CN103875279B - Data sending, receiving method, user equipment and base station - Google Patents

Abstract

Data sending, receiving method, user equipment and base station provided in an embodiment of the present invention.This method includes：Receive major-minor stream power offset parameter and the authorization message that base station is sent；Service authority value is adjusted according to authorization message；According to the major-minor authorization data block size for flowing power offset parameter and service authority value, determining secondary flow；According to the authorization data block size of secondary flow, data filling is carried out to secondary flow transmission block；It is determined that fill the secondary flow transport block size after data and send secondary flow transmission block.Data transmission method for uplink provided in an embodiment of the present invention, for the data for how selecting to carry in secondary flow during stream transmission and the data of selection are filled in secondary flow, there is provided a kind of effective solution method.

Description

Data sending, receiving method, user equipment and base station

Technical field

The present embodiments relate to the communication technology, more particularly to a kind of data sending, receiving method, user equipment and base Stand.

Background technology

High speed uplink packet access (High Speed Uplink Packet Access, hereinafter referred to as HSUPA) technology In, network side is authorized by being sent to user equipment (User Equipment, hereinafter referred to as UE), to adjust UE authorization of service (Service Grant, hereinafter referred to as SG), UE according to SG determine send data available horsepower, then according to the available horsepower, Remaining available horsepower and data volume select the data block size of up transmission and required code character to close.

In General Mobile general-purpose system (Universal Mobile Telecommunications System, below letter Claim UMTS) in, generally use enhancing special physical data passage (E-DCH Dedicated Physical Data Channel, Hereinafter referred to as E-DPDCH) transmit upstream data.For the peak rate of further lifting user, how defeated prior art introduce Enter multi output (Multi-Input Mulit-Output, hereinafter referred to as MIMO) technology, i.e. UE is in same Transmission Time Interval Two uplink data blocks, the two uplink data blocks can be transmitted in (Transport Time Interval, hereinafter referred to as TTI) The enhancing special physical data passage E-DPDCH and auxiliary enhancing special physical data passage (Secondary of main flow are carried on respectively E-DCH Dedicated Physical Data Channel, hereinafter referred to as S-E-DPDCH) on.Therefore, how using secondary flow Carry out data transmission, turn into technical problem urgently to be resolved hurrily.

The content of the invention

The embodiment of the present invention provides a kind of data sending, receiving method, user equipment and base station, to realize to enter using secondary flow Row data transfer.

One side, the embodiment of the present invention provide a kind of data transmission method for uplink, including：

Receive major-minor stream power offset parameter and the authorization message that base station is sent；

Service authority value is adjusted according to the authorization message；

According to the major-minor authorization data block size for flowing power offset parameter and the service authority value, determining secondary flow；

According to the authorization data block size of the secondary flow, data filling is carried out to secondary flow transmission block；

It is determined that fill the secondary flow transport block size after data and send the secondary flow transmission block.

It is described according to the major-minor stream power offset parameter and the authorization of service in the first possible implementation Value, the authorization data block size of secondary flow is determined, including：

According to the service authority value, the authorization data block size of the main flow is determined；

According to the authorization data block size of the main flow and the major-minor stream power offset parameter, awarding for the secondary flow is determined Flexible strategy are according to block size；

The authorization data block size according to the secondary flow, data filling is carried out to secondary flow, including：

According to the authorization data block size of data priority order and the secondary flow, data filling is carried out to the secondary flow.

It is described according to data priority in second of possible implementation with reference to the first possible implementation The authorization data block size of order and the secondary flow, after carrying out data filling to the secondary flow, in addition to：

According to the authorization data block size of the main flow, by remaining data after secondary flow progress data filling, filling In the main flow and determine to fill the main flow transport block size after data.

It is described to be awarded according to the major-minor stream power offset parameter and the stream service in the third possible implementation Weights, before the authorization data block size for determining secondary flow, in addition to：

According to the main flow service authority value, the authorization data block size of main flow is determined；

According to the authorization data block size of the main flow, data filling is carried out to main flow transmission block, it is determined that after filling data The main flow transport block size；

The authorization data block size according to the secondary flow, data filling is carried out to secondary flow transmission block, including：

According to the authorization data block size of the secondary flow, remaining data after data filling will be carried out to the main flow, will be filled out Fill in the secondary flow and determine to fill the secondary flow transport block size after data.

With reference to the first possible implementation and the third possible implementation, in the 4th kind of possible implementation In, the remaining data include schedule information.

The first possible implementation with reference to first aspect is real to any of the 4th kind of possible implementation Existing mode, it is described according to the service authority value in the 5th kind of possible implementation, determine that the authorization data block of main flow is big It is small, including：

Residue transmission block size is determined according to maximum residual power, the residue transmission block size is the maximum residual work( The supported transport block size of rate；

Determine the authorized transmissions block size of authorization data, the authorization data comprises at least scheduling authorization data and non-scheduled One of authorization data；

Compare the residue transmission block size and the authorized transmissions block size, the data block size of the main flow is wherein Smaller.

With reference to the 5th kind of possible implementation, in the 6th kind of possible implementation, the determination authorization data Authorized transmissions block size, including：

The scheduled transmission block size of the scheduling authorization data, the scheduled transmission block are determined according to main flow service authority value Size is the maximum transport block size that the main flow service authority value is supported；

The non-scheduled transmission block size of non-scheduled data, the non-scheduled data are determined according to the data volume of non-scheduled data Including non-scheduling service data and/or schedule information, the non-scheduled transmission block size is the data volume of the non-scheduled grant The schedule information length scale sum of size and the schedule information；

The authorized transmissions block size be less than or equal to the scheduled transmission block size and the non-scheduled transmission block size it With.

It is described according to non-scheduled data in the 7th kind of possible implementation with reference to the 6th kind of possible implementation Data volume determine the non-scheduled transmission block sizes of non-scheduled data, the non-scheduled data include non-scheduling/authorization data and/ Or schedule information, including：

Using the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data；Or Person,

Using the half of the total length of the non-scheduled data volume as non-scheduled transmission block corresponding to the non-scheduled data Size；Or

Determined according to power corresponding to the major-minor stream power offset parameter and the non-scheduled data volume described non-scheduled Transport block size.

With reference to the 6th kind of possible implementation and the 7th kind of possible implementation, in the 8th kind of possible implementation In, the non-scheduling service data are filled in the main flow.

With reference to any of the first possible implementation to the 8th kind of possible implementation possible realization side Formula, in the 9th kind of possible implementation, the authorization message includes main flow service authority value and/or authorization of service renewal life Order；

It is described that service authority value is adjusted according to the authorization message, including：

According to the main flow service authority value and/or the authorization of service more newer command, the service authority value is adjusted.

Second aspect, the embodiment of the present invention provide a kind of data receiver method, including：

Major-minor stream power offset parameter and authorization message are sent to user equipment；

The secondary flow data that the user equipment is sent are received, the secondary flow data are the user equipment according to described major-minor Power offset parameter and the authorization message are flowed, determines the data block size of the secondary flow, and according to the data block of the secondary flow Obtained after size progress data filling.

In the first possible implementation, the secondary flow data for receiving the user equipment and sending, including：

The secondary flow data for receiving the user equipment and sending, including：

Receive the secondary flow data that the user equipment is filled to obtain before main flow is filled to the secondary flow.

With reference to the first possible implementation, in second of possible implementation, receiving the user equipment will Remaining data are filled into the mainstream data obtained in the main flow after secondary flow filling.

In the third possible implementation, the secondary flow data for receiving the user equipment and sending, including：

The user equipment is received first to be filled main flow and remaining data after main flow filling will be filled into described The secondary flow data obtained in secondary flow.

