CN108400834A - Transmission method, device and the equipment of information - Google Patents
Transmission method, device and the equipment of information Download PDFInfo
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- CN108400834A CN108400834A CN201710067383.8A CN201710067383A CN108400834A CN 108400834 A CN108400834 A CN 108400834A CN 201710067383 A CN201710067383 A CN 201710067383A CN 108400834 A CN108400834 A CN 108400834A
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- kinds
- harq
- ack
- shared channel
- uplink shared
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
- H04L5/0008—Wavelet-division
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/004—Arrangements for detecting or preventing errors in the information received by using forward error control
- H04L1/0056—Systems characterized by the type of code used
- H04L1/0071—Use of interleaving
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/1607—Details of the supervisory signal
- H04L1/1671—Details of the supervisory signal the supervisory signal being transmitted together with control information
- H04L1/1678—Details of the supervisory signal the supervisory signal being transmitted together with control information where the control information is for timing, e.g. time stamps
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/18—Automatic repetition systems, e.g. Van Duuren systems
- H04L1/1812—Hybrid protocols; Hybrid automatic repeat request [HARQ]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
- H04L5/0055—Physical resource allocation for ACK/NACK
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0078—Timing of allocation
- H04L5/0082—Timing of allocation at predetermined intervals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0446—Resources in time domain, e.g. slots or frames
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
Abstract
The present invention provides a kind of transmission method of information, device and equipment, wherein this method includes:When the agreement transmission time of N kind ascending control informations UCI and the agreement transmission time of Physical Uplink Shared Channel PUSCH there are it is Chong Die when, transmission N kinds UCI is transmitted or abandoned in destination channel according to specific mode, therefore, technical scheme of the present invention solves the corresponding UCI of TTI for not proposing how TTI and 1ms of the simultaneous transmission less than 1ms in the related technology, and when the DMRS of PUSCH and data are located in different TTI, the problem of how transmitting the UCI on difference TTI, the corresponding UCI of TTI for realizing TTI and 1ms of the simultaneous transmission less than 1ms are reached, and when the DMRS of PUSCH and data are located in different TTI, transmit the effect of the UCI on difference TTI.
Description
Technical field
The present invention relates to the communications fields, in particular to a kind of transmission method of information, device and equipment.
Background technology
The fast development of mobile Internet and Internet of Things has caused explosive growth and diversification, the differentiation of data traffic
The extensive rise of business.Mobile communication technologies of the 5G as a new generation, opposite 4G will support higher rate, flood tide link and surpass
Low time delay realizes higher reliability and is obviously improved energy efficiency, meets current business demand well.
In many index of 5G technologies, key index of the ultralow time delay as 5G technologies, directly affect as car networking,
The development of the Delay Constraints business such as industrial automation, remote control, intelligent grid, a series of current marks reduced about 5G time delays
Quasi- research is just in iterative method.
As the important research direction that current time delay reduces, Transmission Time Interval (Transmission Time are reduced
Interval, referred to as TTI) it is particularly important.In the related technology, it is intended to which the TTI of present 1ms length is reduced to 0.5ms even 2
A Orthodoxy Frequency Division Multiplex (Orthogonal Frequency Division Multiplexing, referred to as OFDM) symbol
Length, at double reduce minimum scheduling time, and then when not changing frame structure and exponentially reducing single transmission
Prolong.Also the short TTI time delays of registration study have reduced technology to 3GPP.
In short TTI (short TTI) technology, UE needs to support the biography of the TTI of TTI and existing 1ms less than 1ms
Defeated, UE needs switching at runtime therebetween.But the relevant technologies do not propose how simultaneous transmission less than 1ms TTI and
The corresponding ascending control informations of TTI (Uplink Control Information, referred to as UCI) of 1ms, and work as physical uplink
The demodulated reference signal of shared channel (Physical Uplink Shared Channel, referred to as PUSCH)
When (Demodulation Reference Signal, referred to as DMRS) and data are located in different TTI, the relevant technologies
It does not propose how to transmit the UCI on difference TTI.
In view of the above-mentioned problems, not yet proposing effective solution scheme in the related technology.
Invention content
An embodiment of the present invention provides a kind of transmission method of information, device and equipment, at least to solve in the related technology
The corresponding UCI of TTI of TTI and 1ms of the simultaneous transmission less than 1ms are not proposed how, and as the DMRS and data bit of PUSCH
When in different TTI, the problem of how transmitting the UCI on difference TTI.
According to one embodiment of present invention, a kind of transmission method of information is provided, including:When the agreement of N kinds UCI passes
Defeated time and the agreement transmission time of PUSCH there are it is Chong Die when, transmit or abandon to transmit in destination channel according to specific mode
The N kinds UCI, wherein the N kinds UCI belongs to M kinds UCI;The destination channel includes at least one:The PUSCH,
The corresponding control channel of the N kinds UCI, specified PUSCH, the specified PUSCH are where the data symbol of the PUSCH
The channel transmitted on TTI, M >=N >=1.
Optionally, the corresponding agreement transmission times of at least two UCI in the M kinds UCI are not overlapped and corresponding TTI long
It is identical to spend type;And/or the corresponding agreement transmission times of at least two UCI in the M kinds UCI are overlapped and corresponding TTI long
Degree type differs.
Optionally, the M kinds UCI includes at least one of:Arrange transmission time as where the DMRS of the PUSCH
The UCI of TTI;Arrange the UCI of the TTI where the data symbol that transmission time is the PUSCH;It is described to arrange transmission time
The UCI of subframe where PUSCH.
Optionally, there are Chong Die for the agreement transmission time with the agreement transmission time of the PUSCH of the M kinds UCI.
Optionally, when the M kinds UCI is hybrid automatic repeat-request confirmation message (Hybrid Automatic
Repeat reQuest Acknowledgement, referred to as HARQ-ACK) when, using the PUSCH as the destination channel
Transmit the N kinds UCI.
Optionally, the N kinds UCI is transmitted using the PUSCH as the destination channel, including:As N=1, to one kind
The HARQ-ACK is encoded;The bit after coding is scrambled by corresponding scramble sequence;By the bit after scrambling
The interleaver matrix of the PUSCH is written;And/or as N > 1, logic and operation is carried out to HARQ-ACK described in N kinds;By operation
Bit afterwards is encoded;The bit after coding is scrambled by corresponding scramble sequence;By the bit write-in after scrambling
The interleaver matrix of the PUSCH.
Optionally, the different values of N correspond to the different scramble sequences;Or various combination corresponds to the different scramblings
Sequence, wherein one or more being formed in combination HARQ-ACK described in M kinds.
Optionally, the N kinds UCI is transmitted using the PUSCH as the destination channel, including:Will with described in M kinds
Cascade obtains n bit after encoding or encode after the corresponding bit cascades of HARQ-ACK;Described in n bit write-in
The interleaver matrix of PUSCH, wherein n is the integer more than or equal to 1.
Optionally, the N kinds UCI is transmitted using the PUSCH as the destination channel, including:By HARQ- described in N kinds
ACK is written in the interleaver matrix of the PUSCH, wherein the position that HARQ-ACK is written in the interleaver matrix described in N kinds does not weigh
It is folded.
