CN105323861B - A kind of method for sending information, equipment and system - Google Patents
A kind of method for sending information, equipment and system Download PDFInfo
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- CN105323861B CN105323861B CN201410336136.XA CN201410336136A CN105323861B CN 105323861 B CN105323861 B CN 105323861B CN 201410336136 A CN201410336136 A CN 201410336136A CN 105323861 B CN105323861 B CN 105323861B
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Abstract
The invention discloses a kind of method for sending information, equipment and systems, terminal determines the first scheduling information of the TB1 sent on subframe n1+k1 according to the first dispatch received from subframe n1, the second scheduling information of the TB2 sent on subframe n2+k2 is determined according to the second dispatch received from subframe n2, and when subframe n1+k1 and subframe n2+k2 correspond to same subframe, TB1 and TB2 is sent according to the scheduling information of acquisition simultaneously in the same subframe;N1, n2 are random natural number, and k1, k2 are the random natural number not less than 4.In this programme, the scheduling information for each transmission block that will be sent in same subframe can be obtained based on the dispatch obtained in different subframes, so as on the basis of making terminal have enough data processing times, achieve the purpose that so that terminal is in same subframe while sending multiple data blocks, to reach raising higher uplink bit rate.
Description
Technical field
The present invention relates to field of communication technology more particularly to a kind of method for sending information, equipment and system.
Background technique
In the uplink of existing communication system, such as LTE (Long Term Evolution, long term evolution) system
In uplink, the transmission of data generallys use orthogonal sending method, that is, for single antenna terminal, is only supported at one
A data symbol is transmitted on a running time-frequency resource (a such as subframe).For TDD (Time Division Duplexing, time-division
Duplex) for-LTE system, since it is in addition to having uplink modulation coding scheme lower than downlink modulation coding mode and uplink
Transmission antenna number be less than downlink transmission antenna number the features such as except, be also equipped with upstream data occupied from downlink data it is different
The characteristics of time slot is sent, so that higher uplink bit rate is limited an important factor for becoming system for restricting performance.
Specifically, to solve the above-mentioned problems, higher uplink modulation coding scheme can be used, such as from 16QAM
(Quadrature Amplitude Modulation, quadrature amplitude modulation), which is promoted, arrives 64QAM.But if since terminal uses
Higher uplink modulation coding scheme carries out channel transmission, then for transmitting terminal EVM (Error Vector Magnitude, letter
Road error) requirement can be higher.For example, the index of EVM is 12.5% when uplink modulation coding scheme is 16QAM, and when upper
When row modulation coding scheme is promoted to 64QAM, the index of EVM will further be promoted to 8.75%, this will be greatly increased
The cost of terminal.Further more, in addition to can be used promoted uplink modulation coding scheme method come improve higher uplink bit rate it
Outside, multiple stream transmission also can be used, i.e. MIMO (Multiple-Input Multiple-Output, multiple-input and multiple-output) transmission
Mode.That is, improving spectrum utilization efficiency by the way of 2 even 4 antennas in terminal side and then improving upper line number
According to transmission rate, still, this requires terminal uplink to have multiple sendaisles, more difficult for the realization of physical end.
As shown in the above, the currently used mode for improving higher uplink bit rate is bad, therefore, needs
A kind of new mode is provided with solve the problems, such as presently, there are higher uplink bit rate it is lower.
Summary of the invention
The embodiment of the invention provides a kind of method for sending information, equipment and system, to solve presently, there are uplink
The lower problem of message transmission rate.
The embodiment of the invention provides a kind of method for sending information, comprising:
Terminal determines the first transmission sent on subframe n1+k1 according to the first dispatch received from subframe n1
The first scheduling information of block TB (Transport Block, transmission block) 1;And
The second transmission block sent on subframe n2+k2 is determined according to the second dispatch received from subframe n2
The second scheduling information of TB2;And
When the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling
Information and second scheduling information send the TB1 and TB2 simultaneously in the same subframe;
Wherein, described n1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
Further, the embodiment of the invention also provides another method for sending information, comprising:
Network side equipment, which determines, is used to indicate the first of the first scheduling information for the TB1 that terminal is sent on subframe n1+k1
Dispatch and be used to indicate the TB2 that terminal is sent on subframe n2+k2 the second scheduling information the second dispatch;
And
The first dispatch is sent on subframe n1 to the terminal, and, the second dispatch is sent on subframe n2
To the terminal, so that the terminal determines the first scheduling of TB1 according to the first dispatch received from subframe n1
Information, and, the second scheduling information of TB2 is determined according to the second dispatch received from subframe n2, and work as the son
When frame n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling information and described second
Scheduling information sends the TB1 and TB2 simultaneously in the same subframe;Wherein, described n1, n2 are any nature
Number;Described k1, k2 are the random natural number more than or equal to 4.
Correspondingly, the embodiment of the invention also provides a kind of terminals, comprising:
Signaling receiving module, for receiving the first dispatch from subframe n1, and, second, which is received, from subframe n2 adjusts
Spend signaling;
Information determination module, for being determined according to the first dispatch received from subframe n1 in subframe n1+k1
The first scheduling information of the TB1 of transmission;And it is determined according to the second dispatch received from subframe n2 in subframe n2+
The second scheduling information of the TB2 sent on k2;
Information sending module is used for when the subframe n1+k1 and subframe n2+k2 corresponds to same subframe, according to
Determining first scheduling information and second scheduling information, in the same subframe simultaneously send the TB1 with
And the TB2;
Wherein, described n1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
Further, the embodiment of the invention also provides a kind of network side equipments, comprising:
Signaling determining module, for determining the first scheduling information for being used to indicate the TB1 that terminal is sent on subframe n1+k1
The first dispatch and be used to indicate the TB2 that terminal is sent on subframe n2+k2 the second scheduling information second scheduling
Signaling;
Signaling sending module, for sending the first dispatch on subframe n1 to the terminal, and, on subframe n2
The second dispatch is sent to the terminal, so that the terminal is true according to the first dispatch received from subframe n1
Determine the first scheduling information of TB1, and, the second scheduling of TB2 is determined according to the second dispatch received from subframe n2
Information, and when the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling
Information and second scheduling information send the TB1 and TB2 simultaneously in the same subframe;Wherein, described
N1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
Further, the embodiment of the invention also provides a kind of information transmitting systems, comprising:
Network side equipment, for determining the first scheduling information for being used to indicate the TB1 that terminal is sent on subframe n1+k1
First dispatch and be used to indicate the TB2 that terminal is sent on subframe n2+k2 the second scheduling information second scheduling letter
It enables, and sends first dispatch to the terminal on subframe n1, and, second scheduling is sent on subframe n2
Signaling gives the terminal;
Terminal, for determining the TB1 sent on subframe n1+k1 according to the first dispatch received from subframe n1
The first scheduling information, determine the TB2's sent on subframe n2+k2 according to the second dispatch for receiving from subframe n2
Second scheduling information, and, when the subframe n1+k1 and subframe n2+k2 corresponds to same subframe, according to determining institute
The first scheduling information and second scheduling information are stated, sends the TB1 and described simultaneously in the same subframe
TB2;
Wherein, described n1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
The present invention has the beneficial effect that:
The embodiment of the invention provides a kind of method for sending information, equipment and system, terminal can connect according to from subframe n1
The first dispatch received determines the first scheduling information of the TB1 sent on subframe n1+k1, according to received from subframe n2
Second dispatch determines the second scheduling information of the TB2 sent on subframe n2+k2, and in subframe n1+k1 and subframe n2+k2
When corresponding same subframe, sent simultaneously in the same subframe according to the first scheduling information of acquisition and the second scheduling information
TB1 and TB2;Wherein, n1, n2 are random natural number, and k1, k2 are the random natural number not less than 4.Described in the embodiment of the present invention
In technical solution, since each transmission that will be sent in same subframe can be obtained based on the dispatch obtained in different subframes
The scheduling information of block, so as on the basis of making terminal have enough data processing times, reach so that terminal is same
Multiple data blocks are sent in subframe, simultaneously to achieve the purpose that improve higher uplink bit rate.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly introduced, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this
For the those of ordinary skill in field, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.