With reference to second of possible implementation and the third possible implementation, the possible implementation in the 4th In, the remaining data include schedule information.

3rd aspect, the embodiment of the present invention provide a kind of user equipment, including：

Receiving module, for receiving the major-minor stream power offset parameter and authorization message of base station transmission；

Adjusting module, for adjusting service authority value according to the authorization message；

Secondary flow determining module, for according to the major-minor stream power offset parameter and the service authority value, determining secondary flow Authorization data block size；

Secondary flow first fills module, for the authorization data block size according to the secondary flow, enters line number to secondary flow transmission block According to filling；

Sending module, the secondary flow transport block size after data is filled for determination and sends the secondary flow transmission block.

In the first possible implementation, the user equipment also includes：

Main flow determining module, for according to the service authority value, determining the authorization data block size of the main flow；

The secondary flow first fills module, specifically for the authorization data block according to data priority order and the secondary flow Size, data filling is carried out to the secondary flow.

With reference to the first possible implementation, in second of possible implementation, the user equipment, in addition to：

Main flow first fill module, for by the secondary flow carry out data filling after remaining data, according to the main flow Authorization data block size, to main flow transmission block carry out data filling and determine fill data after the main flow transmission block it is big It is small.

In the third possible implementation, the user equipment, in addition to：

Main flow determining module, for according to the service authority value, determining the authorization data block size of the main flow；

Main flow second fills module, for the authorization data block size according to the main flow, enters line number to main flow transmission block According to filling, it is determined that the main flow transport block size after filling data；

Secondary flow second fills module, for the authorization data block size according to the secondary flow, will enter line number to the main flow According to remaining data after filling, it is filled in the secondary flow and determines to fill the secondary flow transport block size after data.

With reference to the first possible implementation to any of the third possible implementation implementation, In four kinds of possible implementations, the main flow determining module, including：

First determining unit, for determining residue transmission block size according to maximum residual power, the residue transmission block is big Small is the supported transport block size of maximum residual power；

Second determining unit, for determining the authorized transmissions block size of authorization data, the authorization data, which comprises at least, to be adjusted Spend one of authorization data and non-scheduled grant data；

Comparing unit, for the residue transmission block size and the authorized transmissions block size, the number of the main flow It is wherein smaller according to block size.

With reference to the 4th kind of possible implementation, in the 5th kind of possible implementation, second determining unit, wrap Include：

First subelement, for determining that the scheduled transmission block of the scheduling authorization data is big according to main flow service authority value Small, the scheduled transmission block size is the maximum transport block size that the main flow service authority value is supported；And/or

Second subelement, for determining that the non-scheduled transmission block of non-scheduled data is big according to the data volume of non-scheduled data Small, the non-scheduled data include non-scheduling service data and/or schedule information, and the non-scheduled transmission block size is described non- The data volume size of scheduling authorization and the schedule information length scale sum of the schedule information；

3rd subelement, for determining authorized transmissions block size, the authorized transmissions block size is less than or equal to the scheduling Transport block size and the non-scheduled transmission block size sum.

With reference to the 5th kind of possible implementation, in the 6th kind of possible implementation, second subelement, specifically For,

Using the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data；Or Person,

Using the half of the total length of the non-scheduled data volume as non-scheduled transmission block corresponding to the non-scheduled data Size；Or

Determined according to power corresponding to the major-minor stream power offset parameter and the non-scheduled data volume described non-scheduled Transport block size.

With reference to the first possible implementation to the 6th kind of any possible implementation, in the 7th kind of possible reality In existing mode, the authorization message includes main flow service authority value and/or authorization of service more newer command；

The adjusting module, specifically for according to the main flow service authority value and/or the authorization of service more newer command, Adjust the service authority value.

4th aspect, the embodiment of the present invention provide a kind of base station, including：

Sending module, for sending major-minor stream power offset parameter and authorization message to user equipment；

Receiving module, the secondary flow data sent for receiving the user equipment, the secondary flow data are that the user sets It is standby that the data block size of the secondary flow is determined according to the major-minor stream power offset parameter and the main flow service authority value, And obtained after according to the data block size of the secondary flow carrying out data filling.

In the first possible implementation, the receiving module, specifically for receiving the user equipment filling master The data being filled before stream to the secondary flow.

With reference to the first possible implementation, in second of possible implementation, the receiving module, it is additionally operable to Receive remaining data after the user equipment fills secondary flow and be filled into the mainstream data obtained in the main flow.

In the third is probably implementation, the receiving module, receiving the user equipment will be surplus to main flow filling Remaining data are filled into the data of the secondary flow.

5th aspect, the embodiment of the present invention provide a kind of user equipment, including：

Receiver, for receiving the major-minor stream power offset parameter and authorization message of base station transmission；

Processor, it is used for, service authority value is adjusted according to the authorization message；According to the major-minor stream power offset parameter With the service authority value, the authorization data block size of secondary flow is determined；According to the authorization data block size of the secondary flow, to secondary flow Transmission block carries out data filling；

Transmitter, the secondary flow transport block size after data is filled for determination and sends the secondary flow transmission block.

In the first possible implementation, the processor is additionally operable to：

According to the service authority value, the authorization data block size of the main flow is determined；According to data priority order and The authorization data block size of the secondary flow, data filling is carried out to the secondary flow.

With reference to the first possible implementation, in second of possible implementation, the processor is additionally operable to：Will The secondary flow carries out remaining data after data filling, and according to the authorization data block size of the main flow, main flow transmission block is entered Row data are filled and determine to fill the main flow transport block size after data.

In the third possible implementation, the processor is additionally operable to：According to the main flow service authority value, it is determined that The authorization data block size of main flow；According to the authorization data block size of the main flow, data filling is carried out to main flow transmission block, really Surely the main flow transport block size after data is filled；According to the authorization data block size of the secondary flow, the main flow will be entered Remaining data after the filling of row data, it is filled in the secondary flow and determines to fill the secondary flow transport block size after data.

With reference to second of possible implementation and the third possible implementation, in the 4th kind of possible implementation In, the remaining data of the processor filling include schedule information.

With reference to any of the first possible implementation to the 4th kind of possible implementation mode, at the 5th kind In possible implementation, the processor is specifically used for：Residue transmission block size is determined according to maximum residual power, it is described surplus Remaining transport block size is the supported transport block size of maximum residual power；Determine that the authorized transmissions block of authorization data is big Small, the authorization data comprises at least one of scheduling authorization data and non-scheduled grant data；Compare the residue transmission Block size and the authorized transmissions block size, the data block size of the main flow is wherein smaller.

With reference to the 5th kind of possible implementation, in the 6th kind of possible implementation, the processor is specifically used for： The scheduled transmission block size of the scheduling authorization data is determined according to main flow service authority value, the scheduled transmission block size is institute State the maximum transport block size of main flow service authority value support；And/or

The non-scheduled transmission block size of non-scheduled data, the non-scheduled data are determined according to the data volume of non-scheduled data Including non-scheduling service data and/or schedule information, the non-scheduled transmission block size is the data volume of the non-scheduled grant The schedule information length scale sum of size and the schedule information；

Determine authorized transmissions block size, the authorized transmissions block size be less than or equal to the scheduled transmission block size with it is described Non-scheduled transmission block size sum.

With reference to the 6th kind of possible implementation, in the 7th kind of possible implementation, the processor is specifically used for：

Using the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data；Or Person,

Using the half of the total length of the non-scheduled data volume as non-scheduled transmission block corresponding to the non-scheduled data Size；Or

Determined according to power corresponding to the major-minor stream power offset parameter and the non-scheduled data volume described non-scheduled Transport block size.

With reference to the 6th kind of possible implementation and the 7th kind of possible implementation, in the 8th kind of possible implementation In, the non-scheduling service data of the processor processing are filled in the main flow.