Optionally, the N kinds UCI is transmitted using the PUSCH as the destination channel, including:In the biography of the PUSCH
A single-carrier frequency division multiple access (Single-carrier Frequency-Division Multiple in the defeated time
Access, referred to as SC-FDMA) HARQ-ACK described in transmission N kinds in symbol.
Optionally, the corresponding modulation symbol number summations of HARQ-ACK described in M kinds are less than or equal to the first designated value, wherein
First designated value is pre-set, or is led to according to what evolved base station (Evolved NodeB, referred to as eNB) was sent
Know the value that information determines.
Optionally, total modulation that a SC-FDMA symbol of first designated value equal to or less than the PUSCH includes
Symbolic number.
Optionally, first designated value is α × R, wherein α is the positive number less than or equal to 1, and R is the PUSCH
Corresponding sub-carrier number.
Optionally, the corresponding modulation symbol numbers of the first HARQ-ACK are less than or equal to the second designated value, wherein described second
Designated value is pre-set, or the value that the notification information sent according to eNB determines, the first HARQ-ACK is described in M kinds
A kind of HARQ-ACK in HARQ-ACK.
Optionally, total modulation that a SC-FDMA symbol of second designated value less than or equal to the PUSCH includes
Symbolic number;And/or total modulation symbol that a SC-FDMA symbol of second designated value less than or equal to the PUSCH includes
The value that number divided by M are obtained.
Optionally, second designated value be γ × R, wherein γ be less than or equal toPositive number, R be the PUSCH
Corresponding sub-carrier number.
Optionally, it is determined according to the corresponding modulation symbol number maximum values of the 2nd HARQ-ACK in HARQ-ACK described in M kinds
The corresponding modulation symbol number maximum value of first HARQ-ACK, wherein the 2nd HARQ-ACK is HARQ-ACK described in M kinds
In one or more HARQ-ACK in addition to the first HARQ-ACK.
Optionally, the notification information according to eNB transmissions is determining or pre-sets the first HARQ-ACK in the interleaver matrix
In position, wherein the first HARQ-ACK is a kind of HARQ-ACK in HARQ-ACK described in M kinds.
Optionally, the position includes following one:The cut-off of the initial position of the interleaver matrix, the interleaver matrix
Position, the interleaver matrix centre position.
Optionally, positions of the first HARQ-ACK in the interleaver matrix is determined at least one in the following manner
It sets:The maximum value of the corresponding modulation symbol number of first HARQ-ACK;The corresponding modulation symbol number of 2nd HARQ-ACK
Maximum value, wherein the 2nd HARQ-ACK is one kind in HARQ-ACK in addition to the first HARQ-ACK described in M kinds
Or a variety of HARQ-ACK;Order instruction (Rank Indication, referred to as RI), channel state information reference signal resource refer to
Show (Channel State Information-Reference Signal Resource Indication, referred to as CRI),
Channel status indicates (Channel Quality Indicator, referred to as CQI) and pre-coding matrix instruction (Precoding
Matrix Indicator, referred to as PMI) at least one of corresponding position;The corresponding modulation symbol numbers of RI or CRI.
Optionally, in the interleaver matrix of the PUSCH, the 3rd HARQ-ACK is being referred to according to the size of line index
It positions the both sides set and is sequentially written in the interleaver matrix, wherein the designated position is to pre-set or sent according to the eNB
Notification information determine.
Optionally, the N kinds UCI is transmitted using the PUSCH as the destination channel, including:Described in transmission
The DMRS of PUSCH transmits the N kinds UCI, wherein the DMRS carries the information of HARQ-ACK described in N kinds.
Optionally, the cyclic shift of the DMRS is used to indicate the information of HARQ-ACK described in N kinds;And/or the DMRS
Comb tooth density be used to indicate the information in HARQ-ACK described in N kinds.
Optionally, it is described when the corresponding TTI of the HARQ-ACK information TTIs corresponding with the DMRS described in the N kinds is identical
DMRS carries the information of HARQ-ACK described in N kinds.
Optionally, the N kinds UCI is transmitted using the PUSCH as the destination channel, including:It is carried on the PUSCH
Coding after information bit scramble sequence carry N kinds described in HARQ-ACK information.
Optionally, the N kinds UCI includes:First UCI and/or the 2nd UCI, wherein the agreement of the first UCI is transmitted
Time is the TTI where the DMRS of the PUSCH, and the agreement transmission time of the 2nd UCI is the data symbol of the PUSCH
The TTI at place.
Optionally, the corresponding control channels of the 2nd UCI and the PUSCH are transmitted, wherein the described 2nd UCI pairs
The transmission power for the control channel answered is less than or equal to the difference of preconfigured maximum power and the transmission power of the PUSCH
Value.
Optionally, the corresponding control channels of the first UCI and the specified PUSCH are transmitted.
Optionally, it is transmitted on first symbol of the DMRS of the specified PUSCH on the TTI.
Optionally, when receiving the signaling and power limited of control channel and Traffic Channel simultaneous transmission, described
The 2nd UCI is transmitted on PUSCH.
Optionally, when determine the first UCI be periodic channel status information (Channel State Information,
Referred to as CSI) when, it abandons transmitting the first UCI.
According to another embodiment of the invention, a kind of transmitting device of information is provided, including:Transmission module is used for
When the agreement transmission time of N kinds UCI and the agreement transmission time of PUSCH there are it is Chong Die when, according to specific mode in destination channel
Upper transmission is abandoned transmitting the N kinds UCI, wherein the N kinds UCI belongs to M kinds UCI;The destination channel includes at least following
One of:The PUSCH, the corresponding control channels of the N kinds UCI, specified PUSCH, the specified PUSCH are in the PUSCH
Data symbol where TTI on the channel that transmits, M >=N >=1.
Optionally, there are Chong Die for the agreement transmission time with the agreement transmission time of the PUSCH of the M kinds UCI.
Optionally, the transmission module is additionally operable to when the M kinds UCI is HARQ-ACK, using the PUSCH as institute
It states destination channel and transmits the N kinds UCI.
Optionally, the N kinds UCI includes the first UCI and/or the 2nd UCI, wherein when the agreement transmission of the first UCI
Between be TTI where the DMRS of the PUSCH, the agreement transmission time of the 2nd UCI for the PUSCH data symbol institute
TTI.
Optionally, the transmission module is additionally operable to transmit the corresponding control channels of the 2nd UCI and the PUSCH,
Wherein, the transmission power of the corresponding control channels of the 2nd UCI be less than or equal to preconfigured maximum power with it is described
The difference of the transmission power of PUSCH.
Optionally, the transmission module is additionally operable to transmit corresponding control channels of the first UCI and described specified
PUSCH。
Optionally, the transmission module is additionally operable to when the signaling and work(for receiving control channel and Traffic Channel simultaneous transmission
Rate is transmitted the 2nd UCI by limited time on the PUSCH.
Optionally, the transmission module is additionally operable to when it is period CSI to determine the first UCI, abandons transmitting described the
One UCI.
