be pre-configured with agreement, and the corresponding relation that AP and UE are pre-configured with according to agreement carries out convergence.

TID is in addition to for mark data type, it can be also used for identifying specific shunting mode, here, shunting mode can include shunting from PDCP (Packet Data Convergence Protocol, PDCP) layer and from wireless spread-spectrum technology（Radio Link Control, RLC) layer shunting.Such as, BSSIDs of the TID5 with cooperateing with AP combination, or BSSIDs of the TID6 with cooperateing with AP combination can be used for mark data type to be LTE data, then combining for BSSIDs of the TID5 therein with cooperateing with AP can be specifically identified the PDCP layers shunting from eNB, and BSSIDs of the TID6 with cooperateing with AP combines the rlc layer shunting being specifically identified from eNB.

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) outside three types, also one reserved place（Reserved, typell), data type can be indicated using the reserved place.

In specific implementation process, frame type and the AP of collaboration transmission LTE data BSSID combination and the corresponding relation of data type can be determined and issued by eNB, such as, eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to UE.It can also be pre-configured with agreement.

Frame type reserved place typell has 16 kinds of subtypes（Subtype) value 0000-1111, can such as be identified and be shunted from eNB PDCP layers, be identified and shunted from eNB rlc layer using subtypellll using different subtype values mark shunting modes using subtypeOOOO.

3) identification field is the type field in MAC payload（Or type protocol numbers）；Here it is possible to by adding PDCP or RLC in 802.11 frame MAC payload type field, for identifying the corresponding data type of downlink data for LTE data.If eNB supports a variety of shunting modes, PDCP and RLC can be added simultaneously in 802.11 frame MAC payload type field, if only supporting a kind of shunting mode, PDCP or RLC is only added in 802.11 frame MAC payload type field. In specific implementation process, the concrete meaning that the type field in MAC payload is identified（Namely type field and data type or the corresponding relation of shunting mode) can be known for eNB, AP and UE, such as can be prespecified in the protocol.

As shown in figure 23, the AP downlink datas from eNB sent are converged to LTE protocol layer and handled by UE, and the AP and AP' downlink datas of itself from the AP and AP' sent are handled as WLAN data.

Below, then uplink data transmission method in the embodiment five is introduced.

As shown in figure 24, it is upstream data shunting schematic diagram in embodiment five.For transmitting uplink data, UE sends the upstream data produced from WIFI protocol layers to AP or Α Ρ ', the upstream data is directly sent to internet UE by AP or AP' to branch to AP from the upstream data of LTE protocol layer generation, and AP converges to the upstream data of reception on eNB LTE protocol layer；Here, the AP can be according to the value and the corresponding relation of data type of identification field in upstream data, and the value of the identification field in the upstream data received, it is determined that the data type of the upstream data received, specific implementation can here be repeated no more referring to the uplink data transmission method in embodiment three.

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 six, both LTE data are transmitted in collaboration to the AP, also support individually transmission WLAN data.The carry out WLAN data transmission that UE under AP coverings has（Such as UE1), what is had can be while or timesharing progress LTE shuntings polymerization and WLAN data transmission（Such as UE2).In addition, in the network system of the embodiment of the present invention, it can be same node that can also include SRC, the SRC and eNB（Figure 25 (a)), can also be different nodes（Figure 25 (b)).If SRC is different nodes from eNB, X2 oral sex mutual informations can be passed through between SRC and eNB.

The basic thought of embodiment six is that the combination identified by the value and UE of identification field in upstream data can be indicated come mark data type, the combination of value and the UE mark of the identification field and the corresponding relation of data type by the second convergence configured information.

Downlink data transmission is introduced first；As shown in figure 26, it is downlink data shunting schematic diagram in embodiment six.For the current UE (UE2 in such as Figure 26), UE WIFI for only carrying out WIFI business transmission Module is directly handled as WLAN data after the downlink data of AP transmissions is received, i.e., directly gives UE operating systems and handled.For simultaneously or timesharing carry out LTE shunting polymerization and WLAN data transmit UE (UE1 in such as Figure 26), the method that can be introduced according to above-described embodiment three, according to the corresponding relation of the value of identification field in downlink data and data type, and the value of the identification field carried in the downlink data of AP transmissions, determine the data type of the downlink data, it is determined that the downlink data data type be WLAN data after, handled as WLAN data, UE operating systems are directly given to be handled, it is determined that data type be LTE data after, the protocol layer that UE WIFI modules converge to the downlink data received UE LTE module is handled, no longer it is described in detail in the present embodiment six.