With reference to the first possible implementation of the 5th aspect and the 5th aspect to the 8th kind of possible realization side Any of formula mode, in the 9th kind of possible implementation, the authorization message include main flow service authority value and/or Authorization of service more newer command；

The adjuster, specifically for according to the main flow service authority value and/or the authorization of service more newer command, adjusting The whole service authority value.

6th aspect, the embodiment of the present invention provide a kind of base station, including：

Transmitter, for sending major-minor stream power offset parameter and authorization message to user equipment；

Receiver, the secondary flow data sent for receiving the user equipment, the secondary flow data are the user equipment According to the major-minor data block size for flowing power offset parameter and the main flow service authority value, determining the secondary flow, and According to what is obtained after the progress data filling of the data block size of the secondary flow.

In the first possible implementation, the receiver, main flow is filled specifically for receiving the user equipment The data being filled before to the secondary flow.

In second of possible implementation, the receiver, it is additionally operable to receive the user equipment and fills secondary flow Remaining data are filled into the mainstream data obtained in the main flow afterwards.

In the third possible implementation, the receiver, residue will be filled to main flow by receiving the user equipment Data be filled into the data of the secondary flow.

Data transmission method for uplink, data receiver method, user equipment and base station provided in an embodiment of the present invention, send out according to base station The service authority value of the authorization message adjustment user equipment sent, the major-minor stream power bias issued according to service authority value and base station Parameter determines the authorization data block size of secondary flow, and carries out data filling to secondary flow according to the authorization data block size of secondary flow, really The size of secondary flow transmission block after fixed filling is to occur secondary flow transmission block, during the transmission data for efficiently solving double fluid, The problem of how selecting the data being carried in secondary flow.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are this hairs Some bright embodiments, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the flow chart of data transmission method for uplink embodiment one of the present invention；

Fig. 2 is the flow chart of data transmission method for uplink embodiment two of the present invention；

Fig. 3 is the flow chart of data transmission method for uplink embodiment three of the present invention；

Fig. 4 is the flow chart of data receiver method embodiment one of the present invention；

Fig. 5 is the structural representation of user equipment embodiment one of the present invention；

Fig. 6 is the structural representation of user equipment embodiment two of the present invention；

Fig. 7 is the structural representation of user equipment embodiment three of the present invention；

Fig. 8 is the refinement structural representation of the main flow determining module 6 of user equipment embodiment two shown in Fig. 7；

Fig. 9 is the structural representation of base station embodiment one of the present invention；

Figure 10 is the structural representation of user equipment example IV of the present invention；

Figure 11 is the structural representation of base station embodiment two of the present invention.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

The techniques described herein may be used in various communication systems, such as current 2G, 3G communication system and next generation communication System, for example, global system for mobile communications (Global System for Mobile communications, hereinafter referred to as GSM), CDMA (Code Division Multiple Access, hereinafter referred to as CDMA) system, time division multiple acess (Time Division Multiple Access, hereinafter referred to as TDMA) system, WCDMA (Wideband Code Division Multiple Access Wireless, hereinafter referred to as WCDMA), frequency division multiple access (Frequency Division Multiple Addressing, hereinafter referred to as FDMA) system, OFDM (Orthogonal Frequency- Division Multiple Access, hereinafter referred to as OFDMA) system, Single Carrier Frequency Division Multiple Access (SC-FDMA) system, general packet Wireless traffic (General Packet Radio Service, hereinafter referred to as GPRS) system, Long Term Evolution (Long Term Evolution, hereinafter referred to as LTE) system, and other such communication systems.

Various aspects are described herein in connection with user equipment and/or base station and/or base station controller.

User equipment, can be that wireless terminal can also be catv terminal, wireless terminal can refer to provide a user language The equipment of sound and/or data connectivity, there is the portable equipment of wireless connecting function or be connected to radio modem Other processing equipments.Wireless terminal can through wireless access network (for example, RAN, Radio Access Network) with one or Multiple core nets are communicated, and wireless terminal can be mobile terminal, such as mobile phone (or being " honeycomb " phone) and are had The computer of mobile terminal, for example, it may be portable, pocket, hand-held, built-in computer or vehicle-mounted mobile dress Put, they exchange language and/or data with wireless access network.For example, PCS (Personal Communication Service, hereinafter referred to as PCS) phone, wireless phone, Session initiation Protocol (SIP) phone, WLL (Wireless Local Loop, hereinafter referred to as WLL) stand, personal digital assistant (Personal Digital Assistant, hereinafter referred to as The equipment such as PDA).Wireless terminal is referred to as system, subscri er unit (Subscriber Unit), subscriber station (Subscriber Station), movement station (Mobile Station), mobile station (Mobile), distant station (Remote Station), access point (Access Point), remote terminal (Remote Terminal), access terminal (Access Terminal), user terminal (User Terminal), user agent (User Agent), user equipment (User Device) or subscriber's installation (User Equipment)。

Base station (for example, access point) can refer in access network in the air on interface by one or more sectors with it is wireless The equipment of terminal communication.Base station can be used for mutually being changed the air frame received and IP packets, as wireless terminal with connecing The remainder of router between the remainder of networking, wherein access network may include Internet protocol (IP) network.Base station is also Attribute management of the tunable to air interface.For example, base station can be base station (the Base Transceiver in GSM or CDMA Station, hereinafter referred to as BTS) or WCDMA in base station (NodeB), can also be the evolved base station in LTE (NodeB or eNB or e-NodeB, evolutional Node B), the application does not limit.

Base station controller, can be in GSM or CDMA base station controller (base station controller, below Abbreviation BSC) or WCDMA in radio network controller (Radio Network Controller, hereinafter referred to as RNC), the application does not limit.

In addition, the terms " system " and " network " are often used interchangeably herein.The terms " and/ Or ", only a kind of incidence relation for describing affiliated partner, represents there may be three kinds of relations, for example, A and/or B, can be with table Show：Individualism A, while A and B be present, these three situations of individualism B.In addition, character "/" herein, is typicallyed represent front and rear Affiliated partner is a kind of relation of "or".

Fig. 1 is the flow chart of data transmission method for uplink embodiment one of the present invention.As shown in figure 1, the method for the present embodiment can be with As described below.

101：Receive major-minor stream power offset parameter and the authorization message that base station is sent.

User equipment receives major-minor stream power offset parameter and the authorization message that base station is sent.Wherein, major-minor stream power is inclined Put the factor that parameter can be major-minor stream power proportions, or the difference in units of decibel.

102：Service authority value is adjusted according to authorization message.

User equipment according to authorization message adjust self maintained service authority value (Service Grant, hereinafter referred to as SG)。

103：According to the major-minor authorization data block size for flowing power offset parameter and service authority value, determining secondary flow.

Major-minor stream power offset parameter that user equipment issues according to base station and the service after being adjusted according to authorization message are awarded Weights determine the authorization data block size of secondary flow.

104：According to the authorization data block size of secondary flow, data filling is carried out to secondary flow transmission block；

User equipment is according to the authorization data block size of secondary flow, data of the selection less than or equal to this authorization data block size Block carries out data filling to secondary flow.

105：It is determined that the secondary flow transport block size after data is filled to send secondary flow transmission block.

After being filled to secondary flow, it is determined that the size of the secondary flow transmission block after filling, sends the secondary flow transmission block.

The data transmission method for uplink that the present embodiment provides, the service that the authorization message sent according to base station adjusts user equipment are awarded Weights, the major-minor stream power offset parameter issued according to service authority value and base station determine the authorization data block size of secondary flow, and Data filling is carried out to secondary flow according to the authorization data block size of secondary flow, it is determined that the size of the secondary flow transmission block after filling is to occur Secondary flow transmission block, during the transmission data for efficiently solving double fluid, the problem of how selecting the data being carried in secondary flow.