According to another embodiment of the invention, a kind of transmission device of information is provided, including:Processor, for true
Determine N kinds UCI agreement transmission time and the agreement transmission time of PUSCH with the presence or absence of Chong Die;Communication device, for working as the place
Reason device determine the agreement transmission time of the N kinds UCI and the agreement transmission time of the PUSCH there are it is Chong Die when, according to specifying
Mode is transmitted or abandons to transmit the N kinds UCI in destination channel, wherein the N kinds UCI belongs to M kinds UCI;The target letter
Road includes at least one:The PUSCH, the corresponding control channels of the N kinds UCI, specified PUSCH, the specified PUSCH
For the channel transmitted on the TTI where the data symbol of the PUSCH, M >=N >=1.
Optionally, there are Chong Die for the agreement transmission time with the agreement transmission time of the PUSCH of the M kinds UCI.
According to another embodiment of the invention, a kind of storage medium is additionally provided.The storage medium is set as storage and uses
In the program code for executing following steps:When there are Chong Die with the agreement transmission time of PUSCH for the agreement transmission time of N kinds UCI
When, it in destination channel transmits or abandons according to specific mode to transmit the N kinds UCI, wherein the N kinds UCI belongs to M kinds
UCI;The destination channel includes at least one:The PUSCH, it the corresponding control channels of the N kinds UCI, specifies
PUSCH, the specified PUSCH are the channel transmitted on the TTI where the data symbol of the PUSCH, M >=N >=1.
Optionally, storage medium is also configured to store the program code for executing following steps:When the M kinds UCI is equal
For HARQ-ACK when, transmit the N kinds UCI using the PUSCH as the destination channel.
Optionally, storage medium is also configured to store the program code for executing following steps:As N=1, to one kind
The HARQ-ACK is encoded;The bit after coding is scrambled by corresponding scramble sequence;By the bit after scrambling
The interleaver matrix of the PUSCH is written;And/or as N > 1, logic and operation is carried out to HARQ-ACK described in N kinds;By operation
Bit afterwards is encoded;The bit after coding is scrambled by corresponding scramble sequence;By the bit write-in after scrambling
The interleaver matrix of the PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:Will with described in M kinds
Cascade obtains n bit after encoding or encode after the corresponding bit cascades of HARQ-ACK;Described in n bit write-in
The interleaver matrix of PUSCH, wherein n is the integer more than or equal to 1.
Optionally, storage medium is also configured to store the program code for executing following steps:By HARQ- described in N kinds
ACK is written in the interleaver matrix of the PUSCH, wherein the position that HARQ-ACK is written in the interleaver matrix described in N kinds does not weigh
It is folded.
Optionally, storage medium is also configured to store the program code for executing following steps:In the biography of the PUSCH
HARQ-ACK described in N kinds is transmitted in a SC-FDMA symbol in the defeated time.
Optionally, storage medium is also configured to store the program code for executing following steps:According to described in M kinds
The corresponding modulation symbol number maximum values of the 2nd HARQ-ACK in HARQ-ACK determine the corresponding modulation of the first HARQ-ACK
Symbolic number maximum value, wherein the 2nd HARQ-ACK be described in M kinds in HARQ-ACK in addition to the first HARQ-ACK
One or more HARQ-ACK.
Optionally, storage medium is also configured to store the program code for executing following steps:In the following manner extremely
One of few position for determining the first HARQ-ACK in the interleaver matrix:The corresponding modulation symbol of first HARQ-ACK
The maximum value of number;The maximum value of the corresponding modulation symbol number of 2nd HARQ-ACK, wherein the 2nd HARQ-ACK is
One or more HARQ-ACK in HARQ-ACK described in M kinds in addition to the first HARQ-ACK;In RI, CRI, CQI and PMI
At least one of corresponding position;The corresponding modulation symbol numbers of RI or CRI.
Optionally, storage medium is also configured to store the program code for executing following steps:In the friendship of the PUSCH
It knits in matrix, the 3rd HARQ-ACK is sequentially written in by the intertexture square in the both sides of designated position according to the size of line index
Battle array, wherein the designated position is to pre-set or determined according to the eNB notification informations sent.
Optionally, storage medium is also configured to store the program code for executing following steps:Described in transmission
The DMRS of PUSCH transmits the N kinds UCI, wherein the DMRS carries the information of HARQ-ACK described in N kinds.
Optionally, storage medium is also configured to store the program code for executing following steps:It is carried on the PUSCH
Coding after information bit scramble sequence carry N kinds described in HARQ-ACK information.
Optionally, storage medium is also configured to store the program code for executing following steps:Transmit the 2nd UCI
Corresponding control channel and the PUSCH, wherein the transmission power of the corresponding control channel of the 2nd UCI is less than or waits
In the difference of preconfigured maximum power and the transmission power of the PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:Transmit the first UCI
Corresponding control channel and the specified PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:Believe when receiving control
When the signaling and power limited of road and Traffic Channel simultaneous transmission, the 2nd UCI is transmitted on the PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:When determining described first
When UCI is period CSI, abandon transmitting the first UCI.
By the invention it is possible to realize that the agreement transmission time when the agreement transmission time and PUSCH that determine UCI has weight
When folded, in destination channel transmit or abandon according to specific mode to transmit N kinds UCI, wherein the destination channel include at least with
It is one of lower:The corresponding control channels of PUSCH, N kind UCI and specified PUSCH, therefore, when determine the agreement transmission time of UCI with
When the agreement transmission time of PUSCH has overlapping, according to specified mode including the corresponding control channels of PUSCH, N kind UCI
And transmission N kind UCI are transmitted or abandoned in the destination channel including specified PUSCH, it solves and does not propose in the related technology
How simultaneous transmission less than 1ms TTI and 1ms the corresponding UCI of TTI, and when PUSCH DMRS and data be located at it is different
When in TTI, the problem of how transmitting the UCI on difference TTI, has reached and has realized TTI and 1ms of the simultaneous transmission less than 1ms
The corresponding UCI of TTI, and when the DMRS of PUSCH and data are located in different TTI, transmit the UCI's on difference TTI
Effect.
Description of the drawings
Attached drawing described herein is used to provide further understanding of the present invention, and is constituted part of this application, this hair
Bright illustrative embodiments and their description are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings:
Fig. 1 is a kind of hardware block diagram of the mobile terminal of the transmission method of information of the embodiment of the present invention;
Fig. 2 is the flow chart of the transmission method of information according to the ... of the embodiment of the present invention;
Fig. 3 is the schematic diagram (one) according to the transmission mode of the information of alternative embodiment of the present invention;
Fig. 4 is the schematic diagram (two) according to the transmission mode of the information of alternative embodiment of the present invention;
Fig. 5 is the schematic diagram (three) according to the transmission mode of the information of alternative embodiment of the present invention;
Fig. 6 is the schematic diagram (four) according to the transmission mode of the information of alternative embodiment of the present invention;
Fig. 7 is the schematic diagram (five) according to the transmission mode of the information of alternative embodiment of the present invention;
Fig. 8 is the schematic diagram (six) according to the transmission mode of the information of alternative embodiment of the present invention;
Fig. 9 is the schematic diagram (seven) according to the transmission mode of the information of alternative embodiment of the present invention;
Figure 10 is the schematic diagram (eight) according to the transmission mode of the information of alternative embodiment of the present invention;
Figure 11 is the schematic diagram (nine) according to the transmission mode of the information of alternative embodiment of the present invention;
Figure 12 is the schematic diagram (ten) according to the transmission mode of the information of alternative embodiment of the present invention;
Figure 13 is the schematic diagram (11) according to the transmission mode of the information of alternative embodiment of the present invention;
Figure 14 is the structure diagram of the transmitting device of information according to the ... of the embodiment of the present invention.