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

As shown in figure 27, it is the uplink data transmission method flow chart of the offer of the embodiment of the present invention six, comprises the following steps：

S2701 :UE will need the upstream data for being sent to eNB to be diverted to AP.

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

S2702:Combination and the corresponding relation of data type that 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 transmissions, determine the data type of the upstream data, it is determined that the upstream data data type be LTE data after, the upstream data is sent to eNB processing.

In the step, identification field value is the value that mark data type is LTE data in the upstream data that UE1 will be sent to AP.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 in MAC header（ Qos control field ).Such as, can use support LTE shunting polymerization UE UE mark and TID6 combination come mark data type for LTE data；Can use do not support LTE shunting polymerization UE UE mark and TID7 combination come mark data type for WLAN data.

In specific implementation process, the TID combination of value and UE mark and the corresponding relation of data type can be determined and issued by eNB, such as, eNB is by RRC reconfiguration messages or broadcasts the message to AP Issue the corresponding relation.Or, the TID combination of value and UE mark and the corresponding relation of data type can also be determined by AP and notify to give e B.Specifically, AP is being received after eNB is sent to UE downlink data, and a TID value is selected for the downlink data from already present TID values（It can randomly choose）, and eNB is sent to, meanwhile, AP determines that the data type of the upstream data corresponding to the combination that the TID of selection value and the UE of the UE are identified is LTE data.Or, the TID combination of value and UE mark and the corresponding relation of data type can also be pre-configured with agreement, and the corresponding relation that AP and UE are pre-configured with according to agreement carries out convergence.

TID can be also used for identifying specific shunting mode in addition to for mark data type, here, and shunting mode can include shunting from PDCP layers of shunting and from rlc layer.Such as, support the UE of LTE shunting polymerizations UE marks and TID5 combination, and support the UE of LTE shunting polymerizations UE marks and TID6 combination to may be used to mark data type for LTE data, then TID5 therein can be specifically identified the PDCP layers shunting from UE, and TID6 is specifically identified the rlc layer shunting from UE.

2) identification field is frame control domain（Frame control field) inner frame type;Here, the frame type in frame control domain is except control（), control data（Data) and management（Management) outside three types, also one reserved place（Reserved, typell), data type can be indicated using the reserved place.

In specific implementation process, the combination of frame type and UE mark and the corresponding relation of data type can be determined and issued by eNB, such as, and eNB is by RRC reconfiguration messages or broadcasts the message and issues the corresponding relation to AP.It can also be pre-configured with agreement.

Frame type reserved place typell has 16 kinds of subtypes（Subtype) value 0000-1111, can such as be identified and be shunted from UE PDCP layers, be identified and shunted from UE rlc layer using subtypellll using different subtype values mark shunting modes using subtypeOOOO.

3) identification field is the type field in MAC payload（Or type protocol numbers）；Here it is possible to by adding PDCP or RLC in 802.11 frame MAC payload type field, for identifying the corresponding data type of upstream data for LTE data.If eNB supports a variety of shunting modes, PDCP and RLC can be added simultaneously in 802.11 frame MAC payload type field, if only supporting a kind of shunting mode, PDCP or RLC is only added in 802.11 frame MAC payload type field. In specific implementation process, the concrete meaning that the type field in MAC payload is identified（Namely type field and data type or the corresponding relation of shunting mode) can be known for eNB, AP and UE, such as can be prespecified in the protocol.

As shown in figure 28, AP is after the upstream data of UE1 transmissions is received, identified first according to the UE of the UE1, whether judge the UE1 is the UE for supporting LTE shunting convergences, it is determined that after being, then determine whether whether the data type that the identification field in upstream data is identified is LTE data, if, then the upstream data converges to eNB protocol layer and handled, if not, the upstream data is then sent directly to internet AP after the upstream data of UE2 transmissions is received, identified first according to the UE of the UE2, whether judge the UE2 is the UE for supporting LTE shunting convergences, it is determined that not being, the UE2 upstream datas sent are then sent directly to mtemet.