In above-described embodiment, authorization message includes comprising at least main flow service authority value with authorization of service more newer command wherein One of, main flow service authority value is specially the absolute grant (Absolute Grant, hereinafter referred to as AG) that base station issues, and service is awarded Weigh more newer command, the relative authorization (Relative Grant, hereinafter referred to as RG) that specially base station issues, user equipment according to AG, RG are adjusted to SG.Specifically, user equipment can store a SG form, each corresponding number of SG in form it is believed that The power ratio of road relative pilot channel, when sending AG adjustment every time, user equipment can find a corresponding SG value according to AG, It is relative adjustment when sending RG adjustment.

Fig. 2 is the flow chart of data transmission method for uplink embodiment two of the present invention.As shown in Fig. 2 the method for the present embodiment can be with As described below.

201：Receive major-minor stream power offset parameter and the authorization message that base station is sent；

202：Service authority value is adjusted according to authorization message；

Specifically, referring to 101,102 in Fig. 1 embodiments one, here is omitted.

203：According to service authority value, the authorization data block size of main flow is determined.

User equipment calculates the transmission power of user equipment permission according to service authority value, such as, it is allowed to the work(of transmitting Rate be service authority value and Dedicated Physical Control Channel (Dedicated Physical Control Channel, hereinafter referred to as DPCCH) the product of power, i.e. SG value × DPCCH Power), then by this power and the remaining maximum work of user equipment Rate and scheduling authorization data power corresponding with the data block length of non-scheduled grant data are made comparisons, and take wherein smaller as master The maximum transmission power that the authorization data block of stream is supported, according to the maximum transmission power of the support the maximum of transmission can be selected to pass Defeated block length.Specifically, the enhanced transport format combination of one data block that can be used of user equipment internal maintenance (Enhanced-Transport Format Combination, hereinafter referred to as E-TFC) form, store data block length and power Than the reference value of relation, user equipment can calculate the transmit power that each transmission block needs, Ran Hougen according to this reference value Corresponding maximum transmitted block length is found according to the transmit power of permission.

204：According to the authorization data block size of main flow and major-minor stream power offset parameter, the authorization data block of secondary flow is determined Size.

User equipment calculates the power bias that main flow uses according to the authorization data block size of main flow, according to the work(of main flow Rate biasing calculates the authorization power biasing of secondary flow, according to the authorization power offset parameter of secondary flow, calculates the mandate number of secondary flow According to block size.

205：According to the authorization data block size of data priority order and secondary flow, data filling is carried out to secondary flow.

User equipment is according to the authorization data block size of secondary flow, according to the priority orders of data from high to low, that is, patrol Collect channel priority order and data filling is carried out to secondary flow, according to result is filled, determine the transport block size of secondary flow.

206：By remaining data after secondary flow progress data filling, according to the authorization data block size of main flow, main flow is passed Defeated piece of progress data filling, and determine the transport block size of main flow.

Secondary flow is filled remaining data by user equipment, according to the priority orders of data from high in the end, that is, logic letter Road priority orders carry out data filling to secondary flow, according to filling result, it is determined that main transport block size, especially, when remaining When data include schedule information, in the present embodiment, schedule information is typically in main flow filling.

For example, in 205, user equipment determines that the authorization data block size of secondary flow is 10 bits, the data volume to be transmitted For 15 bits, secondary flow filling is first carried out, then the transport block size of the secondary flow after filling is 10 bits, by remaining 5 bit padding In main flow, the transport block size of main flow is 5 bits.After main flow and secondary flow data are filled, according to what is calculated in 203 Power corresponding to the authorized transmissions block of main flow, carry out data transmission.

The data transmission method for uplink that the present embodiment provides, the service that the authorization message sent according to base station adjusts user equipment are awarded Weights, according to service authority value, the authorization data block size of main flow is determined, and then determine that the authorization data block of secondary flow is big It is small, data filling first is carried out to secondary flow, then remaining data are filled in main flow, main flow and secondary flow are sent after filling Data.

Fig. 3 is the flow chart of data transmission method for uplink embodiment three of the present invention.As shown in figure 3, the method for the present embodiment can be with As described below.

301：Receive major-minor stream power offset parameter and the authorization message that base station is sent；

302：Service authority value is adjusted according to authorization message；

303：According to service authority value, the authorization data block size of main flow is determined；

304：According to the authorization data block size of main flow, data filling is carried out to main flow, and according to filling result, it is determined that main The size of streaming block；

305：According to the authorization data block size of main flow and major-minor stream power offset parameter, the authorization data block of secondary flow is determined Size；

306：Data filling is carried out to secondary flow, according to result is filled, determines the size of secondary flow transmission block.

Comparison diagram 2 is understood, in the present embodiment, after the authorization data block size of main flow is determined, enters line number to main flow According to filling and determining the transport block size of main flow, then according to the authorization data block size of main flow and major-minor stream power bias ginseng Number, determine the authorization data block size of secondary flow.Further according to the authorization data block size for the secondary flow determined, main flow is filled remaining Data data filling is carried out to secondary flow and the transport block size of secondary flow is determined according to filling result, finally, send main flow with it is auxiliary Flow data, especially, when remaining data include schedule information, in the present embodiment, schedule information is typically in secondary flow filling.

Understood with reference to Fig. 2 and Fig. 3, in data transmission method for uplink provided in an embodiment of the present invention, it may be determined that go out awarding for main flow Flexible strategy determine the authorization data block size of secondary flow according to block size, first carry out data filling to secondary flow, then secondary flow is filled Remaining data are filled in main flow；Data can also be carried out to main flow after the authorization data block size of main flow is determined Filling, main flow determines the authorization data block size of secondary flow again after filling, according to the authorization data block size of secondary flow, by main flow The transport block size that remaining data are filled in secondary flow and determine secondary flow is filled, according to the transport block size of main flow and secondary flow Transport block size, suitable power is selected to carry out data transmission.User equipment can flexibly select the filling to secondary flow and main flow Order is to carry out data filling and then send main flow and secondary flow data.Because data are according to priority to fill in descending order, First filling main flow can be such that the data of high priority are filled into main flow.Comparatively, the reliability of main flow is compared with better than secondary flow Reliability, the correctness that can ensure that the data of high priority are sent first is filled to main flow, but first filling out main flow can cause High-priority data and non-scheduled data compete the available horsepower of main flow together, if high-priority data is more, can cause non- Scheduling data can not be sent.Therefore, first secondary flow being filled can allow high-priority data to be first filled into secondary flow so that The data of high priority can be sent not in main flow with non-scheduled data contention resource, guarantee high priority and non-scheduled data Go out.

In above-described embodiment, the authorization data block size of main flow is according to the maximum residual power and authorization data of user equipment It is determined that.

Specifically, assume that peak power corresponding to the authorization data block of user equipment main flow is C, according to service authority value meter The peak power for calculating the support of authorized transmissions block is A；The peak power of residue transmission block support is determined according to maximum residual power For B, then peak power corresponding to the authorization data block of main flow is C=MIN { A, B }.Wherein, the maximum work that residue transmission block is supported Rate is that B is the use power that the total available transmit power of user equipment subtracts control channel, and this power divided by 2 are obtained into user and set The standby maximum available power on single stream, the residue transmission block size supported then is calculated according to the maximum available power and is supported Peak power.