Fig. 1 show the flow diagram of method for sending information described in the embodiment of the present invention one;
What Fig. 2 showed the dispatch of TB1, TB2 described in the embodiment of the present invention one obtains moment and sending instant
Correspondence diagram one;
What Fig. 3 showed the dispatch of TB1, TB2 described in the embodiment of the present invention one obtains moment and sending instant
Correspondence diagram two;
Fig. 4 show the flow diagram of method for sending information described in the embodiment of the present invention two;
Fig. 5 show the structural schematic diagram of terminal described in the embodiment of the present invention three;
Fig. 6 show the structural schematic diagram of network side equipment described in the embodiment of the present invention four;
Fig. 7 show the structural schematic diagram of information transmitting system described in the embodiment of the present invention five.
Specific embodiment
For the lower problem of higher uplink bit rate existing in the prior art, in technical solution of the present invention
Non-orthogonal method for sending information can be used in proposition, that is, can transmit multiple data in a running time-frequency resource (a such as subframe)
Symbol.But since in existing system, the corresponding dispatch of data block that terminal is sent in a subframe is from one
A subframe, and it is shorter with interval at the time of sending data block at the time of terminal reception dispatch, so that according to the prior art, when
After terminal receives dispatch in a subframe, terminal can not have been handled and sent before corresponding sub-frame of uplink arrival
Multiple data blocks.That is, not transmitting multiple data symbols on a running time-frequency resource to be this in existing system
Transmission mode design corresponding dispatch.
Therefore, it is based on above content, in technical solution of the present invention, is proposed a kind of based on new dispatch
The method for sending information of sending method so that terminal can send multiple data blocks simultaneously in the same subframe, and makes
Terminal has enough data processing times, to achieve the purpose that improve higher uplink bit rate.
Specifically, in the technical solution described in the embodiment of the present invention, terminal can be according to the first tune received from subframe n1
Degree signaling determines the first scheduling information of the TB1 sent on subframe n1+k1, is believed according to the second scheduling received from subframe n2
The second scheduling information for determining the TB2 sent on subframe n2+k2 is enabled, and corresponds to same son in subframe n1+k1 and subframe n2+k2
When frame, TB1 and TB2 is sent according to the first scheduling information of acquisition and the second scheduling information simultaneously in the same subframe;Its
In, n1, n2 are random natural number, and k1, k2 are the random natural number not less than 4.In the technical solution described in the embodiment of the present invention,
Scheduling due to that can be obtained each transmission block that will be sent in same subframe based on the dispatch obtained in different subframes is believed
Breath, so as on the basis of making terminal have enough data processing times, reach so that terminal in same subframe simultaneously
Send multiple data blocks, to achieve the purpose that improve higher uplink bit rate.
In the following, to make the objectives, technical solutions, and advantages of the present invention clearer, will in conjunction with attached drawing to the present invention make into
It is described in detail to one step, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole implementation
Example.Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts
All other embodiment, shall fall within the protection scope of the present invention.
Embodiment one:
As shown in Figure 1, its flow diagram for method for sending information described in the embodiment of the present invention one, the information hair
Delivery method can comprise the following steps that
Step 101: terminal is sent on subframe n1+k1 according to the first dispatch determination received from subframe n1
The first scheduling information of TB1, and, it is determined according to the second dispatch received from subframe n2 and is sent out on subframe n2+k2
The second scheduling information of the TB2 sent;Wherein, described n1, n2 are random natural number, described k1, k2 be more than or equal to 4 it is any from
So number.
Specifically, first dispatch or second dispatch can include at least appointing in following signaling respectively
Anticipate one or more: DCI (Downlink Control Information, Downlink Control Information) format relevant to uplink or
PHICH (Physical Hybrid ARQ Indicator Channel, physical mixed automatic re-transmission indicating channel) etc., this hair
Bright embodiment is not limited in any way this.
Further, first scheduling information or second scheduling information can include at least in following information respectively
Any one or more: resource allocation information, modulation and coding mode, new data instruction or transmission power control information etc., this
Inventive embodiments are not also limited in any way this.
It further, is the terminal in TDD-LTE system with the terminal in embodiment of the present invention, and
The proportion of sub-frame of uplink (U) in the TDD-LTE system and downlink subframe (D) be described in table 1 for, described n1, n2, k1 with
And the value of k2 can be described in table 2 below:
Table 1 (ratio of uplink subframe to downlink subframe under different uplink downlink configuration modes):
(the value of n1, n2, k1 and k2 under different uplink downlink configuration modes, wherein sub-frame number and up and down of table 2
Line link configuration mode is formed by the possibility value that each numerical value in intersection region is k1 or k2):
That is, at this point, the value of described n1, n2, k1 and k2 can be as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and as the n1 or
When the value of n2 is 0 or 5, the value of the k1 or the k2 is 4, when the value of the n1 or n2 is 1 or 6, the k1 or
The value of the k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 1,4,6 or 9, and as the n1 or
When the value of n2 is 1 or 6, the value of the k1 or the k2 is 6, when the value of the n1 or n2 is 4 or 9, the k1 or
The value of the k2 is 4;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 3 or 8, and when the n1's or n2
When value is 3 or 8, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 0,8 or 9, and work as the n1 or n2
Value when being 0,8 or 9, the value of the k1 or the k2 is 4;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 8 or 9, and when the n1's or n2
When value is 8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and taking as the n1 or n2
When value is 8, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1
Or the value of n2, when being 0,1,5 or 6, the value of the k1 or the k2 is 7, and when the value of the n1 or n2 is 9, the k1
Or the value of the k2 is 5.
It should be noted that at this point, since n1 may be generally equal to n2, terminal obtains the dispatch of TB1 and TB2
At the time of it is usually identical so that at this time terminal need to the sending instant of TB1 and TB2 arrival before prepare TB1 and
TB2.Further, for the value of k1 and k2 be 4 the case where, due at this point, terminal obtain TB1 and TB2 dispatch
At the time of the interval that is sent with terminal between the sending instant of TB1 and TB2 be no more than 4ms (subframe corresponding 1ms), so,
Leading to the processing time of terminal may fall short of, and therefore, such situation is more suitble to terminal to be to have corresponding enhancing processing energy
The terminal of power, the embodiment of the present invention do not repeat this.
It further, is still the terminal in TDD-LTE system with the terminal in embodiment of the present invention,
And the proportion of the ascending-descending subframes in the TDD-LTE system be table 1 described in for, the value of described n1, n2, k1 and k2 are also
Can be following situation: the value of described n1, k1 be as described in Table 2, and the value of described n2, k2 are as described in Table 3:
(the value of n2 and k2 under different uplink downlink configuration modes, wherein sub-frame number and uplink downlink of table 3
Configuration mode is formed by the possibility value that each numerical value in intersection region is k2):
That is, at this point, the value of described n1, n2, k1 and k2 can be as described below respectively:
If uplink downlink configuration mode is mode 0, the value of the n1 is 0,1,5 or 6;The value of the n2 is 0
Or 5 (mode one or mode three in corresponding table 3), alternatively, the value of the n2 is 1 or 6 (modes two or side in corresponding table 3
Formula four);And when the value of the n1 is 0 or 5, the value of the k1 is 4, when the value of the n1 is 1 or 6, the k1
Value be 6;When the value of the n2 is 0 or 5, the value of the k2 is 7 or 4, when the value of the n2 is 1 or 6, institute
The value for stating k2 is 6 or 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 is 1,4,6 or 9;The value of the n2 be 0,
1,5 or 6;And when the value of the n1 is 1 or 6, the value of the k1 is 6, when the value of the n1 is 4 or 9, the k1
Value be 4;When the value of the n2 is 0,1,5 or 6, the value of the k2 is 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 is 3 or 8;The value of the n2 is 1 or 6;
And when the value of the n1 is 3 or 8, the value of the k1 is 4;When the value of the n2 is 1 or 6, the value of the k2
It is 6;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 is 0,8 or 9;The value of the n2 is 7,8
Or 9 (mode one in corresponding table 3), alternatively, the value of the n2 is 5,6 or 7 (modes two in corresponding table 3);And when described
When the value of n1 is 0,8 or 9, the value of the k1 is 4;When the value of the n2 is 7,8 or 9, the value of the k2 is 5,
When the value of the n2 is 5,6 or 7, the value of the k2 is 7;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 is 8 or 9;The value of the n2 is 7 or 8
(mode one in corresponding table 3), alternatively, the value of the n2 is 6 or 7 (modes two in corresponding table 3);And taking as the n1
When value is 8 or 9, the value of the k1 is 4;When the value of the n2 is 7 or 8, the value of the k2 is 5, when the n2's
When value is 6 or 7, the value of the k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 is 8;The value of the n2 is 7;And work as institute
When the value for stating n1 is 8, the value of the k1 is 4;When the value of the n2 is 7, the value of the k2 is 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 is 0,1,5,6 or 9;The value of the n2 is
0,1 or 9 (mode one in corresponding table 3) alternatively, the value of the n2 is 0,6 or 9 (modes two in corresponding table 3), and works as institute
When the value for stating n1 is 0,1,5 or 6, the value of the k1 is 5, and when the value of the n1 is 9, the value of the k1 is 5;When
When the value of the n2 is 0 or 9, the value of the k2 is 4, and when the value of the n2 is 1 or 6, the value of the k2 is 6.