Embodiment seven

In the embodiment, the thought of above-described embodiment five and embodiment six can be combined and implemented.Specifically, in downlink data transmission, it can be indicated by identification field in downlink data and BSSID combination come mark data type, the identification field and BSSID combination and the corresponding relation of data type by the first convergence configured information.In transmitting uplink data, the combination identified by the value and UE of identification field in upstream data can be indicated come mark data type, the combination of value and the UE mark of the identification field and the corresponding relation of data type by the second convergence configured information.Specific implementation can here be repeated no more respectively referring to above-described embodiment five and embodiment six.

Based on same inventive concept, a kind of data transmission device corresponding with data transmission method is additionally provided in the embodiment of the present invention, because the principle that the device solves problem is similar to data transmission method of the embodiment of the present invention, therefore the implementation of the device may refer to the implementation of method, repeats part and repeats no more.

As shown in figure 29, it is the data transmission device structural representation of the offer of the embodiment of the present invention eight, including：Receiving module 291, the downlink data of user equipment (UE) is sent to for receiving non-cellular net radio reception device；

Determining module 292, for the first convergence configured information according to the data type for being used for indicating downlink data, determines the data type for the downlink data that the receiving module 291 is received；

Processing module 293, for determining that the data type of the downlink data is in the determining module 292 After honeycomb network data, the downlink data is handled using cellular network protocol.

Alternatively, the receiving module 291 is additionally operable to：

Receive the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

Alternatively, the first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

Alternatively, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The processing module 293 specifically for：

It is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol.

Alternatively, the receiving module 291 is additionally operable to, before the downlink data that non-cellular net radio reception device is sent is received, and receives the polymerizing power query messages for being used to inquire about the ability information of the UE that Cellular Networks radio reception device is sent；

Described device also includes：Sending module 294, ability information for feeding back from the UE to the Cellular Networks radio reception device, the ability information is used to indicate that UE described in the Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

As shown in figure 30, it is the data transmission device structural representation of the offer of the embodiment of the present invention nine, including：Determining module 301, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-honeybee Nest network data or honeycomb network data；

Sending module 302, the first convergence configured information for the determining module 301 to be determined is sent to the UE.

Alternatively, the sending module 302 specifically for：By radio resource control RRC reconfiguration message or broadcast message, the described first convergence configured information is sent to the UE.

Alternatively, the first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or, the first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

Alternatively, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the UE determines honeycomb network data, and the shunting mode based on determination, and the downlink data is handled using cellular network protocol.

Alternatively, if the value and the corresponding relation of data type of the first convergence configured information including TID, the determining module 301 specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

If combination and the corresponding relation of data type of the value of the first convergence configured information including BSSID and TID, the determining module 301 specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, determine the corresponding data class of combination of the BSSID and the TID of the non-cellular net radio reception device value Type is honeycomb network data.

Alternatively, the sending module 302 is additionally operable to, and the described first convergence configured information is sent to before the UE, and the polymerizing power inquiry described device that disappears of the ability information for inquiring about the UE is sent to the UE and is also included：Receiving module 303, the ability information for receiving the UE feedbacks, the ability information is used to indicate that UE described in Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

As shown in figure 31, it is the data transmission device structural representation of the offer of the embodiment of the present invention ten, including：Receiving module 311, the upstream data for receiving user equipment (UE) transmission；

Determining module 312, for the second convergence configured information according to the data type for being used to indicate upstream data, determines the data type for the upstream data that the receiving module 311 is received；

Sending module 313, for determined in the determining module 312 upstream data data type be honeycomb network data after, the upstream data is sent to Cellular Networks radio reception device and handled.

Alternatively, the second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

Alternatively, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The sending module 313 specifically for：

After the determining module determines the data type of the upstream data for honeycomb network data, according to the corresponding shunting mode of the value of identification field in the upstream data, the upstream data is sent to Cellular Networks Radio reception device is handled.

Alternatively, if the second convergence configured information includes the corresponding relation of TID value and data type, the determining module 312 is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, be the value that the downlink data selects TID, and determining that the TID selected described in the upstream data of reception the corresponding data type of value is honeycomb network data；Or,

If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, the determining module 312 is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

Alternatively, the receiving module 311 is additionally operable to, before the upstream data that user equipment (UE) is sent is received, and receives the second convergence configured information that Cellular Networks radio reception device is sent.