In same Transmission Time Interval, authorization data comprise at least scheduling authorization data and non-scheduled grant data its One of, and non-scheduled grant packet includes non-scheduling service data and/or schedule information (Scheduling Information, hereinafter referred to as SI).Assuming that the scheduling authorization size of data for needing to transmit is expressed as a, it is necessary to the non-tune of transmission Degree business datum size be expressed as b, it is necessary to transmission SI sizes be expressed as c, if authorization data only packet scheduling authorization data, Authorized transmissions block size is A=a；If in authorization data in addition to scheduling authorization data, in addition to non-scheduled grant data, then award Power transport block size is A=a+b, or A=a+c, or A=a+b+c.

In above-described embodiment, if authorization data also includes non-scheduled data, it can be determined by following several ways non- Dispatch and authorize maximum block length in data volume corresponding to non-scheduling service data：

Using the total length of non-scheduled data volume as non-scheduled grant transport block size corresponding to non-scheduled data；Or Using the half of the total length of non-scheduled data volume as non-scheduled grant transport block size corresponding to non-scheduled data；Or root Determine to authorize non-scheduled transmission block size according to power corresponding to major-minor stream power offset parameter and non-scheduled data volume, for example, will Power corresponding to non-scheduled data volume is expressed as P1, and major-minor stream power offset parameter is expressed as S, then according to formulaMeter The result calculated is the power that largest block length corresponding to non-scheduling service data is supported.For example, non-scheduling service data are 10 Bit, in the first way, the block length of non-scheduled data is 10 bits；In the second way, the block length of non-scheduled data For 5 bits；In the third mode, it is assumed that S 0.8, it is determined that a length of 10*0.8/1.8=4 bits of non-scheduled data block. Authorize block length also different corresponding to non-scheduling service data it can thus be seen that being calculated using distinct methods, the bigger need of block length The power wanted is bigger.

It is total it is above-mentioned understand, in the embodiment of the present invention, the authorization data block size of main flow is no more than user equipment according to most The residue transmission block size that big dump power calculates, the size of authorization data transmission block can not be exceeded, that is,：Scheduling authorization The scheduled transmission block of data and the non-scheduled transmission block size sum of non-scheduled grant data.

In above-mentioned fact Example, if authorization data includes non-scheduled data, it is preferred that non-scheduling service data are entered in main flow Row data are filled, because non-scheduling service is delay sensitive business, it is necessary to be transmitted again on high reliability stream, therefore preferably main flow again Transmission.Preferably, filled in the data flow that schedule information SI is once filled after, that is, Fig. 2 is refer to, fills secondary flow in the ban When refilling main flow, SI is filled in main flow；Fig. 3 is refer to again, and when filling main flow refills secondary flow in the ban, SI is in secondary flow Middle filling.According to current technology, data block size during transmission is a discrete transport block set, and UE can only be from this collection Select the transmission block of specific size in conjunction, for example available transmission block is 100 bits in set, 200 bits, 300 bits, and UE Data volume be random, for example be probably 120 bits, 350 than top grade, when UE can select one according to when authorizing and filling data The block closest to data volume allowed is authorized, for example authorizes 200 bits, UE data volumes are 120 bits, then UE can select 200 ratios Special block length, 80 vacant bits can go to fill schedule information.It is this idle that bit only appears in finally filled number According on block, therefore, schedule information, which is filled in finally filled data block, can make full use of idle bit.

Fig. 4 is the flow chart of data receiver method embodiment one of the present invention.As shown in figure 4, the method for the present embodiment can be with As described below.

401：Major-minor stream power offset parameter and authorization message are sent to user equipment；

402：Receive the secondary flow data that user equipment is sent.

Base station sends major-minor stream power offset parameter to user equipment and authorization message, authorization message specifically include：Main flow Service authority value AG and authorization of service more newer command RG, so that obtaining user equipment adjusts the service authority value of itself according to AG, RG SG；Treat that base station adjusts service authority value SG according to major-minor stream power offset parameter and authorization message and carries out data to main flow and secondary flow Fill and send main flow transmission block and during secondary flow transmission block, base station receives user equipment and sends secondary flow data.

Data receiver method provided in an embodiment of the present invention, the secondary flow data of progress secondary flow filling are set by receiving user, During the transmission data for efficiently solving double fluid, the problem of how selecting the data being carried in secondary flow.

In one embodiment of this invention, the main flow and secondary flow data that base station receives can be that user equipment first enters to secondary flow The main flow and secondary flow data that row filling is filled and sent to main flow again, wherein, schedule information is usually what is received from main flow.

In another embodiment of the invention, the main flow and secondary flow data that base station receives can be user equipment first to main flow The main flow and secondary flow data filled and sent to secondary flow again are filled, wherein, schedule information is usually to be received from secondary flow 's.

Fig. 5 is the structural representation of user equipment embodiment one of the present invention.It is as shown in figure 5, provided in an embodiment of the present invention User equipment can include：Receiving module 1, adjusting module 2, secondary flow determining module 3, secondary flow first fill module 41, send mould Block 5.

Receiving module 1, for receiving the major-minor stream power offset parameter and authorization message of base station transmission；

Adjusting module 2, for adjusting service authority value according to authorization message；

Secondary flow determining module 3, for according to the major-minor mandate number for flowing power offset parameter and service authority value, determining secondary flow According to block size；

Secondary flow first fills module 41, and for the authorization data block size according to secondary flow, data are carried out to secondary flow transmission block Filling；

Sending module 5, the secondary flow transport block size after data is filled for determination and sends secondary flow transmission block.

The device of the present embodiment, it can be used for the technical scheme for performing embodiment of the method shown in Fig. 1, its realization principle and skill Art effect is similar, and here is omitted.

Fig. 6 is the structural representation of user equipment embodiment two of the present invention.As shown in fig. 6, the user equipment of the present embodiment On the basis of Fig. 5 embodiments, further, it can also include：Main flow determining module 6, main flow first fill module 71.

Main flow determining module 6, for according to service authority value, determining the authorization data block size of main flow；

Secondary flow first fills module 41, specifically for the authorization data block size according to data priority order and secondary flow, Data filling is carried out to secondary flow；

Main flow first fill module 71, for by secondary flow carry out data filling after remaining data, according to the mandate of main flow Data block size, data filling is carried out to main flow transmission block and determines to fill the main flow transport block size after data.

The device of the present embodiment, it can be used for the technical scheme for performing embodiment of the method shown in Fig. 2, its realization principle and skill Art effect is similar, and here is omitted.

Fig. 7 is the structural representation of user equipment embodiment three of the present invention.As shown in fig. 7, the user equipment of the present embodiment On the basis of Fig. 5 embodiments, further, it can also include：Main flow determining module 6, main flow second fill module 72 and auxiliary The filling module 42 of stream second.

Main flow determining module 6, for the authorization data block size according to main flow, data filling is carried out to main flow transmission block, It is determined that the main flow transport block size after filling data；

Main flow second fills module 72, and for the authorization data block size according to main flow, data are carried out to main flow transmission block Filling, it is determined that the main flow transport block size after filling data；

Secondary flow second fills module 42, has for that will carry out remaining data after data filling to main flow, according to secondary flow Authorization data block size, data filling is carried out to secondary flow transmission block.

The device of the present embodiment, it can be used for the technical scheme for performing embodiment of the method shown in Fig. 3, its realization principle and skill Art effect is similar, and here is omitted.

Fig. 8 is the refinement structural representation of the main flow determining module 6 of user equipment embodiment two shown in Fig. 7, such as Fig. 8 institutes Show, main flow determining module 6, including：

First determining unit 61, for determining residue transmission block size, residue transmission block size according to maximum residual power For the supported transport block size of maximum residual power；

Second determining unit 62, for determining the authorized transmissions block size of authorization data, authorization data comprises at least scheduling One of authorization data and non-scheduled grant data；

Comparing unit 63, for comparing residue transmission block size and authorized transmissions block size, the data block size of main flow is Wherein smaller.

Specifically, referring to the description of the authorization data block size in embodiment of the method for main flow, here is omitted.