It should be noted that when described n1, k1 value it is as described in Table 2, and described n2, k2 value it is as described in Table 3 when,
Terminal can be the same or different at the time of obtaining the dispatch of TB1 and TB2.Also, when terminal obtains TB1's and TB2
At the time of dispatch when difference, there is always acquisition dispatch of the moment earlier than another TB of the dispatch of a TB
Obtain the moment so that terminal can send TB1 and TB2 sending instant reach before, be ready in advance corresponding TB1 and
TB2.For example, the above downlink configuration mode is 3, and the value of n1, k2 are as shown in table 2, and the value of n2, k2 are in table 3
For mode one under uplink downlink configuration mode 3, the acquisition moment of the dispatch of TB1, TB2 is corresponding with sending instant
Relationship can as shown in Fig. 2, at this point, the acquisition moment of the dispatch of TB2 usually can dispatch earlier than TB1 acquisition when
It carves, the embodiment of the present invention does not repeat this.
Further, the above downlink configuration mode is 3, and the value of n1, k2 are as shown in table 2, and the value of n2, k2 are
For the mode two under uplink downlink configuration mode 3 in table 3, when the acquisition moment of the dispatch of TB1, TB2 is with sending
The corresponding relationship at quarter can as shown in figure 3, at this point, the acquisition moment of the dispatch of TB2 usually can dispatch earlier than TB1
The moment is obtained, the embodiment of the present invention does not also repeat this.
Further, by Fig. 2 and Fig. 3 it is found that due in Fig. 3 (under the uplink downlink configuration mode 3 i.e. in table 3
Mode two in) dispatch of TB2 and the dispatch of TB1 do not send in the same downlink subframe so that terminal
Not needing two dispatch of reception in the same subframe can reduce end for mode one shown in Fig. 2
End receives complexity.However, it is desirable to learn, for mode two shown in Fig. 3, in mode one shown in Fig. 2
Scheduling delay is smaller, thus, it can reach the purpose for reducing scheduling delay, i.e. the two respectively has advantage and disadvantage, can select according to the actual situation
With the embodiment of the present invention does not repeat this.
Further, it should be noted that in embodiment of the present invention, in guaranteeing n1 and k1, n2 and k2 extremely
Few one group as described in Table 2, it is at least one set of as described in Table 3 under the premise of, can also be following situations: the value of described n1, k1 be such as
Described in table 3, the value of described n2, k2 are as described in Table 2.That is, subframe n1 and subframe n2 have no between each other it is substantial
Difference, the value of the two can be converted mutually;Subframe n1+k1 and subframe n2+k2 also have no substantial area between each other
Not, the value of the two is also mutually to convert, and the embodiment of the present invention does not repeat this.
It further, is still the terminal in TDD-LTE system with the terminal in embodiment of the present invention,
And the proportion of the ascending-descending subframes in the TDD-LTE system be table 1 described in for, the value of described n1, n2, k1 and k2 are also
It can be as described in Table 4:
(the value of n1, n2, k1 and k2 under different uplink downlink configuration modes, wherein sub-frame number and up and down of table 4
Line link configuration mode is formed by the possibility value that each numerical value in intersection region is k1 or k2):
That is, at this point, the value of described n1, n2, k1 and k2 can be as described below respectively:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and as the n1 or
When the value of n2 is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 0,1,5 or 6, and as the n1 or
When the value of n2 is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 1 or 6, and when the n1's or n2
When value is 1 or 6, the value of the k1 or the k2 are 6;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 7,8 or 9, and work as the n1 or n2
Value when being 7,8 or 9, the value of the k1 or the k2 is 5;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 7 or 8, and when the n1's or n2
When value is 7 or 8, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and taking as the n1 or n2
When value is 8, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1
Or the value of n2, when being 0,1,5 or 6, the value of the k1 or the k2 is 7, and when the value of the n1 or n2 is 9, the k1
Or the value of the k2 is 5.
It should be noted that it is similar as described in Table 2 with the value of described n1, n2, k1 and k2, at this point, since n1 is usual
Can be equal to n2, therefore, terminal obtain TB1 and TB2 dispatch at the time of it is usually identical so that at this time terminal need
TB1 and TB2 are prepared before the sending instant of TB1 and TB2 reaches.Further, due at this point, with described n1, n2, k1 with
And the value of k2 is different as described in Table 2, sends TB1's and TB2 with terminal at the time of terminal obtains the dispatch of TB1 and TB2
Interval between sending instant is typically larger than 4ms, so, terminal usually have the enough processing time carry out respectively TB1 with
And the processing of TB2 dispatch, therefore, at this point, terminal is also suitble to be not have the case where ordinary terminal of enhancing processing capacity,
The embodiment of the present invention does not repeat this.
Further, it should be noted that in embodiment of the present invention, when subframe n1 and subframe n2 correspond to it is same
When subframe (i.e. terminal obtains identical at the time of the dispatch of TB1 and TB2), first dispatch and second tune
Degree signaling usually can be predetermined difference of the network side equipment in the corresponding same subframe of subframe n1 and subframe n2
Running time-frequency resource on be sent to the terminal so that the terminal can distinguish the dispatch which is TB1, which is
The dispatch of TB2;
Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch
It can also be that network side equipment is sent on the identical running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2
The terminal, also, at this point, may include being used to indicate first dispatch as referring in first dispatch
Show the first instruction information of the first scheduling information of TB1, may include being used to indicate described second to adjust in second dispatch
Degree signaling is to be used to indicate the second indication information of the second scheduling information of TB2, so which the terminal can distinguish is
The dispatch of TB1, which is the dispatch of TB2;
Alternatively, when subframe n1 and subframe n2 correspond to same subframe, first dispatch and second tune
Degree signaling can also be that first dispatch and second dispatch are merged into third scheduling by network side equipment
After signaling, the terminal is sent on the setting running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2.
Specifically, at this point, the third dispatch can be network side equipment is sent to the terminal by the way of DCI format 4
's;Also, above-mentioned first instruction information and second indication information can be carried in the third dispatch, so that described
Terminal can distinguish the dispatch which is TB1, which is the dispatch of TB2, and the embodiment of the present invention does not make this any
It limits.
Step 102: when the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining
First scheduling information and second scheduling information send the TB1 and TB2 simultaneously in the same subframe.
Specifically, when in the same subframe simultaneously send the TB1 and the TB2 when, can enable the TB1 and
The transmission power of the TB2 is different, described in demodulate obtain respectively in scheme of the base station side based on serial interference elimination
TB1 and the TB2, the embodiment of the present invention are not limited in any way this.
The embodiment of the present invention one provides one kind can be based on the method for sending information of the sending method of new dispatch, eventually
End can determine the first scheduling information of the TB1 sent on subframe n1+k1 according to the first dispatch received from subframe n1,
According to the second scheduling information of the determining TB2 sent on subframe n2+k2 of the second dispatch received from subframe n2, and
When subframe n1+k1 and subframe n2+k2 correspond to same subframe, according to the first scheduling information of acquisition and the second scheduling information at this
TB1 and TB2 is sent in same subframe simultaneously;Wherein, n1, n2 are random natural number, and k1, k2 are the random natural number not less than 4.
In the technical solution described in the embodiment of the present invention, due to terminal can be obtained based on the dispatch that obtains in different subframes will be
The scheduling information of each transmission block sent in same subframe, so as on the basis for making terminal have enough data processing times
On, reach so that terminal is in same subframe while sending multiple data blocks, to reach the mesh for improving higher uplink bit rate
's.
Embodiment two:
The embodiment of the present invention two sends out information described in the embodiment of the present invention one so that executing subject is network side equipment as an example
Delivery method is further described.As shown in figure 4, its process signal for method for sending information described in the embodiment of the present invention two
Figure, the method for sending information can comprise the following steps that
Step 401: network side equipment determines the first scheduling letter for being used to indicate the TB1 that terminal is sent on subframe n1+k1
Breath the first dispatch and be used to indicate the TB2 that terminal is sent on subframe n2+k2 the second scheduling information second adjust
Spend signaling;Wherein, described n1, n2 are random natural number, and described k1, k2 are the random natural number more than or equal to 4.