As shown in figure 32, it is the data transmission device structural representation of the offer of the embodiment of the present invention 11, including：

Determining module 321, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

Sending module 322, the second convergence configured information for the determining module 321 to be determined is sent to Cellular Networks radio reception device.

Alternatively, the second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

Alternatively, the second convergence configured information also includes：The value of identification field is with dividing in upstream data The corresponding relation of stream mode；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled.

As shown in figure 33, it is the data transmission device structural representation of the offer of the embodiment of the present invention 12, including：

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

Processor 332, for the first convergence configured information according to the data type for being used for indicating downlink data, determines the data type for the downlink data that the receiver 331 is received；It is determined that the downlink data data type be honeycomb network data after, handle the downlink data using cellular network protocol.

Alternatively, the receiver 331 is additionally operable to：

Receive the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

Alternatively, in second of possible implementation,

The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

Alternatively, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The processor 332 specifically for： It is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol.

Alternatively, the receiver 331 is additionally operable to, before the downlink data that non-cellular net radio reception device is sent is received, and receives the polymerizing power query messages for being used to inquire about the ability information of the UE that Cellular Networks radio reception device is sent；

Described device also includes：Transmitter 333, ability information for feeding back from the UE to the Cellular Networks radio reception device, the ability information is used to indicate that UE described in the Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

As shown in figure 34, it is the data transmission device structural representation of the offer of the embodiment of the present invention 13, including：

Processor 341, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-cellular network data or honeycomb network data；

Transmitter 342, the first convergence configured information for the processor 341 to be determined is sent to described

UE。

Alternatively, the transmitter 342 specifically for：By radio resource control RRC reconfiguration message or broadcast message, the described first convergence configured information is sent to the UE.

Alternatively, the first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or, the first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

Alternatively, the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for The UE determines the shunting mode of honeycomb network data, and the shunting mode based on determination, and the downlink data is handled using cellular network protocol.

Alternatively, if the value and the corresponding relation of data type of the first convergence configured information including TID, the processor 341 specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

If combination and the corresponding relation of data type of the value of the first convergence configured information including BSSID and TID, the processor 341 specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of combination for determining the BSSID and the TID of the non-cellular net radio reception device value is honeycomb network data.

Alternatively, the transmitter 342 is additionally operable to, and the described first convergence configured information is sent to before the UE, the polymerizing power query messages of the ability information for inquiring about the UE are sent to the UE；Described device also includes：Receiver 343, the ability information for receiving the UE feedbacks, the ability information is used to indicate that UE described in Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

As shown in figure 35, it is the data transmission device structural representation of the offer of the embodiment of the present invention 14, including：

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

Processor 352, for the second convergence configured information according to the data type for being used to indicate upstream data, determines the data type for the upstream data that the receiver 351 is received；

Transmitter 353, for determined in the processor 352 upstream data data type be honeycomb network data after, the upstream data is sent to Cellular Networks radio reception device and handled.

Alternatively, the second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or, The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

Alternatively, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

The transmitter 353 specifically for：

After the processor 352 determines the data type of the upstream data for honeycomb network data, according to the corresponding shunting mode of the value of identification field in the upstream data, the upstream data is sent to Cellular Networks radio reception device and handled.

Alternatively, if the second convergence configured information includes the corresponding relation of TID value and data type, the processor 352 is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, be the value that the downlink data selects TID, and determining that the TID selected described in the upstream data of reception the corresponding data type of value is honeycomb network data；Or,

If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, the processor 352 is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

Alternatively, the receiver 351 is additionally operable to, before the upstream data that user equipment (UE) is sent is received, and receives the second convergence configured information that Cellular Networks radio reception device is sent.

As shown in figure 36, it is the data transmission device structural representation of the offer of the embodiment of the present invention 15, including：

Processor 361, for need non-cellular net radio reception device transmit honeycomb network data after, it is determined that For the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

Transmitter 362, the second convergence configured information for the processor 361 to be determined is sent to Cellular Networks radio reception device.

Alternatively, the second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

Alternatively, the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled.