In another embodiment of the invention, Fig. 8, the second determining unit of the main flow module 6 of user equipment be refer to then 62 specifically include：

First subelement 621, for determining the scheduled transmission block size of scheduling authorization data according to main flow service authority value, Scheduled transmission block size is the maximum transport block size that main flow service authority value is supported；And/or

Second subelement 622, for determining the non-scheduled transmission block of non-scheduled data according to the data volume of non-scheduled data Size, non-scheduled data include non-scheduling service data and/or schedule information, and non-scheduled transmission block size is non-scheduled grant The schedule information length scale sum of data volume size and schedule information；

3rd subelement 623, for determining authorized transmissions block size, authorized transmissions block size is less than or equal to scheduled transmission block Size and non-scheduled transmission block size sum.

Wherein, the second subelement, it is specifically used for, using the total length of non-scheduled data volume as non-corresponding to non-scheduled data Scheduled transmission block size；Or using the half of the total length of non-scheduled data volume as non-scheduled biography corresponding to non-scheduled data Defeated block size；Or the power according to corresponding to major-minor stream power offset parameter and non-scheduled data volume determines non-scheduled transmission block Size.

Specifically, the data block size referred in embodiment of the method for non-scheduled data determines the description of method, this Place repeats no more.

In an alternative embodiment of the invention, authorization message includes main flow service authority value and/or authorization of service more newer command；

Adjusting module 2, specifically for being awarded according to main flow service authority value and/or authorization of service more newer command, adjustment service Weights.

Fig. 9 is the structural representation of base station embodiment one of the present invention, as shown in figure 9, the base station of the present embodiment can include： Sending module 91, receiving module 92.

Sending module 91, for sending major-minor stream power offset parameter and authorization message to user equipment；

Receiving module 92, for receiving the secondary flow data of user equipment transmission, secondary flow data are user equipment according to major-minor Power offset parameter and main flow service authority value are flowed, determines the data block size of secondary flow, and according to the data block size of secondary flow Obtained after progress data filling.

The device of the present embodiment, it can be used for the technical scheme for performing embodiment of the method shown in Fig. 4, its realization principle and skill Art effect is similar, and here is omitted.

In another embodiment of the invention, receiving module is specifically used for receiving user equipment filling main flow before to secondary flow The data being filled.Data filling is first carried out to main flow and then again fills out main flow specifically, receiving module receives user equipment Fill the remaining data secondary flow data being filled in secondary flow and the mainstream data first filled.

In another embodiment of the present invention, receiving module is specifically used for receiving what user equipment was first filled secondary flow Secondary flow data and user equipment after secondary flow is filled remaining data be filled into the mainstream data obtained in main flow.

Figure 10 is the structural representation of user equipment example IV of the present invention, and as shown in Figure 10, the user of the present embodiment sets Standby 1000 include at least one CPU1001, at least one network interface 1004 or other users interface 1003, memory 1005 An at least communication bus 1002.Communication bus 1002 is used to realize the connection communication between each device.Optionally, the user sets It is standby comprising user interface 1003, including display, keyboard or other pointing devices.Memory 1005 may include at a high speed RAM memory, nonvolatile memory (non-volatile memory), for example, at least one magnetic disk storage.Memory 1005 can optionally include at least one storage device for being located remotely from foregoing CPU1001.In some embodiments, store Device 1005 stores following element, coding, module either data structure or their subset, or their superset； Operating system 1006, comprising various programs, for realizing various basic businesses and the hardware based task of processing；

Receiver 1010, for receiving the major-minor stream power offset parameter and authorization message of base station transmission；

Processor 1020, for adjusting service authority value according to authorization message；For according to major-minor stream power offset parameter And service authority value, determine the authorization data block size of secondary flow；For the authorization data block size according to secondary flow, secondary flow is transmitted Block carries out data filling；

Transmitter 1030, the secondary flow transport block size after data is filled for determination and sends secondary flow transmission block.

The user equipment that the present embodiment provides, including the core component for processing business, due to specific with embodiment Purpose is uncorrelated, will not be described here.Receiver 1010, processor 1020, the course of work of transmitter 1030 in Fig. 5 respectively with using The course of work of the modules of family equipment is approximate, and here is omitted.

Further, above-mentioned processor is additionally operable to：According to service authority value, the authorization data block size of main flow is determined； According to the authorization data block size of data priority order and secondary flow, data filling is carried out to secondary flow.

Further, above-mentioned processor is additionally operable to：By secondary flow carry out data filling after remaining data, according to main flow Authorization data block size, data filling is carried out to main flow transmission block and determines to fill the main flow transport block size after data.

Further, above-mentioned processor is additionally operable to：According to service authority value, the authorization data block size of main flow is determined； According to the authorization data block size of main flow, data filling is carried out to main flow transmission block, it is determined that the main flow transmission block after filling data Size；According to the authorization data block size of secondary flow, remaining data after data filling will be carried out to main flow, will be filled in secondary flow simultaneously It is determined that the secondary flow transport block size after filling data.

Further, above-mentioned processor is additionally operable to：Residue transmission block size is determined according to maximum residual power, residue passes Defeated block size is the supported transport block size of maximum residual power；The authorized transmissions block size of authorization data is determined, authorizes number According to including at least one of scheduling authorization data and non-scheduled grant data；Compare residue transmission block size and authorized transmissions block Size, the data block size of main flow is wherein smaller.

Further, above-mentioned processor is additionally operable to：The scheduling of scheduling authorization data is determined according to main flow service authority value Transport block size, scheduled transmission block size are the maximum transport block size that main flow service authority value is supported；And/or

The non-scheduled transmission block size of non-scheduled data is determined according to the data volume of non-scheduled data, non-scheduled data include Non-scheduling service data and/or schedule information, non-scheduled transmission block size are believed for the data volume size of non-scheduled grant with scheduling The schedule information length scale sum of breath；

Authorized transmissions block size is determined, authorized transmissions block size is less than or equal to scheduled transmission block size and non-scheduled transmission block Size sum.

Further, above-mentioned processor is additionally operable to：It is corresponding using the total length of non-scheduled data volume as non-scheduled data Non-scheduled transmission block size；Or

Using the half of the total length of non-scheduled data volume as non-scheduled transmission block size corresponding to non-scheduled data；Or Person,

Non-scheduled transmission block size is determined according to power corresponding to major-minor stream power offset parameter and non-scheduled data volume.

Further, above-mentioned processor is additionally operable to：Authorization message includes main flow service authority value and/or authorization of service more Newer command；

Processor, specifically for according to main flow service authority value and/or authorization of service more newer command, adjusting authorization of service Value.

The structural representation of Figure 11 base station embodiments two of the present invention, as shown in figure 11, the base station 1100 of the present embodiment can be with Including：At least one CPU1101, at least one network interface 1104 or other users interface 1103, memory 1105 and extremely A few communication bus 1102.Communication bus 1102 is used to realize the connection communication between each device.The user equipment optionally wraps Containing user interface 1103, including viewing area, keyboard or other pointing devices.Memory 1105 may include high-speed RAM and store Device, nonvolatile memory (non-volatile memory), for example, at least one magnetic disk storage.Memory 1105 is optional Can include at least one storage device for being located remotely from foregoing CPU1101.In some embodiments, memory 1105 is deposited Following element, coding, module either data structure or their subset, or their superset are stored up；Operating system 1106, comprising various programs, for realizing various basic businesses and the hardware based task of processing.

Transmitter 1110, for sending major-minor stream power offset parameter and authorization message to user equipment；

Receiver 1120, for receiving the secondary flow data of user equipment transmission, secondary flow data are user equipment according to major-minor Power offset parameter and main flow service authority value are flowed, determines the data block size of secondary flow, and according to the data block size of secondary flow Obtained after progress data filling.