Specific implementation mode
Come that the present invention will be described in detail below with reference to attached drawing and in conjunction with the embodiments.It should be noted that not conflicting
In the case of, the features in the embodiments and the embodiments of the present application can be combined with each other.
It should be noted that term " first " in description and claims of this specification and above-mentioned attached drawing, "
Two " etc. be for distinguishing similar object, without being used to describe specific sequence or precedence.
Embodiment 1
The embodiment of the method that the embodiment of the present application one is provided can be in mobile terminal, terminal or similar fortune
It calculates and is executed in device.For running on mobile terminals, Fig. 1 is a kind of shifting of the transmission method of information of the embodiment of the present invention
The hardware block diagram of dynamic terminal.As shown in Figure 1, mobile terminal 10 may include at one or more (only showing one in figure)
(processor 102 can include but is not limited to the processing dress of Micro-processor MCV or programmable logic device FPGA etc. to reason device 102
Set), memory 104 for storing data and the transmitting device 106 for communication function.Those of ordinary skill in the art
It is appreciated that structure shown in FIG. 1 is only to illustrate, the structure of above-mentioned electronic device is not caused to limit.For example, mobile whole
End 10 may also include than shown in Fig. 1 more either less components or with the configuration different from shown in Fig. 1.
Memory 104 can be used for storing the software program and module of application software, such as the information in the embodiment of the present invention
The corresponding program instruction/module of transmission method, processor 102 by operation be stored in the software program in memory 104 with
And module realizes above-mentioned method to perform various functions application and data processing.Memory 104 may include high speed
Random access memory may also include nonvolatile memory, such as one or more magnetic storage device, flash memory or other are non-
Volatile solid-state.In some instances, memory 104 can further comprise remotely located relative to processor 102
Memory, these remote memories can pass through network connection to mobile terminal 10.The example of above-mentioned network includes but not limited to
Internet, intranet, LAN, mobile radio communication and combinations thereof.
Transmitting device 106 is used to receive via a network or transmission data.Above-mentioned network specific example may include
The wireless network that the communication providers of mobile terminal 10 provide.In an example, transmitting device 106 includes a Network adaptation
Device (Network Interface Controller, NIC), can be connected with other network equipments by base station so as to it is mutual
Networking is communicated.In an example, transmitting device 106 can be radio frequency (Radio Frequency, RF) module, use
In wirelessly being communicated with internet.
A kind of transmission method for the information running on above-mentioned mobile terminal is provided in the present embodiment, and Fig. 2 is according to this
The flow chart of the transmission method of the information of inventive embodiments, as shown in Fig. 2, the flow includes the following steps:
Step S202, when the agreement transmission time of N kinds UCI and the agreement transmission time of PUSCH there are it is Chong Die when, according to finger
Determine mode and transmission N kinds UCI is transmitted or abandoned in destination channel, wherein N kinds UCI belongs to M kinds UCI;Above-mentioned destination channel packet
Include at least one:The corresponding control channels of PUSCH, N kind UCI, specified PUSCH, it is the data in PUSCH to specify PUSCH
The channel transmitted on Transmission Time Interval TTI where symbol, M >=N >=1.
In the present embodiment, one or more UCI in above-mentioned M kinds UCI can be HARQ-ACK and/or CSI, but simultaneously
It is without being limited thereto.
Through the above steps, it may be implemented to exist when the agreement transmission time of the agreement transmission time and PUSCH that determine UCI
It when overlapping, in destination channel transmits or abandons according to specific mode to transmit N kinds UCI, wherein the destination channel includes at least
Following one:The corresponding control channels of PUSCH, N kind UCI and specified PUSCH, therefore, when the agreement transmission time for determining UCI
With the agreement transmission time of PUSCH there are it is Chong Die when, believe including the corresponding controls of PUSCH, N kind UCI according to specified mode
Transmission N kind UCI are transmitted or abandoned in destination channel including road and specified PUSCH, are solved and are not carried in the related technology
Go out how simultaneous transmission less than 1ms TTI and 1ms the corresponding UCI of TTI, and when PUSCH DMRS and data be located at it is different
When in TTI, the problem of how transmitting the UCI on difference TTI, has reached and has realized TTI and 1ms of the simultaneous transmission less than 1ms
The corresponding UCI of TTI, and when the DMRS of PUSCH and data are located in different TTI, transmit the UCI's on difference TTI
Effect.
In an alternative embodiment, the corresponding agreement transmission times of at least two UCI in above-mentioned M kinds UCI do not weigh
Folded and corresponding TTI length types are identical;And/or the corresponding agreement transmission time weights of at least two UCI in above-mentioned M kinds UCI
Folded and corresponding TTI length types differ.In the present embodiment, TTI length types are the TTI of different transmission time length,
As the TTI and transmission time length of 1ms are less than the TTI of 1ms.
In an alternative embodiment, above-mentioned M kinds UCI includes at least one of:It is PUSCH's to arrange transmission time
The UCI of TTI where DMRS;Arrange the UCI of the TTI where the data symbol that transmission time is PUSCH;Arranging transmission time is
The UCI of subframe where PUSCH.
In an alternative embodiment, the agreement transmission time of above-mentioned M kinds UCI and the agreement transmission time of PUSCH are deposited
It is being overlapped.
In an alternative embodiment, it when above-mentioned M kinds UCI is HARQ-ACK, is passed PUSCH as destination channel
Defeated N kinds UCI.
The present embodiment is realized when UCI is HARQ-ACK, and the agreement transmission time for arranging transmission time and PUSCH is deposited
It is transmitted on PUSCH in the N kinds HARQ-ACK of overlapping.
In an alternative embodiment, in the following manner using PUSCH as destination channel transmission N kinds UCI:Work as N=1
When, a kind of HARQ-ACK is encoded;The bit after coding is scrambled by corresponding scramble sequence;After scrambling
The interleaver matrix of PUSCH is written in bit;And/or as N > 1, logic and operation is carried out to N kinds HARQ-ACK;After operation
Bit is encoded;The bit after coding is scrambled by corresponding scramble sequence;PUSCH is written into bit after scrambling
Interleaver matrix.
In an alternative embodiment, the different values of N correspond to different scramble sequences;Or various combination corresponds to difference
Scramble sequence, wherein combination is made of one or more in M kinds HARQ-ACK.