It is apparent to those skilled in the art that, for convenience and simplicity of description, only it is illustrated with the division of above-mentioned each functional module, in practical application, it can as needed and by above-mentioned functions distribute and be completed by different functional modules, the internal structure of equipment is divided into different functional modules, to complete all or part of function described above.The specific work process of the system of foregoing description, equipment and unit, may be referred to the corresponding process in preceding method embodiment, will not be repeated here.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method can be realized by another way.For example, apparatus embodiments described above are only schematical, such as, the division of the module or unit, it is only a kind of division of logic function, there can be other dividing mode when actually realizing, such as multiple units or component can be combined or are desirably integrated into Another system, or some features can be ignored, or not perform.Another, it, by some interfaces, the INDIRECT COUPLING or communication connection of equipment or unit, can be electrical, machinery or other forms that shown or discussed coupling or direct-coupling or communication connection each other, which can be,.It can be for the part that unit is shown or may not be physical location, you can with positioned at a place, or can also be distributed on multiple NEs.Some or all of unit therein can be selected to realize the purpose of this embodiment scheme according to the actual needs.

In addition, each functional unit in the application each embodiment can be integrated in a processing unit or unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated unit can both be realized in the form of hardware, it would however also be possible to employ the form of SFU software functional unit is realized.

If the integrated unit is realized using in the form of SFU software functional unit and as independent production marketing or in use, can be stored in a computer read/write memory medium.Understood based on such, the part or all or part of the technical scheme that the technical scheme of the application substantially contributes to prior art in other words can be embodied in the form of software product, the computer software product is stored in a storage medium, including some instructions are to cause a computer equipment（Can be personal computer, server, or network equipment etc.）Or processor（Processor all or part of step of each embodiment methods described of the application) is performed.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage（ROM, Read-Only Memory), random access memory（RAM, Random Access Memory), magnetic disc or CD etc. are various can be with the medium of store program codes.

Described above, above example is only described in detail to the technical scheme to the application, but the explanation of above example is only intended to the method and its core concept for helping to understand the present invention, should not be construed as limiting the invention.Those skilled in the art the invention discloses technical scope in, the change or replacement that can be readily occurred in should be all included within the scope of the present invention.

Claims (1)

1. Claim

   1st, a kind of data transmission method, it is characterised in that this method includes：

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

   The UE converges configured information according to first of the data type for indicating downlink data, it is determined that the data type of the downlink data received；

   The UE it is determined that the downlink data data type be honeycomb network data after, handle the downlink data using cellular network protocol.

   2nd, the method as described in claim 1, it is characterised in that methods described also includes：

   The UE receives the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

   3rd, method as claimed in claim 1 or 2, it is characterised in that

   The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

   The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

   The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

   4th, method as claimed in claim 3, it is characterised in that the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

   The UE it is determined that the downlink data data type be honeycomb network data after, handle the downlink data using cellular network protocol, including：

   The UE it is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol. 5th, the method as described in claim 14 is any, it is characterised in that the UE is received before the downlink data that non-cellular net radio reception device is sent, in addition to：

   The UE receives the polymerizing power query messages for being used to inquire about the ability information of the UE that Cellular Networks radio reception device is sent；

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

   6th, a kind of data transmission method, it is characterised in that this method includes：

   Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-cellular network data or honeycomb network data；

   Described first convergence configured information is sent to the UE by the Cellular Networks radio reception device.

   7th, method as claimed in claim 6, it is characterised in that the described first convergence configured information is sent to the UE by the Cellular Networks radio reception device, including：

   Described first convergence configured information is sent to the UE by the Cellular Networks radio reception device by radio resource control RRC reconfiguration message or broadcast message.

   8th, method as claimed in claims 6 or 7, it is characterised in that

   The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

   The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

   The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

   9th, method as claimed in claim 8, it is characterised in that the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The identification field Value and the corresponding relation of shunting mode be used for the UE and determine the shunting mode of honeycomb network data, and the shunting mode based on determination, handle the downlink data using cellular network protocol.

   10th, method as claimed in claim 8 or 9, it is characterized in that, if the first convergence configured information includes the corresponding relation of TID value and data type, then the Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, the first convergence configured information is determined, including：The Cellular Networks radio reception device is when needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

   If the first convergence configured information includes combination and the corresponding relation of data type of BSSID and TID value, then the Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, the first convergence configured information is determined, including：The Cellular Networks radio reception device is when needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of combination for determining the BSSID and the TID of the non-cellular net radio reception device value is honeycomb network data.