Wherein, first dispatch or second dispatch can include at least any in following signaling respectively
One or more: DCI format relevant to uplink or PHICH etc., the embodiment of the present invention is not limited in any way this.Further
Ground, first scheduling information or second scheduling information can include at least respectively in following information any one or it is more
Kind: resource allocation information, modulation and coding mode, new data instruction or transmission power control information etc., the embodiment of the present invention pair
This is not also limited in any way.
Further, it should be noted that be in TDD-LTE system with the terminal in embodiment of the present invention
Terminal in system, and the proportion of the ascending-descending subframes in the TDD-LTE system be table 1 described in for, described n1, n2, k1 with
And the value of k2 can repeat no more this for following several situations described in the embodiment of the present invention one, the embodiment of the present invention two:
Situation one: the value of described n1, n2, k1 and k2 are as described in Table 2;
Situation two: the value of described n1, k1 are as described in Table 2, and the value of described n2, k2 are as described in Table 3;It needs to illustrate
It is, in situation two, before guaranteeing at least one set of as described in Table 2, at least one set in n1 and k1, n2 and k2 as described in Table 3
It puts, can also be following situations, the value of described n1, k1 are as described in Table 3, and the value of described n2, k2 are as described in Table 2, this hair
Bright embodiment does not repeat this;
Situation three: the value of described n1, n2, k1 and k2 are as described in Table 4.
Step 402: the first dispatch is sent on subframe n1 to the terminal, and, second is sent on subframe n2
Dispatch gives the terminal, so that the terminal determines TB1's according to the first dispatch received from subframe n1
First scheduling information, and, the second scheduling information of TB2 is determined according to the second dispatch received from subframe n2, and
When the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling information and
Second scheduling information sends the TB1 and TB2 simultaneously in the same subframe.
Specifically, the first dispatch is sent on subframe n1 to the terminal, and, second, which is sent, on subframe n2 adjusts
Signaling is spent to the terminal, may include:
When subframe n1 and subframe n2 correspond to same subframe, in the corresponding same subframe of subframe n1 and subframe n2
On different running time-frequency resource predetermined, first dispatch and second dispatch are sent to the end
End, so that the terminal can distinguish the dispatch which is TB1, which is the dispatch of TB2;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, in the corresponding same subframe of subframe n1 and subframe n2
On identical running time-frequency resource, first dispatch and second dispatch are sent to the terminal, at this point, institute
State may include in the first dispatch be used to indicate first dispatch be used to indicate TB1 the first scheduling information
One instruction information may include that be used to indicate second dispatch be used to indicate TB2 the in second dispatch
For the second indication information of two scheduling informations so that the terminal can distinguish the dispatch which is TB1, which is TB2
Dispatch;
Alternatively, when subframe n1 and subframe n2 correspond to same subframe, by first dispatch and described second
Dispatch is merged into third dispatch, and the setting running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2
On the third dispatch is sent to the terminal, the embodiment of the present invention is not limited in any way this.
Second embodiment of the present invention provides a kind of method for sending information, network side equipment, which can determine, is used to indicate terminal in son
First dispatch of the first scheduling information of the TB1 sent on frame n1+k1 and terminal is used to indicate on subframe n2+k2
Second dispatch of the second scheduling information of the TB2 of transmission, and send on subframe n1 the first dispatch to the terminal,
And the second dispatch is sent on subframe n2 to the terminal, so that the terminal is received according to from subframe n1
The first dispatch determine the first scheduling information of TB1, and, it is true according to the second dispatch received from subframe n2
The second scheduling information of TB2 is determined, and when the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determination
First scheduling information and second scheduling information, send the TB1 and institute simultaneously in the same subframe
TB2 is stated, so as on the basis of making terminal there are enough data processing times, reach so that terminal is same in same subframe
When send multiple data blocks, with achieve the purpose that improve higher uplink bit rate.
Embodiment three:
The embodiment of the present invention three, which provides, a kind of can be used to realize method for sending information described in the embodiment of the present invention one
Terminal, as shown in figure 5, its structural schematic diagram for terminal described in the embodiment of the present invention three, the terminal may include that signaling connects
Receive module 51, information determination module 52 and information sending module 53, in which:
The signaling receiving module 51 can be used for from subframe n1 receiving the first dispatch, and, it is connect from subframe n2
Receive the second dispatch;Wherein, described n1, n2 are the random natural number less than or equal to 9;
The information determination module 52 can be used for being determined according to the first dispatch received from subframe n1 in subframe
The first scheduling information of the TB1 sent on n1+k1;And it is determined according to the second dispatch received from subframe n2
The second scheduling information of the TB2 sent on subframe n2+k2;Wherein, described k1, k2 are random natural number;
The information sending module 53 can be used for corresponding to same subframe as the subframe n1+k1 and subframe n2+k2
When, according to determining first scheduling information and second scheduling information, send institute simultaneously in the same subframe
State the TB1 and TB2.
Wherein, first dispatch or second dispatch can include at least any in following signaling respectively
One or more: DCI format relevant to uplink or PHICH etc., the embodiment of the present invention is not limited in any way this.Further
Ground, first scheduling information or second scheduling information can include at least respectively in following information any one or it is more
Kind: resource allocation information, modulation and coding mode, new data instruction or transmission power control information etc., the embodiment of the present invention pair
This is not also limited in any way.
Further, it should be noted that be in TDD-LTE system with the terminal in embodiment of the present invention
Terminal in system, and the proportion of the ascending-descending subframes in the TDD-LTE system be table 1 described in for, described n1, n2, k1 with
And the value of k2 can repeat no more this for following several situations described in the embodiment of the present invention one, the embodiment of the present invention three:
Situation one: the value of described n1, n2, k1 and k2 are as described in Table 2;
Situation two: the value of described n1, k1 are as described in Table 2, and the value of described n2, k2 are as described in Table 3;It needs to illustrate
It is, in situation two, before guaranteeing at least one set of as described in Table 2, at least one set in n1 and k1, n2 and k2 as described in Table 3
It puts, can also be following situations, the value of described n1, k1 are as described in Table 3, and the value of described n2, k2 are as described in Table 2, this hair
Bright embodiment does not repeat this;
Situation three: the value of described n1, n2, k1 and k2 are as described in Table 4.
Further, it should be noted that when subframe n1 and subframe n2 correspond to same subframe, the first scheduling letter
It is pre- in the corresponding same subframe of subframe n1 and subframe n2 that order and second dispatch can be network side equipment
It is sent to the terminal on the different running time-frequency resources first defined, so that the terminal can distinguish the tune which is TB1
Signaling is spent, which is the dispatch of TB2;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch
It can be network side equipment and be sent to institute on the identical running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2
Terminal is stated, and is be used to indicate TB1 first including being used to indicate first dispatch in first dispatch
The first of scheduling information indicates information, includes being used to indicate second dispatch as referring in second dispatch
Show the second indication information of the second scheduling information of TB2, so that the terminal can distinguish the dispatch which is TB1,
Which is the dispatch of TB2;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch
Can also be network side equipment by first dispatch and second dispatch be merged into third dispatch it
Afterwards, it is sent to the terminal on the setting running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2, the present invention
Embodiment is not limited in any way this.
The embodiment of the present invention three, which provides, a kind of can be used to realize method for sending information described in the embodiment of the present invention one
Terminal, the terminal can determine the of the TB1 sent on subframe n1+k1 according to the first dispatch received from subframe n1
One scheduling information, determine the TB2 sent on subframe n2+k2 according to the second dispatch received from subframe n2 second are adjusted
Information is spent, and when subframe n1+k1 and subframe n2+k2 correspond to same subframe, according to the first scheduling information of acquisition and second
Scheduling information sends TB1 and TB2 simultaneously in the same subframe;Wherein, n1, n2 are random natural number, and k1, k2 are not less than 4
Random natural number.In the technical solution described in the embodiment of the present invention, since terminal can be based on the tune obtained in different subframes
Degree signaling obtains the scheduling information for each transmission block that will be sent in same subframe, so as to make terminal have enough data
On the basis of handling the time, reach so that terminal is in same subframe while sending multiple data blocks, improving upper line number to reach
According to the purpose of transmission rate.