In the present embodiment, said combination can be that the arbitrary combination of a variety of types in M kinds HARQ-ACK e.g. works as M=
When 2, M kinds HARQ-ACK is HARQ-ACK_1 and HARQ-ACK_2, then can have three scramble sequence s1, s2, s3 and M kinds
The various combinations that HARQ-ACK is formed are corresponding, that is, the 1 corresponding scramble sequence of combination for only including HARQ-ACK_1 is s1;
Only include the 2 corresponding scramble sequence s2 of combination of HARQ-ACK_2;And the combination 3 including HARQ-ACK_1 and HARQ-ACK_2
Corresponding scramble sequence is s3.
In an alternative embodiment, in the following manner using PUSCH as destination channel transmission N kinds UCI:It will be with M
Cascade obtains n bit after encoding or encode after the corresponding bit cascades of kind HARQ-ACK;PUSCH is written into n bit
Interleaver matrix, wherein n is integer more than or equal to 1.
In an alternative embodiment, in the following manner using PUSCH as destination channel transmission N kinds UCI:By N kinds
HARQ-ACK is written in the interleaver matrix of PUSCH, wherein the position in N kinds HARQ-ACK write-in interleaver matrixs is not overlapped.
In an alternative embodiment, in the following manner using PUSCH as destination channel transmission N kinds UCI:
N kinds HARQ-ACK is transmitted in a SC-FDMA symbol in the transmission time of PUSCH.
In an alternative embodiment, the corresponding modulation symbol number summations of M kinds HARQ-ACK are less than or equal to first and refer to
Definite value, wherein above-mentioned first designated value is pre-set, or the value that the notification information sent according to eNB determines.
In an alternative embodiment, above-mentioned first designated value is equal to or less than a SC-FDMA symbol packet of PUSCH
The total modulation symbol number contained.
In an alternative embodiment, above-mentioned first designated value is α × R, wherein α is just less than or equal to 1
Number, R are the corresponding sub-carrier numbers of PUSCH.
In an alternative embodiment, it is specified to be less than or equal to second for the corresponding modulation symbol numbers of the first HARQ-ACK
Value, wherein above-mentioned second designated value is pre-set, or the value that the notification information sent according to eNB determines, above-mentioned first
HARQ-ACK is a kind of HARQ-ACK in M kinds HARQ-ACK.
In an alternative embodiment, above-mentioned second designated value is less than or equal to a SC-FDMA symbol packet of PUSCH
The total modulation symbol number contained;And/or above-mentioned second designated value is total less than or equal to what a SC-FDMA symbol of PUSCH included
The value that modulation symbol number divided by M are obtained.
In an alternative embodiment, above-mentioned second designated value be γ × R, wherein γ be less than or equal toJust
Number, above-mentioned R are the corresponding sub-carrier numbers of PUSCH.
In an alternative embodiment, according to the corresponding modulation symbol numbers of the 2nd HARQ-ACK in M kinds HARQ-ACK
Maximum value determines the corresponding modulation symbol number maximum values of the first HARQ-ACK, wherein above-mentioned 2nd HARQ-ACK is M kinds HARQ-
One or more HARQ-ACK in ACK in addition to the first HARQ-ACK.
In an alternative embodiment, the notification information according to eNB transmissions is determining or pre-sets the first HARQ-ACK
Position in interleaver matrix, wherein above-mentioned first HARQ-ACK is a kind of HARQ-ACK in M kinds HARQ-ACK.
In an alternative embodiment, above-mentioned position includes following one:The initial position of interleaver matrix, interleaver matrix
Rest position, interleaver matrix centre position.
In an alternative embodiment, determine the first HARQ-ACK in interleaver matrix at least one in the following manner
Position:The maximum value of the corresponding modulation symbol numbers of first HARQ-ACK;The corresponding modulation symbol numbers of 2nd HARQ-ACK are most
Big value, wherein the 2nd HARQ-ACK is one or more HARQ-ACK in addition to the first HARQ-ACK in M kinds HARQ-ACK;
The corresponding position at least one of RI, CRI, CQI and PMI;And the corresponding modulation symbol numbers of RI or CRI.
In the present embodiment, the corresponding position at least one of RI, CRI, CQI and PMI can be end position, still
It is not limited to this.
In an alternative embodiment, in the interleaver matrix of PUSCH, according to the size of line index by the 3rd HARQ-
ACK is sequentially written in interleaver matrix in the both sides of designated position, wherein above-mentioned designated position is to pre-set or sent according to eNB
Notification information determine.
In an alternative embodiment, in the following manner using PUSCH as destination channel transmission N kinds UCI:Pass through hair
The DMRS of PUSCH is sent to transmit N kinds UCI, wherein above-mentioned DMRS carries the information of N kinds HARQ-ACK.
In an alternative embodiment, the cyclic shift of above-mentioned DMRS is used to indicate the information of N kinds HARQ-ACK;With/
Or the comb tooth density of above-mentioned DMRS is used to indicate the information in N kinds HARQ-ACK.
In an alternative embodiment, when the corresponding TTI of N kind HARQ-ACK information TTIs corresponding with DMRS is identical,
DMRS carries the information of N kinds HARQ-ACK.
In an alternative embodiment, in the following manner using PUSCH as destination channel transmission N kinds UCI:PUSCH
The scramble sequence of information bit after the coding of upper carrying carries the information of N kinds HARQ-ACK.
In an alternative embodiment, above-mentioned N kinds UCI includes:First UCI and/or the 2nd UCI, wherein above-mentioned first
The agreement transmission time of UCI is the TTI where the DMRS of PUSCH, and the agreement transmission time of above-mentioned 2nd UCI is the number of PUSCH
According to the TTI where symbol.
In an alternative embodiment, the corresponding control channels of the 2nd UCI of transmission and PUSCH, wherein above-mentioned second
The transmission power of the corresponding control channels of UCI is less than or equal to the difference of preconfigured maximum power and the transmission power of PUSCH
Value.
In the present embodiment, due to the corresponding control channels of the 2nd UCI of transmission, it is achieved that the 2nd UCI believes in control
It is transmitted on road.
In an alternative embodiment, the corresponding control channels of the first UCI and specified PUSCH are transmitted.
In the present embodiment, due to the corresponding control channels of the first UCI of transmission, it is achieved that the first UCI believes in control
It is transmitted on road.
In an alternative embodiment, it is transmitted on first symbol of the DMRS of above-mentioned specified PUSCH on TTI.
In an alternative embodiment, when the signaling and power for receiving control channel and Traffic Channel simultaneous transmission by
In limited time, the 2nd UCI is transmitted on PUSCH.
In an alternative embodiment, when it is period CSI to determine the first UCI, the first UCI of transmission is abandoned.
Through the above description of the embodiments, those skilled in the art can be understood that according to above-mentioned implementation
The method of example can add the mode of required general hardware platform to realize by software, naturally it is also possible to by hardware, but it is very much
In the case of the former be more preferably embodiment.Based on this understanding, technical scheme of the present invention is substantially in other words to existing
The part that technology contributes can be expressed in the form of software products, which is stored in a storage
In medium (such as ROM/RAM, magnetic disc, CD), including some instructions are used so that a station terminal equipment (can be mobile phone, calculate
Machine, server or network equipment etc.) execute method described in each embodiment of the present invention.