   11st, the method as described in claim 6 10 is any, it is characterised in that the described first convergence configured information is sent to before the UE by the Cellular Networks radio reception device, in addition to：

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

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

   12nd, a kind of data transmission method, it is characterised in that this method includes：

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

   The non-cellular net radio reception device determines the data type of the upstream data according to the second convergence configured information of the data type for indicating upstream data； It is determined that the upstream data data type be honeycomb network data after, the upstream data is sent to Cellular Networks radio reception device and handled.

   13rd, method as claimed in claim 12, it is characterised in that

   The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

   The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

   The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

   14th, method as claimed in claim 13, it is characterised in that the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

   The non-cellular net radio reception device it is determined that the upstream data data type be honeycomb network data after, the upstream data is sent to Cellular Networks radio reception device and handled, including：

   The non-cellular net radio reception device it is determined that the upstream data data type be honeycomb network data after, according to the corresponding shunting mode of the value of identification field in the upstream data, the upstream data is sent to Cellular Networks radio reception device and handled.

   15th, the method as described in claim 13 or 14, it is characterised in that if the second convergence configured information includes the corresponding relation of TID value and data type, methods described also includes：The non-cellular net radio reception device is being received after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and determines that the TID corresponding data type of value selected described in the upstream data of reception is honeycomb network data；Or,

   If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, methods described also includes：The non-cellular net radio reception device is being received after Cellular Networks radio reception device needs to be sent to UE downlink data, is the downlink data selection TID Value, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

   16th, the method as described in claim 12 ~ 14 is any, it is characterised in that the non-cellular net radio reception device is received before the upstream data that user equipment (UE) is sent, in addition to：

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

   17th, a kind of data transmission method, it is characterised in that this method includes：

   Cellular Networks radio reception device is after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

   Described second convergence configured information is sent to Cellular Networks radio reception device by the Cellular Networks radio reception device.

   18th, method as claimed in claim 17, it is characterised in that

   The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

   The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

   The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

   19th, method as claimed in claim 18, it is characterised in that the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled. 20th, a kind of data transmission device, it is characterised in that the device includes：

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

   Determining module, for the first convergence configured information according to the data type for being used for indicating downlink data, determines the data type for the downlink data that the receiving module is received；

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

   21st, device as claimed in claim 20, it is characterised in that the receiving module is additionally operable to：Receive the first convergence configured information that Cellular Networks radio reception device is sent by radio resource control RRC reconfiguration message or broadcast message.

   22nd, the device as described in claim 20 or 21, it is characterised in that

   The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

   The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

   The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

   23rd, device as claimed in claim 22, it is characterised in that the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

   The processing module specifically for：

   It is determined that the downlink data data type be honeycomb network data after, the shunting mode according to corresponding to the value of identification field in the downlink data handles the downlink data using cellular network protocol.

   24th, the device as described in claim 20 ~ 23 is any, it is characterised in that the receiving module is additionally operable to, before the downlink data that non-cellular net radio reception device is sent is received, receives Cellular Networks wireless The polymerizing power query messages for the ability information for inquiring about the UE that access device is sent；Described device also includes：Sending module, ability information for feeding back from the UE to the Cellular Networks radio reception device, the ability information is used to indicate that UE described in the Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

   25th, a kind of data transmission device, it is characterised in that the device includes：

   Determining module, for after needing non-cellular net radio reception device to transmit honeycomb network data, it is determined that the first convergence configured information of the data type for indicating downlink data；The data type is non-cellular network data or honeycomb network data；

   Sending module, the first convergence configured information for the determining module to be determined is sent to described

   UE。

   26th, device as claimed in claim 25, it is characterised in that the sending module specifically for：By radio resource control RRC reconfiguration message or broadcast message, the described first convergence configured information is sent to the UE.

   27th, the device as described in claim 25 or 26, it is characterised in that

   The first convergence configured information includes the value and the corresponding relation of data type of identification field in downlink data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

   The first convergence configured information includes basic service set identification BSSID and the corresponding relation of data type in downlink data；Or,

   The first convergence configured information includes the combination of the value of BSSID and identification field and the corresponding relation of data type in downlink data.