Example IV:
The embodiment of the present invention four, which provides, a kind of can be used to realize method for sending information described in the embodiment of the present invention two
Network side equipment, as shown in fig. 6, its structural schematic diagram for network side equipment described in the embodiment of the present invention four, the network
Side apparatus may include signaling determining module 61 and signaling sending module 62, in which:
The signaling determining module 61 can be used for determination and be used to indicate the first of the TB1 that terminal is sent on subframe n1+k1
First dispatch of scheduling information and the second scheduling information for being used to indicate the TB2 that terminal is sent on subframe n2+k2
Second dispatch;Wherein, described n1, n2 are random natural number, and described k1, k2 are the random natural number more than or equal to 4;
The signaling sending module 62 can be used on subframe n1 sending the first dispatch to the terminal, and,
The second dispatch is sent on subframe n2 to the terminal, so that the terminal is adjusted according to first received from subframe n1
Degree signaling determines the first scheduling information of TB1, and, determine TB2's according to the second dispatch received from subframe n2
Second scheduling information, and when the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining
First scheduling information and second scheduling information send the TB1 and TB2 simultaneously in the same subframe.
Wherein, first dispatch or second dispatch can include at least any in following signaling respectively
One or more: DCI format relevant to uplink or PHICH etc., the embodiment of the present invention is not limited in any way this.Further
Ground, first scheduling information or second scheduling information can include at least respectively in following information any one or it is more
Kind: resource allocation information, modulation and coding mode, new data instruction or transmission power control information etc., the embodiment of the present invention pair
This is not also limited in any way.
Further, it should be noted that be in TDD-LTE system with the terminal in embodiment of the present invention
Terminal in system, and the proportion of the ascending-descending subframes in the TDD-LTE system be table 1 described in for, described n1, n2, k1 with
And the value of k2 can repeat no more this for following several situations described in the embodiment of the present invention one, the embodiment of the present invention four:
Situation one: the value of described n1, n2, k1 and k2 are as described in Table 2;
Situation two: the value of described n1, k1 are as described in Table 2, and the value of described n2, k2 are as described in Table 3;It needs to illustrate
It is, in situation two, before guaranteeing at least one set of as described in Table 2, at least one set in n1 and k1, n2 and k2 as described in Table 3
It puts, can also be following situations, the value of described n1, k1 are as described in Table 3, and the value of described n2, k2 are as described in Table 2, this hair
Bright embodiment does not repeat this;
Situation three: the value of described n1, n2, k1 and k2 are as described in Table 4.
Further, it should be noted that in embodiment of the present invention, the signaling sending module 62 is specifically available
It is preparatory fixed in the corresponding same subframe of subframe n1 and subframe n2 in when subframe n1 and subframe n2 corresponds to same subframe
On the different running time-frequency resources of justice, first dispatch and second dispatch are sent to the terminal, with
The terminal is allowed to distinguish the dispatch which is TB1, which is the dispatch of TB2;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, in the corresponding same subframe of subframe n1 and subframe n2
On identical running time-frequency resource, first dispatch and second dispatch are sent to the terminal, at this point, institute
State in the first dispatch include be used to indicate first dispatch be used to indicate TB1 the first scheduling information first
It indicates information, includes that be used to indicate second dispatch be to be used to indicate the second of TB2 to adjust in second dispatch
The second indication information of information is spent, so that the terminal can distinguish the dispatch which is TB1, which is the tune of TB2
Spend signaling;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second scheduling are believed
Order is merged into third dispatch, and by institute on the setting running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2
It states third dispatch and is sent to the terminal, the embodiment of the present invention is not limited in any way this.
The embodiment of the present invention four, which provides, a kind of can be used to realize method for sending information described in the embodiment of the present invention two
Network side equipment, the network side equipment can determine the first scheduling letter for being used to indicate the TB1 that terminal is sent on subframe n1+k1
Breath the first dispatch and be used to indicate the TB2 that terminal is sent on subframe n2+k2 the second scheduling information second adjust
Signaling is spent, and sends the first dispatch to the terminal on subframe n1, and, the second dispatch is sent on subframe n2
To the terminal, so that the terminal determines the first scheduling of TB1 according to the first dispatch received from subframe n1
Information, and, the second scheduling information of TB2 is determined according to the second dispatch received from subframe n2, and work as the son
When frame n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling information and described second
Scheduling information sends the TB1 and TB2 simultaneously in the same subframe, so as to have terminal enough
On the basis of data processing time, reach so that terminal is in same subframe while sending multiple data blocks, to reach in raising
The purpose of row message transmission rate.
Embodiment five:
The embodiment of the present invention five, which provides one kind, can be used to realize information described in the embodiment of the present invention one or embodiment two
The information transmitting system of sending method, as shown in fig. 7, it shows for the structure of information transmitting system described in the embodiment of the present invention five
It is intended to, the information transmitting system may include network side equipment 71 and terminal 72, in which:
The network side equipment 71 can be used for determining that being used to indicate the first of the TB1 that terminal is sent on subframe n1+k1 adjusts
It spends the first dispatch of information and is used to indicate the of the second scheduling information for the TB2 that terminal is sent on subframe n2+k2
Two dispatch, and first dispatch is sent to the terminal on subframe n1, and, on subframe n2 described in transmission
Second dispatch gives the terminal;Wherein, described n1, n2 are random natural number;Described k1, k2 are any more than or equal to 4
Natural number;
The terminal 72 can be used for being sent out on subframe n1+k1 according to the first dispatch determination received from subframe n1
The first scheduling information of the TB1 sent is determined according to the second dispatch received from subframe n2 and is sent on subframe n2+k2
TB2 the second scheduling information, and, when the subframe n1+k1 and subframe n2+k2 corresponds to same subframe, according to
Determining first scheduling information and second scheduling information, in the same subframe simultaneously send the TB1 with
And the TB2.
Wherein, first dispatch or second dispatch can include at least any in following signaling respectively
One or more: DCI format relevant to uplink or PHICH etc., the embodiment of the present invention is not limited in any way this.Further
Ground, first scheduling information or second scheduling information can include at least respectively in following information any one or it is more
Kind: resource allocation information, modulation and coding mode, new data instruction or transmission power control information etc., the embodiment of the present invention pair
This is not also limited in any way.
Further, it should be noted that be in TDD-LTE system with the terminal in embodiment of the present invention
Terminal in system, and the proportion of the ascending-descending subframes in the TDD-LTE system be table 1 described in for, described n1, n2, k1 with
And the value of k2 can repeat no more this for following several situations described in the embodiment of the present invention one, the embodiment of the present invention five:
Situation one: the value of described n1, n2, k1 and k2 are as described in Table 2;
Situation two: the value of described n1, k1 are as described in Table 2, and the value of described n2, k2 are as described in Table 3;It needs to illustrate
It is, in situation two, before guaranteeing at least one set of as described in Table 2, at least one set in n1 and k1, n2 and k2 as described in Table 3
It puts, can also be following situations, the value of described n1, k1 are as described in Table 3, and the value of described n2, k2 are as described in Table 2, this hair
Bright embodiment does not repeat this;
Situation three: the value of described n1, n2, k1 and k2 are as described in Table 4.
Further, it should be noted that in embodiment of the present invention, the network side equipment generally can be can
Equipment, the embodiment of the present invention such as the base station of communication interaction is carried out with terminal not repeat this.
The embodiment of the present invention five, which provides one kind, can be used to realize information described in the embodiment of the present invention one or embodiment two
The information transmitting system of sending method, the terminal in the information transmitting system can be according to the first scheduling received from subframe n1
Signaling determines the first scheduling information of the TB1 sent on subframe n1+k1, according to the second dispatch received from subframe n2
It determines the second scheduling information of the TB2 sent on subframe n2+k2, and corresponds to same subframe in subframe n1+k1 and subframe n2+k2
When, TB1 and TB2 is sent according to the first scheduling information of acquisition and the second scheduling information simultaneously in the same subframe;Wherein,
N1, n2 are random natural number, and k1, k2 are the random natural number not less than 4.In the technical solution described in the embodiment of the present invention, by
The scheduling for each transmission block that will be sent in same subframe can be obtained based on the dispatch obtained in different subframes in terminal
Information, so as on the basis of making terminal have enough data processing times, reach so that terminal is same in same subframe
When send multiple data blocks, with achieve the purpose that improve higher uplink bit rate.
It will be understood by those skilled in the art that the embodiment of the present invention can provide as method, apparatus (equipment) or computer journey
Sequence product.Therefore, complete hardware embodiment, complete software embodiment or combining software and hardware aspects can be used in the present invention
The form of embodiment.Moreover, it wherein includes the calculating of computer usable program code that the present invention, which can be used in one or more,
The computer program implemented in machine usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.)