Embodiment 2
A kind of transmission method of information is present embodiments provided, in the present embodiment, there are the HARQ- of at least two types
The HARQ-ACK needs of at least one of ACK types transmit on PUSCH, since HARQ-ACK refers to downlink data transmission
Feedback information, therefore feeding back ACK when receiving correct can be set to " 1 ", set feedback NACK when receiving mistake to
“0”.2bit information is then fed back when there are two transmission block.When there are multiple carrier-wave transmission HARQ-ACK, then multiple bit can be fed back
Information.
Optionally, the HARQ-ACK of at least two types can be the HARQ-ACK of the TTI of different length type.Such as, it passes
The corresponding HARQ-ACK of TTI and transmission time length that defeated time span is 1ms are less than the corresponding HARQ-ACK of TTI of 1ms.This
Planting the scene happened can be:The corresponding HARQ-ACK of TTI that transmission time length is 1ms are in transmission time length
It is transmitted on the Physical Uplink Control Channel (Physical Uplink Control Channel, referred to as PUCCH) of 1ms, together
When, in the transmission time of the PUCCH, it is also required to by TTI corresponding PUSCH of the transmission time length less than 1ms of eNB scheduling
Transmission, and include TTI pairs of transmission time length less than 1ms on the corresponding PUSCH of TTI of the transmission time length less than 1ms
The HARQ-ACK answered, then at this point, abandoning transmitting on PUCCH, transmission time length be 1ms the corresponding HARQ-ACK of TTI and
The HARQ-ACK of TTI of the transmission time length less than 1ms is transmitted on TTI corresponding PUSCH of the conveying length less than 1ms.
Optionally, the HARQ-ACK of above two type can be the HARQ-ACK on different TTI, both types
All there are Chong Die in transmission time with the TTI where PUSCH by the corresponding TTI of HARQ-ACK, wherein HARQ-ACK is corresponding
TTI can be obtained by preset timing, such as receive PDSCH in TTI#n, TTI#n+4 send HARQ-ACK, n be more than or
Integer equal to 1.When the PUSCH of TTI of the transmission time length less than 1ms is transmitted in two TTI, i.e. DMRS is at one
It is transmitted in TTI, data symbol transmits in another TTI, which can be adjacent TTI, can also be non-conterminous
TTI.When having HARQ-ACK to need transmission at least one of the two TTI TTI, transmission PUCCH is abandoned, and by two
HARQ-ACK is transmitted on the PUSCH of TTI of the transmission time length less than 1ms.As shown in Figure 3.
Optionally, the HARQ-ACK of above-mentioned at least two type can be the corresponding HARQ-ACK of different carrier waves.
Optionally, above-mentioned a plurality of types of HARQ-ACK can be the arbitrary combination of several HARQ-ACK.Such as multiple types
HARQ-ACK in the corresponding agreement transmission times of at least two HARQ-ACK be not overlapped and corresponding TTI length types phase
The corresponding agreement transmission time overlappings of at least two HARQ-ACK together or in a plurality of types of HARQ-ACK and corresponding TTI
Length type differs, wherein TTI length types are a generalized concept, and e.g., 14 symbols in a 1ms subframe are drawn
It is divided into 6 TTI, some TTI include 2 symbols, and some TTI include 3 symbols, and transmission time length here is 2 symbols
TTI and transmission time length be 3 symbols TTI TTI length types it is identical.They with existing LTE technologies in transmission
Time span is that the length type of the TTI of 1ms differs.That is, can transmission time length be 1ms TTI as
It is a kind of TTI of TTI length types, the TTI transmission time length less than 1ms is considered as another TTI length types
TTI。
Optionally, each HARQ-ACK can be multiple HARQ-ACK, e.g., in two kinds of HARQ-ACK, one of which
HARQ-ACK is the HARQ-ACK that corresponding transmission time length on subframe n is 1ms, and another kind is the TTI#0 in subframe n
On HARQ-ACK and TTI#1 on HARQ-ACK mixing, wherein mixing can be cascade, or carry out and operation,
But be not restricted to that this.
In practical applications, it is not limited to above-mentioned scene.
The present embodiment illustrates that the present embodiment is not limited to be used for two kinds of HARQ-ACK with two kinds of HARQ-ACK, can be with
For two or more HARQ-ACK.Assuming that two kinds of HARQ-ACK are respectively HARQ-ACK_1 and HARQ-ACK_2.
The present embodiment introduces two scramble sequences s1 and s2, as a kind of only HARQ-ACK, such as HARQ-ACK_1 or
HARQ-ACK_2 first encodes the HARQ-ARQ, is then scrambled to the bit after coding with scramble sequence s1.When same
When there are two types of HARQ-ACK when, i.e. HARQ-ACK_1 and HARQ-ACK_2, the two are bound (bundling), that is, do logical AND
Then operation encodes the bit after operation, finally scrambled, will be obtained with scramble sequence s2 to the bit after coding
Bit according to specific mode be written PUSCH interleaver matrix.Such as, HARQ-ACK_1 corresponds to the feedback of two transmission blocks, respectively
For 0,1, HARQ-ACK_2 correspond to two transmission blocks feedback, respectively 1,1, then both transmission block done respectively " with fortune
Calculate ", obtain 0,1.For another example HARQ-ACK_1 correspond to two transmission blocks feedback, respectively 0,1, HARQ-ACK_2 correspond to one biography
Defeated piece of feedback is 1, then doing first transmission block of the two " with operation ", another transmission block of HARQ-ACK_1 is not
It does any operation and is left second to get to 0,1.Then eNB can know what UE was sent by using s1 and s2 to descramble respectively
It is the result after a kind of HARQ-ACK or two kinds of HARQ-ACK is done " with operation ".
Optionally, above-mentioned scramble sequence s1=[1 1], s2=[1 0] or s1 and s2 are in [1 11 1], [1 01
0], selection in [1 10 0] and [1 00 1], and s1 and s2 is different, but be not restricted to that this.
Optionally, two scramble sequences can be respectively:
Table 1
Assuming that the bit before scrambling isWhen bit number before scrambling is 1bit, m=
1;When bit number before scrambling is 2bit, m=3, then the bit after scramblingBy following
Mode obtains:
Wherein, y and x is placeholder.
Alternatively, three scramble sequences can also be introduced, such as s1, s2 and s3, sequence is similar to the above.As only HARQ-
When ACK_1, first the HARQ-ARQ_1 is encoded, then the bit after coding is scrambled with scramble sequence s1.When only
When having HARQ-ACK_2, first the HARQ-ARQ_2 is encoded, then the bit after coding is added with scramble sequence s2
It disturbs.When simultaneously, there are two types of when HARQ-ACK, i.e. HARQ-ACK_1 and HARQ-ACK_2, the two is bound, that is, does logical AND fortune
It calculates, then the bit after operation is encoded, finally the bit after coding is scrambled with scramble sequence s3.Using above-mentioned
Method, eNB can by respectively use s1, s2 and s3 descramble, know UE send be any HARQ-ACK.Complete above-mentioned behaviour
After work, obtained bit is written to the interleaver matrix of PUSCH according to specific mode.