The base station of the present embodiment, transmitter 1110, the course of work sending module with Fig. 9 base stations respectively of receiver 1120 91st, the course of work of receiving module 92 is approximate, and here is omitted.

In another embodiment of the invention, receiver 1120 is specifically used for receiving user equipment filling main flow before to auxiliary The data that stream is filled.Specifically, the reception of receiver 1120 user equipment first carries out data filling to main flow and then again will master Stream fills the remaining data secondary flow data being filled in secondary flow and the mainstream data first filled.

In another embodiment of the present invention, receiver 1120 is specifically used for reception user equipment and first secondary flow is filled Secondary flow data and user equipment secondary flow is filled after remaining data be filled into the mainstream data obtained in main flow.

Data transmission method for uplink, data receiver method, user equipment and base station provided in an embodiment of the present invention, send out according to base station The service authority value of the authorization message adjustment user equipment sent, the major-minor stream power bias issued according to service authority value and base station Parameter determines the authorization data block size of secondary flow, and carries out data filling to secondary flow according to the authorization data block size of secondary flow, really The size of secondary flow transmission block after fixed filling is to occur secondary flow transmission block, during the transmission data for efficiently solving double fluid, The problem of how selecting the data being carried in secondary flow.

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

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method can be with Realize by another way.For example, device embodiment described above is only schematical, for example, the module or The division of unit, only a kind of division of logic function, can there are other dividing mode, such as multiple units when actually realizing Or component can combine or be desirably integrated into another system, or some features can be ignored, or not perform.It is another, institute Display or the mutual coupling discussed or direct-coupling or communication connection can be by some interfaces, device or unit INDIRECT COUPLING or communication connection, can be electrical, mechanical or other forms.

The unit illustrated as separating component can be or may not be physically separate, show as unit The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs 's.

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

If the integrated unit is realized in the form of SFU software functional unit and is used as independent production marketing or use When, it can be stored in a computer read/write memory medium.Based on such understanding, the technical scheme of the application is substantially The part to be contributed in other words to prior art or all or part of the technical scheme can be in the form of software products Embody, the computer software product is stored in a storage medium, including some instructions are causing a computer It is each that equipment (can be personal computer, server, or network equipment etc.) or processor (processor) perform the application The all or part of step of embodiment methods described.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. it is various can be with the medium of store program codes.

Described above, above example is only to illustrate the technical scheme of the application, rather than its limitations；Although with reference to before Embodiment is stated the application is described in detail, it will be understood by those within the art that：It still can be to preceding State the technical scheme described in each embodiment to modify, or equivalent substitution is carried out to which part technical characteristic；And these Modification is replaced, and the essence of appropriate technical solution is departed from the spirit and scope of each embodiment technical scheme of the application.

Claims (19)

1. A kind of 1. data transmission method for uplink, it is characterised in that including：

   Receive major-minor stream power offset parameter and the authorization message that base station is sent；

   Service authority value is adjusted according to the authorization message；

   According to the major-minor authorization data block size for flowing power offset parameter and the service authority value, determining secondary flow；

   According to the authorization data block size of the secondary flow, data filling is carried out to secondary flow transmission block；

   It is determined that fill the secondary flow transport block size after data and send the secondary flow transmission block；

   It is described that the authorization data block size of secondary flow is determined according to the major-minor stream power offset parameter and service authority value, Including：

   According to the service authority value, the authorization data block size of main flow is determined；

   According to the authorization data block size of the main flow and the major-minor stream power offset parameter, the mandate number of the secondary flow is determined According to block size；

   The authorization data block size according to the secondary flow, data filling is carried out to secondary flow, including：

   According to the authorization data block size of data priority order and the secondary flow, data filling is carried out to the secondary flow；

   The authorization data block size according to data priority order and the secondary flow, data are carried out to the secondary flow and fill it Afterwards, in addition to：

   According to the authorization data block size of the main flow, by remaining data after secondary flow progress data filling, institute is filled in State in main flow and determine to fill the main flow transport block size after data；

   It is or described according to the major-minor authorization data block for flowing power offset parameter and the service authority value, determining secondary flow Before size, in addition to：

   According to the service authority value, the authorization data block size of main flow is determined；

   According to the authorization data block size of the main flow, data filling is carried out to main flow transmission block, it is determined that the institute after filling data State main flow transport block size；

   The authorization data block size according to the secondary flow, data filling is carried out to secondary flow transmission block, including：

   According to the authorization data block size of the secondary flow, remaining data after data filling will be carried out to the main flow, will be filled in In the secondary flow and determine to fill the secondary flow transport block size after data；

   The remaining data include schedule information.
2. 2. according to the method for claim 1, it is characterised in that

   It is described that the authorization data block size of main flow is determined according to the service authority value, including：

   Residue transmission block size is determined according to maximum residual power, the residue transmission block size is that the maximum residual power can The transport block size of support；

   The authorized transmissions block size of authorization data is determined, the authorization data comprises at least scheduling authorization data and non-scheduled grant One of data；

   Compare the residue transmission block size and the authorized transmissions block size, the data block size of the main flow is wherein smaller Person.
3. 3. according to the method for claim 2, it is characterised in that

   The authorized transmissions block size for determining authorization data, including：

   The scheduled transmission block size of the scheduling authorization data, the scheduled transmission block size are determined according to the service authority value The maximum transport block size supported for the service authority value；

   The non-scheduled transmission block size of non-scheduled data is determined according to the data volume of non-scheduled data, the non-scheduled data include Non-scheduling service data and/or schedule information, the non-scheduled transmission block size are the data volume size of the non-scheduled grant With the schedule information length scale sum of the schedule information；

   The authorized transmissions block size is less than or equal to the scheduled transmission block size and the non-scheduled transmission block size sum.
4. 4. according to the method for claim 3, it is characterised in that

   The data volume according to non-scheduled data determines the non-scheduled transmission block size of non-scheduled data, the non-scheduled data Data and/or schedule information including non-scheduling/authorization, including：

   Using the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data；Or

   Using the half of the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data； Or

   The non-scheduled transmission is determined according to power corresponding to the major-minor stream power offset parameter and the non-scheduled data volume Block size.
5. 5. the method according to claim 3 or 4, it is characterised in that also include：

   The non-scheduling service data are filled in the main flow.
6. 6. according to any described method of Claims 1 to 4, it is characterised in that

   The authorization message includes main flow service authority value and/or authorization of service more newer command；

   It is described that service authority value is adjusted according to the authorization message, including：

   According to the main flow service authority value and/or the authorization of service more newer command, the service authority value is adjusted.
7. A kind of 7. data receiver method, it is characterised in that including：

   Major-minor stream power offset parameter and authorization message are sent to user equipment；

   The secondary flow data that the user equipment is sent are received, the secondary flow data are the user equipment according to the major-minor stream work( Rate offset parameter and the authorization message, the data block size of the secondary flow is determined, and according to the data block size of the secondary flow Obtained after progress data filling；

   The secondary flow data for receiving the user equipment and sending, including：

   Receive the secondary flow data that the user equipment is filled to obtain before main flow is filled to the secondary flow；

   Also include：Receive remaining data after the user equipment fills secondary flow and be filled into the main flow number obtained in the main flow According to；

   Or the secondary flow data for receiving the user equipment and sending, including：

   Receive remaining data after the user equipment is first filled to main flow and will filled to main flow and be filled into the secondary flow On obtained secondary flow data；

   The remaining data include schedule information.
8. A kind of 8. user equipment, it is characterised in that including：

   Receiving module, for receiving the major-minor stream power offset parameter and authorization message of base station transmission；

   Adjusting module, for adjusting service authority value according to the authorization message；