The form of product.
The present invention be referring to according to the method for the embodiment of the present invention, the flow chart of device (equipment) and computer program product
And/or block diagram describes.It should be understood that each process in flowchart and/or the block diagram can be realized by computer program instructions
And/or the combination of the process and/or box in box and flowchart and/or the block diagram.It can provide these computer programs to refer to
Enable the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to generate
One machine so that by the instruction that the processor of computer or other programmable data processing devices executes generate for realizing
The device for the function of being specified in one or more flows of the flowchart and/or one or more blocks of the block diagram.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates,
Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or
The function of being specified in multiple boxes.
These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting
Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or
The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one
The step of function of being specified in a box or multiple boxes.
Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic
Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as
It selects embodiment and falls into all change and modification of the scope of the invention.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to include these modifications and variations.
Claims (29)
1. a kind of method for sending information characterized by comprising
Terminal determines the first transmission block sent on subframe n1+k1 according to the first dispatch received from subframe n1
The first scheduling information of TB1;And
Determine the second transmission block TB2's sent on subframe n2+k2 according to the second dispatch received from subframe n2
Second scheduling information;And
When the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling information
And second scheduling information, send the TB1 and TB2 simultaneously in the same subframe;
Wherein, described n1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
2. method for sending information as described in claim 1, which is characterized in that first dispatch or second scheduling
Signaling includes at least any one or more in following signaling respectively: Downlink Control Information DCI format relevant to uplink or
Physical mixed automatic re-transmission indicating channel PHICH.
3. method for sending information as claimed in claim 1 or 2, which is characterized in that first scheduling information or described second
Scheduling information includes at least any one or more in following information respectively: resource allocation information, modulation and coding mode, new
Data instruction or transmission power control information.
4. method for sending information as claimed in claim 1 or 2, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0 or 5, the value of the k1 or the k2 are 4, when the value of the n1 or n2 is 1 or 6, the k1 or described
The value of k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 1,4,6 or 9, and when the n1's or n2
When value is 1 or 6, the value of the k1 or the k2 are 6, when the value of the n1 or n2 is 4 or 9, the k1 or described
The value of k2 is 4;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 3 or 8, and work as the value of the n1 or n2
When being 3 or 8, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 0,8 or 9, and taking as the n1 or n2
When value is 0,8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 8 or 9, and work as the value of the n1 or n2
When being 8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
5. method for sending information as claimed in claim 1 or 2, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 is 0,1,5 or 6;The value of the n2 is 0 or 5,
Alternatively, the value of the n2 is 1 or 6;And when the value of the n1 is 0 or 5, the value of the k1 is 4, when taking for the n1
When value is 1 or 6, the value of the k1 is 6;When the value of the n2 is 0 or 5, the value of the k2 is 7 or 4, as the n2
Value when being 1 or 6, the value of the k2 is 6 or 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 is 1,4,6 or 9;The value of the n2 is 0,1,5
Or 6;And when the value of the n1 is 1 or 6, the value of the k1 is 6, when the value of the n1 is 4 or 9, the k1's
Value is 4;When the value of the n2 is 0,1,5 or 6, the value of the k2 is 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 is 3 or 8;The value of the n2 is 1 or 6;And work as
When the value of the n1 is 3 or 8, the value of the k1 is 4;When the value of the n2 is 1 or 6, the value of the k2 is 6;
Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 is 0,8 or 9;The value of the n2 is 7,8 or 9,
Alternatively, the value of the n2 is 5,6 or 7;And when the value of the n1 is 0,8 or 9, the value of the k1 is 4;As the n2
Value when being 7,8 or 9, the value of the k2 is 5, and when the value of the n2 is 5,6 or 7, the value of the k2 is 7;Or
Person,
If uplink downlink configuration mode is mode 4, the value of the n1 is 8 or 9;The value of the n2 is 7 or 8, alternatively,
The value of the n2 is 6 or 7;And when the value of the n1 is 8 or 9, the value of the k1 is 4;When the value of the n2 is 7
Or when 8, the value of the k2 is 5, and when the value of the n2 is 6 or 7, the value of the k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 is 8;The value of the n2 is 7;And work as the n1
Value when being 8, the value of the k1 is 4;When the value of the n2 is 7, the value of the k2 is 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 is 0,1,5,6 or 9;The value of the n2 is 0,1
Or 9, alternatively, the value of the n2 is 0,6 or 9 and when the value of the n1 is 0,1,5 or 6, the value of the k1 is 5, when
When the value of the n1 is 9, the value of the k1 is 5;When the value of the n2 is 0 or 9, the value of the k2 is 4, works as institute
When the value for stating n2 is 1 or 6, the value of the k2 is 6.
6. method for sending information as claimed in claim 1 or 2, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 1 or 6, and work as the value of the n1 or n2
When being 1 or 6, the value of the k1 or the k2 are 6;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 7,8 or 9, and taking as the n1 or n2
When value is 7,8 or 9, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 7 or 8, and work as the value of the n1 or n2
When being 7 or 8, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
7. method for sending information as claimed in claim 1 or 2, which is characterized in that
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are nets
Network side apparatus is sent to the terminal on the different running time-frequency resources in the corresponding same subframe of subframe n1 and subframe n2;
Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are nets
Network side apparatus is sent to the terminal on the identical running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2,
It and in first dispatch include that be used to indicate first dispatch be the first scheduling information for being used to indicate TB1
First instruction information includes that be used to indicate second dispatch be used to indicate TB2 the in second dispatch
The second indication information of two scheduling informations;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are nets
After first dispatch and second dispatch are merged into third dispatch by network side apparatus, in subframe n1
And the terminal is sent on the setting running time-frequency resource in the corresponding same subframe of subframe n2.
8. a kind of method for sending information characterized by comprising
Network side equipment determines the first scheduling information for being used to indicate the first transmission block TB1 that terminal is sent on subframe n1+k1
The first dispatch and be used to indicate the second scheduling information of the second transmission block TB2 that terminal is sent on subframe n2+k2
The second dispatch;And
The first dispatch is sent on subframe n1 to the terminal, and, the second dispatch is sent on subframe n2 to institute
Terminal is stated, so that the terminal determines the first scheduling information of TB1 according to the first dispatch received from subframe n1,
And the second scheduling information of TB2 is determined according to the second dispatch received from subframe n2, and work as the subframe n1+
When k1 and the subframe n2+k2 correspond to same subframe, according to determining first scheduling information and second scheduling
Information sends the TB1 and TB2 simultaneously in the same subframe;Wherein, described n1, n2 are random natural number;Institute
Stating k1, k2 is the random natural number more than or equal to 4.
9. method for sending information as claimed in claim 8, which is characterized in that first dispatch or second scheduling
Signaling includes at least any one or more in following signaling respectively: Downlink Control Information DCI format relevant to uplink or
Physical mixed automatic re-transmission indicating channel PHICH.
10. method for sending information as claimed in claim 8 or 9, which is characterized in that first scheduling information or described second
Scheduling information includes at least any one or more in following information respectively: resource allocation information, modulation and coding mode, new
Data instruction or transmission power control information.