   28th, device as claimed in claim 27, it is characterised in that the first convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in downlink data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the UE determines honeycomb network data, and the shunting mode based on determination, and the downlink data is handled using cellular network protocol.

   29th, the device as described in claim 27 or 28, it is characterised in that if first convergence refers to Show the value of information including TID and the corresponding relation of data type, then the determining module specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of value for determining the TID is honeycomb network data；Or,

   If combination and the corresponding relation of data type of the value of the first convergence configured information including BSSID and TID, the determining module specifically for：When needing non-cellular net radio reception device to transmit honeycomb network data, the downlink data is sent to the non-cellular net radio reception device, and after the value for the TID that the non-cellular net radio reception device selects for the downlink data is received, the corresponding data type of combination for determining the BSSID and the TID of the non-cellular net radio reception device value is honeycomb network data.

   30th, the device as described in claim 25 ~ 29 is any, it is characterized in that, the sending module is additionally operable to, and the described first convergence configured information is sent to before the UE, the polymerizing power query messages of the ability information for inquiring about the UE are sent to the UE；

   Described device also includes：Receiving module, the ability information for receiving the UE feedbacks, the ability information is used to indicate that UE described in Cellular Networks radio reception device has the ability for handling the downlink data that non-cellular net radio reception device is sent using cellular network protocol.

   31st, a kind of data transmission device, it is characterised in that the device includes：

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

   Determining module, for the second convergence configured information according to the data type for being used to indicate upstream data, determines the data type for the upstream data that the receiving module is received；

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

   32nd, device as claimed in claim 13, it is characterised in that

   The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

   The value that the second convergence configured information includes identification field in upstream data is corresponding with data type Relation；The identification field identifies the frame type in TID, or MAC header in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in media access control MAC head；Or,

   The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in upstream data.

   33rd, device as claimed in claim 32, it is characterised in that the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；

   The sending module specifically for：

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

   34th, the device as described in claim 32 or 33, it is characterised in that if the second convergence configured information includes the corresponding relation of TID value and data type, the determining module is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, be the value that the downlink data selects TID, and determining that the TID selected described in the upstream data of reception the corresponding data type of value is honeycomb network data；Or,

   If the second convergence configured information includes combination and the corresponding relation of data type of UE marks and TID value, the determining module is additionally operable to：Receiving after Cellular Networks radio reception device needs to be sent to UE downlink data, TID value is selected for the downlink data, and it is honeycomb network data to determine that the UE of the UE identifies data type corresponding with the combination of the TID selected described in the upstream data received value.

   35th, the device as described in claim 31 ~ 33 is any, it is characterised in that the receiving module is additionally operable to, before the upstream data that user equipment (UE) is sent is received, receives the second convergence configured information that Cellular Networks radio reception device is sent.

   36th, a kind of data transmission device, it is characterised in that the device includes：

   Determining module, for need non-cellular net radio reception device transmit honeycomb network data after, it is determined that For the second convergence configured information of the data type for indicating upstream data；The data type is honeycomb network data or non-cellular network data；

   Sending module, the second convergence configured information for the determining module to be determined is sent to Cellular Networks radio reception device.

   37th, device as claimed in claim 36, it is characterised in that

   The second convergence configured information includes the corresponding relation of UE marks and data type in upstream data；Or,

   The second convergence configured information includes the value and the corresponding relation of data type of identification field in upstream data；The identification field identifies the frame type in TID, or MAC in frame control domain, or the type field in MAC payloads payload for the traffic in service quality control domain in MAC header；Or,

   The second convergence configured information includes the corresponding relation of the combination of the value of identification field and UE marks and data type in the upstream data.

   38th, device as claimed in claim 37, it is characterised in that the second convergence configured information also includes：The corresponding relation of the value of identification field and shunting mode in upstream data；The shunting mode includes shunting from PDCP layers of shunting of PDCP and from wireless spread-spectrum technology rlc layer；The value of the identification field and the corresponding relation of shunting mode are used for the shunting mode that the non-cellular net radio reception device determines honeycomb network data, and the shunting mode based on determination, the upstream data is sent to Cellular Networks radio reception device and handled.