   Secondary flow determining module, for according to the major-minor stream power offset parameter and the service authority value, determining awarding for secondary flow Flexible strategy are according to block size；

   Secondary flow first fills module, for the authorization data block size according to the secondary flow, carries out data to secondary flow transmission block and fills out Fill；

   Sending module, the secondary flow transport block size after data is filled for determination and sends the secondary flow transmission block；

   Also include：

   Main flow determining module, for according to the service authority value, determining the authorization data block size of the main flow；

   The secondary flow first fills module, big specifically for the authorization data block according to data priority order and the secondary flow It is small, data filling is carried out to the secondary flow；

   Also include：

   Main flow first fill module, for by the secondary flow carry out data filling after remaining data, according to awarding for the main flow Flexible strategy carry out data filling to main flow transmission block and determine to fill the main flow transport block size after data according to block size；

   Or in addition to：

   Main flow determining module, for according to the service authority value, determining the authorization data block size of the main flow；

   Main flow second fills module, for the authorization data block size according to the main flow, carries out data to main flow transmission block and fills out Fill, it is determined that the main flow transport block size after filling data；

   Secondary flow second fills module, for the authorization data block size according to the secondary flow, will carry out data to the main flow and fill out Rear remaining data are filled, is filled in the secondary flow and determines to fill the secondary flow transport block size after data；

   The remaining data include schedule information.
9. 9. user equipment according to claim 8, it is characterised in that the main flow determining module, including：

   First determining unit, for determining residue transmission block size according to maximum residual power, the residue transmission block size is The supported transport block size of maximum residual power；

   Second determining unit, for determining the authorized transmissions block size of authorization data, the authorization data is awarded including at least scheduling One of flexible strategy evidence and non-scheduled grant data；

   Comparing unit, for the residue transmission block size and the authorized transmissions block size, the data block of the main flow Size is wherein smaller.
10. 10. user equipment according to claim 9, it is characterised in that

    Second determining unit, including：

    First subelement, for determining the scheduled transmission block size of the scheduling authorization data, institute according to the service authority value It is the maximum transport block size that the service authority value is supported to state scheduled transmission block size；And/or

    Second subelement, for determining the non-scheduled transmission block size of non-scheduled data, institute according to the data volume of non-scheduled data Stating non-scheduled data includes non-scheduling service data and/or schedule information, and the non-scheduled transmission block size is described non-scheduled The data volume size of mandate and the schedule information length scale sum of the schedule information；

    3rd subelement, for determining authorized transmissions block size, the authorized transmissions block size is less than or equal to the scheduled transmission Block size and the non-scheduled transmission block size sum.
11. 11. user equipment according to claim 10, it is characterised in that

    Second subelement, is specifically used for,

    Using the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data；Or

    Using the half of the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data； Or

    The non-scheduled transmission is determined according to power corresponding to the major-minor stream power offset parameter and the non-scheduled data volume Block size.
12. 12. according to any described user equipment of claim 8~11, it is characterised in that

    The authorization message includes main flow service authority value and/or authorization of service more newer command；

    The adjusting module, specifically for according to the main flow service authority value and/or the authorization of service more newer command, adjustment The service authority value.
13. A kind of 13. base station, it is characterised in that including：

    Sending module, for sending major-minor stream power offset parameter and authorization message to user equipment；

    Receiving module, the secondary flow data sent for receiving the user equipment, the secondary flow data are the user equipment root According to the major-minor data block size for flowing power offset parameter and service authority value, determining the secondary flow, and according to described auxiliary Obtained after the data block size progress data filling of stream；

    The receiving module, the number being filled before main flow to the secondary flow is filled specifically for receiving the user equipment According to；

    The receiving module, it is additionally operable to receive remaining data after the user equipment fills secondary flow and is filled into the main flow Obtained mainstream data；

    Or the receiving module, the secondary flow will be filled into the remaining data of main flow filling by receiving the user equipment Data；

    The remaining data include schedule information.
14. A kind of 14. user equipment, it is characterised in that including：

    Receiver, for receiving the major-minor stream power offset parameter and authorization message of base station transmission；

    Processor, for adjusting service authority value according to the authorization message；For according to the major-minor stream power offset parameter With the service authority value, the authorization data block size of secondary flow is determined；It is right for the authorization data block size according to the secondary flow Secondary flow transmission block carries out data filling；

    Transmitter, the secondary flow transport block size after data is filled for determination and sends the secondary flow transmission block；

    The processor also, for according to the service authority value, determining the authorization data block size of main flow；According to high priority data The authorization data block size of level order and the secondary flow, data filling is carried out to the secondary flow；

    The processor is additionally operable to：By the secondary flow carry out data filling after remaining data, according to the mandate number of the main flow According to block size, data filling is carried out to main flow transmission block and determines to fill the main flow transport block size after data；

    Or the processor is additionally operable to：According to the service authority value, the authorization data block size of the main flow is determined；Root According to the authorization data block size of the main flow, data filling is carried out to main flow transmission block, it is determined that the main flow after filling data Transport block size；According to the authorization data block size of the secondary flow, remaining data after data filling will be carried out to the main flow, It is filled in the secondary flow and determines to fill the secondary flow transport block size after data；

    The remaining data include schedule information.
15. 15. user equipment according to claim 14, it is characterised in that the processor is specifically used for：It is surplus according to maximum Complementary work rate determines residue transmission block size, and the residue transmission block size is that the supported transmission block of maximum residual power is big It is small；The authorized transmissions block size of authorization data is determined, the authorization data comprises at least scheduling authorization data and non-scheduled grant One of data；Compare the residue transmission block size and the authorized transmissions block size, the data block size of the main flow For wherein smaller.
16. 16. user equipment according to claim 15, it is characterised in that the processor is specifically used for：Taken according to main flow Business authorization value determines the scheduled transmission block size of the scheduling authorization data, and the scheduled transmission block size is the main flow service The maximum transport block size that authorization value is supported；And/or

    The non-scheduled transmission block size of non-scheduled data is determined according to the data volume of non-scheduled data, the non-scheduled data include Non-scheduling service data and/or schedule information, the non-scheduled transmission block size are the data volume size of the non-scheduled grant With the schedule information length scale sum of the schedule information；

    Authorized transmissions block size is determined, the authorized transmissions block size is less than or equal to the scheduled transmission block size and the non-tune Spend transport block size sum.
17. 17. user equipment according to claim 16, it is characterised in that

    The processor is specifically used for：

    Using the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data；Or

    Using the half of the total length of the non-scheduled data volume as non-scheduled transmission block size corresponding to the non-scheduled data； Or

    The non-scheduled transmission is determined according to power corresponding to the major-minor stream power offset parameter and the non-scheduled data volume Block size.
18. 18. according to any described user equipment of claim 14~17, it is characterised in that

    The authorization message includes main flow service authority value and/or authorization of service more newer command；

    The processor, specifically for according to the main flow service authority value and/or the authorization of service more newer command, adjusting institute State service authority value.
19. A kind of 19. base station, it is characterised in that including：

    Transmitter, for sending major-minor stream power offset parameter and authorization message to user equipment；

    Receiver, the secondary flow data sent for receiving the user equipment, the secondary flow data be the user equipment according to The major-minor stream power offset parameter and service authority value, the data block size of the secondary flow is determined, and according to the secondary flow Data block size carry out data fillings after obtain；

    The receiver, the data being filled before main flow to the secondary flow are filled specifically for receiving the user equipment；

    The receiver, it is additionally operable to receive remaining data after the user equipment fills secondary flow and is filled into the main flow The mainstream data arrived；

    Or the receiver, receive the number that the user equipment will be filled into the secondary flow to the remaining data of main flow filling According to；

    The remaining data include schedule information.