11. method for sending information as claimed in claim 8 or 9, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0 or 5, the value of the k1 or the k2 are 4, when the value of the n1 or n2 is 1 or 6, the k1 or described
The value of k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 1,4,6 or 9, and when the n1's or n2
When value is 1 or 6, the value of the k1 or the k2 are 6, when the value of the n1 or n2 is 4 or 9, the k1 or described
The value of k2 is 4;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 3 or 8, and work as the value of the n1 or n2
When being 3 or 8, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 0,8 or 9, and taking as the n1 or n2
When value is 0,8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 8 or 9, and work as the value of the n1 or n2
When being 8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
12. method for sending information as claimed in claim 8 or 9, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 is 0,1,5 or 6;The value of the n2 is 0 or 5,
Alternatively, the value of the n2 is 1 or 6;And when the value of the n1 is 0 or 5, the value of the k1 is 4, when taking for the n1
When value is 1 or 6, the value of the k1 is 6;When the value of the n2 is 0 or 5, the value of the k2 is 7 or 4, as the n2
Value when being 1 or 6, the value of the k2 is 6 or 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 is 1,4,6 or 9;The value of the n2 is 0,1,5
Or 6;And when the value of the n1 is 1 or 6, the value of the k1 is 6, when the value of the n1 is 4 or 9, the k1's
Value is 4;When the value of the n2 is 0,1,5 or 6, the value of the k2 is 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 is 3 or 8;The value of the n2 is 1 or 6;And work as
When the value of the n1 is 3 or 8, the value of the k1 is 4;When the value of the n2 is 1 or 6, the value of the k2 is 6;
Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 is 0,8 or 9;The value of the n2 is 7,8 or 9,
Alternatively, the value of the n2 is 5,6 or 7;And when the value of the n1 is 0,8 or 9, the value of the k1 is 4;As the n2
Value when being 7,8 or 9, the value of the k2 is 5, and when the value of the n2 is 5,6 or 7, the value of the k2 is 7;Or
Person,
If uplink downlink configuration mode is mode 4, the value of the n1 is 8 or 9;The value of the n2 is 7 or 8, alternatively,
The value of the n2 is 6 or 7;And when the value of the n1 is 8 or 9, the value of the k1 is 4;When the value of the n2 is 7
Or when 8, the value of the k2 is 5, and when the value of the n2 is 6 or 7, the value of the k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 is 8;The value of the n2 is 7;And work as the n1
Value when being 8, the value of the k1 is 4;When the value of the n2 is 7, the value of the k2 is 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 is 0,1,5,6 or 9;The value of the n2 is 0,1
Or 9, alternatively, the value of the n2 is 0,6 or 9 and when the value of the n1 is 0,1,5 or 6, the value of the k1 is 5, when
When the value of the n1 is 9, the value of the k1 is 5;When the value of the n2 is 0 or 9, the value of the k2 is 4, works as institute
When the value for stating n2 is 1 or 6, the value of the k2 is 6.
13. method for sending information as claimed in claim 8 or 9, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 1 or 6, and work as the value of the n1 or n2
When being 1 or 6, the value of the k1 or the k2 are 6;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 7,8 or 9, and taking as the n1 or n2
When value is 7,8 or 9, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 7 or 8, and work as the value of the n1 or n2
When being 7 or 8, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
14. method for sending information as claimed in claim 8 or 9, which is characterized in that send the first dispatch on subframe n1
To the terminal, and, the second dispatch is sent on subframe n2 to the terminal, comprising:
Difference when subframe n1 and subframe n2 correspond to same subframe, in the corresponding same subframe of subframe n1 and subframe n2
Running time-frequency resource on, first dispatch and second dispatch are sent to the terminal;Alternatively,
It is identical in the corresponding same subframe of subframe n1 and subframe n2 when subframe n1 and subframe n2 correspond to same subframe
Running time-frequency resource on, first dispatch and second dispatch are sent to the terminal, and described first
It include being used to indicate the first instruction that first dispatch is the first scheduling information for being used to indicate TB1 to believe in dispatch
Breath includes that be used to indicate second dispatch be the second scheduling information for being used to indicate TB2 in second dispatch
Second indication information;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are closed
And at third dispatch, and by described on the setting running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2
Three dispatch are sent to the terminal.
15. a kind of terminal characterized by comprising
Signaling receiving module, for receiving the first dispatch from subframe n1, and, the second scheduling letter is received from subframe n2
It enables;
Information determination module is sent on subframe n1+k1 for being determined according to the first dispatch received from subframe n1
The first transmission block TB1 the first scheduling information;And it is determined according to the second dispatch received from subframe n2 in son
The second scheduling information of the second transmission block TB2 sent on frame n2+k2;
Information sending module is used for when the subframe n1+k1 and subframe n2+k2 corresponds to same subframe, according to determination
First scheduling information and second scheduling information, send the TB1 and institute simultaneously in the same subframe
State TB2;
Wherein, described n1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
16. terminal as claimed in claim 15, which is characterized in that first dispatch or second dispatch point
Zhi Shaobaokuo any one or more in following signaling: Downlink Control Information DCI format relevant to uplink or physics be mixed
Close automatic re-transmission indicating channel PHICH.
17. the terminal as described in claim 15 or 16, which is characterized in that first scheduling information or the second scheduling letter
Breath includes at least any one or more in following information respectively: resource allocation information, modulation and coding mode, new data refer to
Show or transmission power control information.
18. the terminal as described in claim 15 or 16, which is characterized in that the value difference of described n1, n2, k1 and k2 are as follows
It is described:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0 or 5, the value of the k1 or the k2 are 4, when the value of the n1 or n2 is 1 or 6, the k1 or described
The value of k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 1,4,6 or 9, and when the n1's or n2
When value is 1 or 6, the value of the k1 or the k2 are 6, when the value of the n1 or n2 is 4 or 9, the k1 or described
The value of k2 is 4;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 3 or 8, and work as the value of the n1 or n2
When being 3 or 8, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 0,8 or 9, and taking as the n1 or n2
When value is 0,8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 8 or 9, and work as the value of the n1 or n2
When being 8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
19. the terminal as described in claim 15 or 16, which is characterized in that the value difference of described n1, n2, k1 and k2 are as follows
It is described:
If uplink downlink configuration mode is mode 0, the value of the n1 is 0,1,5 or 6;The value of the n2 is 0 or 5,
Alternatively, the value of the n2 is 1 or 6;And when the value of the n1 is 0 or 5, the value of the k1 is 4, when taking for the n1
When value is 1 or 6, the value of the k1 is 6;When the value of the n2 is 0 or 5, the value of the k2 is 7 or 4, as the n2
Value when being 1 or 6, the value of the k2 is 6 or 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 is 1,4,6 or 9;The value of the n2 is 0,1,5
Or 6;And when the value of the n1 is 1 or 6, the value of the k1 is 6, when the value of the n1 is 4 or 9, the k1's
Value is 4;When the value of the n2 is 0,1,5 or 6, the value of the k2 is 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 is 3 or 8;The value of the n2 is 1 or 6;And work as
When the value of the n1 is 3 or 8, the value of the k1 is 4;When the value of the n2 is 1 or 6, the value of the k2 is 6;
Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 is 0,8 or 9;The value of the n2 is 7,8 or 9,
Alternatively, the value of the n2 is 5,6 or 7;And when the value of the n1 is 0,8 or 9, the value of the k1 is 4;As the n2
Value when being 7,8 or 9, the value of the k2 is 5, and when the value of the n2 is 5,6 or 7, the value of the k2 is 7;Or
Person,
If uplink downlink configuration mode is mode 4, the value of the n1 is 8 or 9;The value of the n2 is 7 or 8, alternatively,
The value of the n2 is 6 or 7;And when the value of the n1 is 8 or 9, the value of the k1 is 4;When the value of the n2 is 7
Or when 8, the value of the k2 is 5, and when the value of the n2 is 6 or 7, the value of the k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 is 8;The value of the n2 is 7;And work as the n1
Value when being 8, the value of the k1 is 4;When the value of the n2 is 7, the value of the k2 is 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 is 0,1,5,6 or 9;The value of the n2 is 0,1
Or 9, alternatively, the value of the n2 is 0,6 or 9 and when the value of the n1 is 0,1,5 or 6, the value of the k1 is 5, when
When the value of the n1 is 9, the value of the k1 is 5;When the value of the n2 is 0 or 9, the value of the k2 is 4, works as institute
When the value for stating n2 is 1 or 6, the value of the k2 is 6.
20. the terminal as described in claim 15 or 16, which is characterized in that the value difference of described n1, n2, k1 and k2 are as follows
It is described:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 1 or 6, and work as the value of the n1 or n2
When being 1 or 6, the value of the k1 or the k2 are 6;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 7,8 or 9, and taking as the n1 or n2
When value is 7,8 or 9, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 7 or 8, and work as the value of the n1 or n2
When being 7 or 8, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
21. the terminal as described in claim 15 or 16, which is characterized in that
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are nets
Network side apparatus is sent to the terminal on the different running time-frequency resources in the corresponding same subframe of subframe n1 and subframe n2;
Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are nets
Network side apparatus is sent to the terminal on the identical running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2,
It and in first dispatch include that be used to indicate first dispatch be the first scheduling information for being used to indicate TB1
First instruction information includes that be used to indicate second dispatch be used to indicate TB2 the in second dispatch
The second indication information of two scheduling informations;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are nets
After first dispatch and second dispatch are merged into third dispatch by network side apparatus, in subframe n1
And the terminal is sent on the setting running time-frequency resource in the corresponding same subframe of subframe n2.