Embodiment 3
The transmission method for present embodiments providing another information, it is similar with the scene of embodiment 2.The present embodiment is with two kinds
HARQ-ACK illustrates that the method in the present embodiment is not limited to use in two kinds of HARQ-ACK, can be also used for of more than two kinds
HARQ-ACK.Here two kinds of HARQ-ACK are respectively HARQ-ACK_1 and HARQ-ACK_2.
The corresponding bits of HARQ-ACK_1 and HARQ-ACK_2 are cascaded according to preset mode.Such as the bit of the two
Number is all respectively 2bit, is cascaded in the way of HARQ-ACK_2 after first HARQ-ACK_1, i.e. [x1x2y1y2], wherein
[x1x2] is the corresponding bits of HARQ-ACK_1, and [y1y2] is the corresponding bits of HARQ-ACK_2.As only HARQ-ACK_1,
The corresponding bits of so HARQ-ACK_2 are 0, then it is [x1x2 0 0] to cascade bit;As only HARQ-ACK_2, then
The corresponding bits of HARQ-ACK_1 are 0, then it is [0 0y1y2] to cascade bit, and bit after cascade is encoded, such as with inner
Moral-Muller (Reed-Muller, referred to as RM) code is encoded, and other coding modes can also be used.Then after encoding
Bit write-in PUSCH interleaver matrix.Alternatively, can also the corresponding bits of HARQ-ACK_1 and HARQ-ACK_2 first compiled
Code, then cascades the bit after coding, and the bit after cascade is written to the interleaver matrix of PUSCH.Then eNB can lead to
Decoding is crossed, the information of HARQ-ACK is obtained.
Embodiment 4
The transmission method for present embodiments providing another information, it is similar with the scene of embodiment 2.Side in the present embodiment
Method is not limited to use in two kinds of HARQ-ACK, can be also used for HARQ-ACK of more than two kinds.In the present embodiment, two kinds of HARQ-
ACK is respectively HARQ-ACK_1 and HARQ-ACK_2.
In an alternative embodiment, HARQ-ACK_1 and/or HARQ-ACK_2 are respectively mapped in interleaver matrix.
In order to avoid the misunderstanding caused by missing inspection between eNB and UE, the two should have independent resource location.
Optionally, HARQ-ACK_1 and/or HARQ-ACK_2 is mapped in a symbol.
Optionally, HARQ-ACK_1 and/or HARQ-ACK_2 is mapped on the symbol of DMRS.
Such as, the TTI where PUSCH includes two symbols, and first symbol is DMRS, and second symbol is data symbol,
So HARQ-ACK_1 and/or HARQ-ACK_2 is mapped on second symbol.For another example, where the data symbol of PUSCH
TTI includes two symbols, and the DMRS of PUSCH is in a TTI before the TTI, then HARQ-ACK_1 and/or HARQ-ACK_2
It is all mapped on first symbol of the TTI where the data symbol of PUSCH.
Each HARQ-ACK has independent resource constraint condition, wherein the corresponding modulation of HARQ-ACK_i (i is 1 or 2)
The RE of symbolic number or occupancy is:
Wherein, OiFor the corresponding bit numbers of HARQ-ACK_i,For the scheduling bandwidth of current PUSCH transmission,C and KrIt is obtained in the corresponding PDCCH for the first time of same transmission,For the offset of high-level signaling notice
Value, γiThe upper limit of modulation symbol number or resource, the i.e. tune that HARQ-ACK_i is at most occupied are occupied for obtaining HARQ-ACK_i
Symbolic number processed or resource element (Resource element, referred to as RE) number.γiIt indicates HARQ-ACK_i and accounts for a symbol
The maximum value of the ratio for the maximum modulation symbol that the PUSCH includes in number.
Optionally, 0<γi≤ 1 orCan be that default or eNB is notified, γ1And γ2Can also be preset
Or eNB notices, such as signaled by wireless heterogeneous networks (Radio Resource Control, referred to as RRC).γ1
And γ2It can be equal, can also be unequal, such as γ1=γ2=0.5 or γ1=0.5, γ2=0.4, or both
Meet certain relationship, such as γ1+γ2Equal to preset value, such as it is equal to 1 or 0.9.γ1+γ2Less than or equal to 1, i.e. γ1+γ2≤
1.If γ1That eNB is notified, then γ2According to γ1=1- γ2It obtains.
Optionally, when there is N (N>2) when planting HARQ-ACK, have
The mode that HARQ-ACK_1 and HARQ-ACK_2 maps or be written to the interleaver matrix of PUSCH is as follows, wherein reflects
The initial position of the position or mapping penetrated can be that preset or eNB is notified:
The initial position of the mapping of HARQ-ACK_2 is by the corresponding maximum modulation symbolic number information of HARQ-ACK_1 or most
Big mapping resource information determination, or
The initial position of the mapping of HARQ-ACK_2 is accorded with by the corresponding maximum modulation of HARQ-ACK_1 and HARQ-ACK_2
Number information or maximum mapping resource information determine.
It is exemplified below:
Example 1
As shown in figure 4, when HARQ-ACK_1 is to be transmitted, HARQ-ACK_1 is written upwards from the bottom of interleaver matrix.
In Fig. 4, interleaver matrix is a column vector, i.e. the corresponding bit of second symbol, and each small box is a RE, on each RE
The corresponding bit of a modulation symbol is written.HARQ-ACK_2 is written from the bottom up in interleaver matrix, i.e., according to line index according to
Secondary reduction is sequentially written in, and e.g., when it is 20 to originate line index, is then sequentially written according to 20,19,18 ..., wherein from first
Row starts line index and is sequentially increased, and the line index of the first row is 0.When encountering CQI and/or RI, CQI and/or RI is covered.Scheming
In 4, CQI/PMI indicates CQI and/or PMI, and in of the invention, CQI/PMI indicates CQI and/or PMI.The RI can be it is following it
One:RI;Combining for RI and i1 reports;Combining for CRI and RI reports, and combining for CRI, RI and i1 reports;CRI, RI and precoding
Type instruction reports combining for (Precoding Type Indicator, referred to as PTI), and RI and combining for PTI report.Wherein
I1 is Wideband first PMI i1 (i1 of the first PMI of broadband).
Optionally, according to the γ of HARQ-ACK_11The initial position of HARQ-ACK_2 is obtained, e.g., when from interleaver matrix
The first row starts indexIt is sequentially increased, then the row of HARQ-ACK_2 startings
Index isWherein, each element in a line in interleaver matrix corresponds to a column vector, often
A column vector corresponds to the bit mapped on a RE.Here line index may be the index of RE.Line number is to be distributed to UE
The number of subcarrier.For example, it is assigned with 1 resource block (Physical Resource Block, referred to as PRB) to UE, then
One shares 12 rows, it is assumed that is single transmission block single layer transmission, and order of modulation is 2, then each element in interleaver matrix is one
A 2 × 1 column vector.If the value in each column vector is regarded as an element, for 24 rows.In the present embodiment
In, regard column vector as an element, as 12 rows.
Optionally, the initial position of HARQ-ACK_2 is worth to according to default, such as
Optionally, when encountering at least one CQI, PMI and RI, CQI/PMI and/or RI is covered, alternatively, HARQ-ACK_1
It is written upwards from the bottom of interleaver matrix, HARQ-ACK_2 is written from top to bottom in interleaver matrix.