22. a kind of network side equipment characterized by comprising
Signaling determining module, for determining that be used to indicate the first transmission block TB1 that terminal is sent on subframe n1+k1 first adjusts
It spends the first dispatch of information and is used to indicate the second of the second transmission block TB2 that terminal is sent on subframe n2+k2 and adjust
Spend the second dispatch of information;
Signaling sending module, for sending the first dispatch on subframe n1 to the terminal, and, it is sent on subframe n2
Second dispatch gives the terminal, so that the terminal is determined according to the first dispatch received from subframe n1
The first scheduling information of TB1, and, determine that the second scheduling of TB2 is believed according to the second dispatch received from subframe n2
Breath, and when the subframe n1+k1 and the subframe n2+k2 correspond to same subframe, believed according to determining first scheduling
Breath and second scheduling information send the TB1 and TB2 simultaneously in the same subframe;Wherein, described
N1, n2 are random natural number;Described k1, k2 are the random natural number more than or equal to 4.
23. network side equipment as claimed in claim 22, which is characterized in that first dispatch or second scheduling
Signaling includes at least any one or more in following signaling respectively: Downlink Control Information DCI format relevant to uplink or
Physical mixed automatic re-transmission indicating channel PHICH.
24. the network side equipment as described in claim 22 or 23, which is characterized in that first scheduling information or described second
Scheduling information includes at least any one or more in following information respectively: resource allocation information, modulation and coding mode, new
Data instruction or transmission power control information.
25. the network side equipment as described in claim 22 or 23, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0 or 5, the value of the k1 or the k2 are 4, when the value of the n1 or n2 is 1 or 6, the k1 or described
The value of k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 1,4,6 or 9, and when the n1's or n2
When value is 1 or 6, the value of the k1 or the k2 are 6, when the value of the n1 or n2 is 4 or 9, the k1 or described
The value of k2 is 4;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 3 or 8, and work as the value of the n1 or n2
When being 3 or 8, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 0,8 or 9, and taking as the n1 or n2
When value is 0,8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 8 or 9, and work as the value of the n1 or n2
When being 8 or 9, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 4;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
26. the network side equipment as described in claim 22 or 23, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 is 0,1,5 or 6;The value of the n2 is 0 or 5,
Alternatively, the value of the n2 is 1 or 6;And when the value of the n1 is 0 or 5, the value of the k1 is 4, when taking for the n1
When value is 1 or 6, the value of the k1 is 6;When the value of the n2 is 0 or 5, the value of the k2 is 7 or 4, as the n2
Value when being 1 or 6, the value of the k2 is 6 or 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 is 1,4,6 or 9;The value of the n2 is 0,1,5
Or 6;And when the value of the n1 is 1 or 6, the value of the k1 is 6, when the value of the n1 is 4 or 9, the k1's
Value is 4;When the value of the n2 is 0,1,5 or 6, the value of the k2 is 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 is 3 or 8;The value of the n2 is 1 or 6;And work as
When the value of the n1 is 3 or 8, the value of the k1 is 4;When the value of the n2 is 1 or 6, the value of the k2 is 6;
Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 is 0,8 or 9;The value of the n2 is 7,8 or 9,
Alternatively, the value of the n2 is 5,6 or 7;And when the value of the n1 is 0,8 or 9, the value of the k1 is 4;As the n2
Value when being 7,8 or 9, the value of the k2 is 5, and when the value of the n2 is 5,6 or 7, the value of the k2 is 7;Or
Person,
If uplink downlink configuration mode is mode 4, the value of the n1 is 8 or 9;The value of the n2 is 7 or 8, alternatively,
The value of the n2 is 6 or 7;And when the value of the n1 is 8 or 9, the value of the k1 is 4;When the value of the n2 is 7
Or when 8, the value of the k2 is 5, and when the value of the n2 is 6 or 7, the value of the k2 is 6;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 is 8;The value of the n2 is 7;And work as the n1
Value when being 8, the value of the k1 is 4;When the value of the n2 is 7, the value of the k2 is 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 is 0,1,5,6 or 9;The value of the n2 is 0,1
Or 9, alternatively, the value of the n2 is 0,6 or 9 and when the value of the n1 is 0,1,5 or 6, the value of the k1 is 5, when
When the value of the n1 is 9, the value of the k1 is 5;When the value of the n2 is 0 or 9, the value of the k2 is 4, works as institute
When the value for stating n2 is 1 or 6, the value of the k2 is 6.
27. the network side equipment as described in claim 22 or 23, which is characterized in that the value of described n1, n2, k1 and k2 point
It is not as described below:
If uplink downlink configuration mode is mode 0, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 1, the value of the n1 or n2 are 0,1,5 or 6, and when the n1's or n2
When value is 0,1,5 or 6, the value of the k1 or the k2 are 7;Alternatively,
If uplink downlink configuration mode is mode 2, the value of the n1 or n2 are 1 or 6, and work as the value of the n1 or n2
When being 1 or 6, the value of the k1 or the k2 are 6;Alternatively,
If uplink downlink configuration mode is mode 3, the value of the n1 or n2 are 7,8 or 9, and taking as the n1 or n2
When value is 7,8 or 9, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 4, the value of the n1 or n2 are 7 or 8, and work as the value of the n1 or n2
When being 7 or 8, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 5, the value of the n1 or n2 are 8, and when the value of the n1 or n2 is 8
When, the value of the k1 or the k2 are 5;Alternatively,
If uplink downlink configuration mode is mode 6, the value of the n1 or n2 are 0,1,5,6 or 9, and work as the n1 or n2
Value when being 0,1,5 or 6, the value of the k1 or the k2 is 7, when the value of the n1 or n2 is 9, the k1 or institute
The value for stating k2 is 5.
28. the network side equipment as described in claim 22 or 23, which is characterized in that
The signaling sending module is specifically used for when subframe n1 and subframe n2 corresponds to same subframe, in subframe n1 and son
On different running time-frequency resources in the corresponding same subframe of frame n2, by first dispatch and second dispatch
It is sent to the terminal;Alternatively,
It is identical in the corresponding same subframe of subframe n1 and subframe n2 when subframe n1 and subframe n2 correspond to same subframe
Running time-frequency resource on, first dispatch and second dispatch are sent to the terminal, and described first
It include being used to indicate the first instruction that first dispatch is the first scheduling information for being used to indicate TB1 to believe in dispatch
Breath includes that be used to indicate second dispatch be the second scheduling information for being used to indicate TB2 in second dispatch
Second indication information;Alternatively,
When subframe n1 and subframe n2 correspond to same subframe, first dispatch and second dispatch are closed
And at third dispatch, and by described on the setting running time-frequency resource in the corresponding same subframe of subframe n1 and subframe n2
Three dispatch are sent to the terminal.
29. a kind of information transmitting system characterized by comprising
Network side equipment, for determining the first scheduling for being used to indicate the first transmission block TB1 that terminal is sent on subframe n1+k1
First dispatch of information and the second scheduling for being used to indicate the second transmission block TB2 that terminal is sent on subframe n2+k2
Second dispatch of information, and first dispatch is sent to the terminal on subframe n1, and, on subframe n2
Second dispatch is sent to the terminal;
Terminal, for determining the of the TB1 sent on subframe n1+k1 according to the first dispatch for receiving from subframe n1
One scheduling information determines the second of the TB2 sent on subframe n2+k2 according to the second dispatch received from subframe n2
Scheduling information, and, when the subframe n1+k1 and subframe n2+k2 corresponds to same subframe, according to determining described
One scheduling information and second scheduling information send the TB1 and TB2 simultaneously in the same subframe;
Wherein, described n1, n2 are random natural number;Described k1, k2 are respectively the random natural number for being more than or equal to 4.
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CN102281646A (en) * | 2011-07-29 | 2011-12-14 | 电信科学技术研究院 | Method and apparatus for transmitting uplink data |
CN102859923A (en) * | 2010-03-22 | 2013-01-02 | 三星电子株式会社 | Multiplexing control and data information from a user equipment in a physical data channel |
WO2013120430A1 (en) * | 2012-02-13 | 2013-08-22 | 电信科学技术研究院 | Method and device for uplink data transmission |
CN103580775A (en) * | 2012-07-20 | 2014-02-12 | 中兴通讯股份有限公司 | Method and device for analyzing and judging TD-SCDMA downlink control channel signaling |
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CN101567774A (en) * | 2008-04-25 | 2009-10-28 | 大唐移动通信设备有限公司 | Method and device for achieving multi-subframe joint scheduling |
CN102859923A (en) * | 2010-03-22 | 2013-01-02 | 三星电子株式会社 | Multiplexing control and data information from a user equipment in a physical data channel |
CN102281646A (en) * | 2011-07-29 | 2011-12-14 | 电信科学技术研究院 | Method and apparatus for transmitting uplink data |
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