Optionally, mode 1:The initial position of HARQ-ACK_2 is according to γ1And γ2It obtainsOr the initial position of HARQ-ACK_2 is worth to according to fixation
Optionally, mode 2:The initial position of HARQ-ACK_2 is determined according to the end position of RI and/or CQI.When not having
When RI and CQI, the initial position of HARQ-ACK_2 is the first row of interleaver matrix.When there is RI there is no CQI/PMI, HARQ-
The initial position of ACK_2 be RI end lines next line, such as RI end behavior line n, then, the starting of HARQ-ACK_2
Position is the (n+1)th row.When there is CQI/PMI not have RI, the initial position of HARQ-ACK_2 is the next of CQI/PMI end lines
Row.When there is CQI/PMI and RI, the initial position of HARQ-ACK_2 is the next line of CQI/PMI end lines.Optionally, when
When HARQ-ACK_2 has mapped the next line of the corresponding maximum mapping positions of HARQ-ACK_1, if also data do not map
When, then starting to be mapped on the corresponding RE of RI and/or CQI/PMI.Optionally, according to the Sequential Mapping of RI after first CQI/PMI.
The sequence of mapping can be from top to bottom or from top to bottom.
Optionally, when in addition to the writing position where RI in this TTI, the writing position where CQI/PMI and HARQ-
When position except the corresponding maximum writing positions of ACK_1 is not enough to map HARQ-ACK_2, wherein with or without
HARQ-ACK_1 is intended to remove the corresponding maximum writing positions of HARQ-ACK_1, according to γ2Obtain rising for HARQ-ACK_2 mappings
Beginning position is handled according to mode 1, otherwise, handled according to mode 2.
Example 2
It positions of the UCI in interleaver matrix can also in turn, as shown in Figure 5.HARQ-ACK_1 from interleaver matrix
A line is written downwards.In Figure 5, interleaver matrix is a column vector, i.e. the corresponding bit of second symbol, and each small box is
The corresponding bit of a modulation symbol is written on one RE, each RE.HARQ-ACK_2 is written from top to bottom in interleaver matrix,
When encountering CQI and/or RI, CQI and/or RI is covered.
Optionally, the line index of initial position of HARQ-ACK_2 mappings is
Optionally, the initial position of HARQ-ACK_2 is worth to according to fixation, such as
Optionally, when the writing position of HARQ-ACK_2 and CQI/PMI and/or RI are overlapped, covering CQI/PMI, and/
Or RI, alternatively, HARQ-ACK_2 is written from the bottom up.
Optionally, mode 3:HARQ-ACK_2 starting line index beOr HARQ-
The initial position of ACK_2 is worth to according to fixation
Optionally, mode 4:When not having RI and CQI/PMI, the initial position of HARQ-ACK_2 is the last of interleaver matrix
A line.When there is RI not have CQI/PMI, the initial position of HARQ-ACK_2 is the lastrow of RI end lines, such as works as the end of RI
When behavior line n, then the initial position of HARQ-ACK_2 is the (n-1)th row.When there is CQI/PMI there is no RI, HARQ-ACK_2's
Initial position is the lastrow of CQI/PMI end lines.When there is CQI/PMI and RI, the initial position of HARQ-ACK_2 is CQI/
The lastrow of PMI end lines.Optionally, when HARQ-ACK_2 has mapped the next of the corresponding maximum mapping positions of HARQ-ACK_1
When row, if also data do not map, start to be mapped on the corresponding RE of RI and/or CQI/PMI.Optionally, it presses
According to the Sequential Mapping of RI after first CQI/PMI.The sequence of mapping can be from top to bottom or from top to bottom.
Optionally, when in addition to the writing position where RI in this TTI, the writing position where CQI/PMI and HARQ-
When position except the corresponding maximum mapping positions of ACK_1 is not enough to map HARQ-ACK_2, wherein with or without
HARQ-ACK_1 is intended to remove the corresponding positions HARQ-ACK_1, according to γ2The initial position of HARQ-ACK_2 mappings is obtained, i.e.,
Using the above method 3, otherwise, the initial position of HARQ-ACK_2 mappings is obtained according to the position of above-mentioned RI and/or CQI/PMI,
Use the above method 4.
Example 3
As shown in fig. 6, when not having RI, HARQ-ACK_1 is written upwards from the bottom of interleaver matrix.When there is RI,
HARQ-ACK_1 is written from the lastrow of RI end lines.The writing mode of HARQ-ACK_2 is similar with example 1 at this time.
Optionally, when HARQ-ACK_2 maps from bottom to top, maximum that the initial position of HARQ-ACK_2 is occupied by RI
Modulation symbol number and the corresponding maximum modulation symbolic number information γ of HARQ-ACK_11It determines, when HARQ-ACK_2 will be above
All rows all take when not mapped also, may map to the corresponding rows of RI.When being mapped to the corresponding rows of RI, according to from top to bottom
Sequence, or according to sequence from bottom to top.
Optionally, similar with example 1 when HARQ-ACK_2 maps from the top down.The initial position of HARQ-ACK_2 can be with
It is since the first row, or since the next line of the end line of CQI/PMI.Alternatively, according to γ1And/or γ2It obtains.When
The initial position of HARQ-ACK_2 is corresponding most when being mapped to HARQ-ACK_1 since the next line of the end line of CQI/PMI
When the lastrow of big position has mapped not yet, mapped in the way of RI after first CQI/PMI, can be according to from top to bottom it is suitable
Sequence maps, or according to Sequential Mapping from top to bottom.
Example 4
As shown in fig. 7, when not having RI, HARQ-ACK_1 is written downwards from the first row of interleaver matrix.When there is RI,
HARQ-ACK_1 is written from the next line of RI end lines.The writing mode of HARQ-ACK_2 is similar with example 2 at this time.
Optionally, when HARQ-ACK_2 maps from the top down, maximum that the initial position of HARQ-ACK_2 is occupied by RI
Modulation symbol number and the corresponding maximum modulation symbolic number information γ of HARQ-ACK_11It determines, when HARQ-ACK_2 will be below
All rows all take when not mapped also, may map on the corresponding rows of RI.When being mapped to the corresponding rows of RI, can according to from
The sequence of top to bottm, can also be according to sequence from bottom to top.
Optionally, similar with example 3 when HARQ-ACK_2 maps from bottom to top, i.e., according to γ1Or preset value determines.
The initial position of HARQ-ACK_2 can be since the first row, or since the lastrow of the end line of CQI/PMI.Or
Person, according to γ1And/or γ2It obtains.When the initial position of HARQ-ACK_2 is since the lastrow of the end line of CQI/PMI, when
When being mapped to the next lines of the corresponding maximum positions of HARQ-ACK_1 and having mapped not yet, in the way of RI after first CQI/PMI
Mapping, can map in accordance with the order from top to bottom, can also be according to Sequential Mapping from top to bottom.
Example 5
The writing mode of HARQ-ACK_1 can be a variety of, can be arrived shown in example 4 such as example 1.HARQ-ACK_2 is in intertexture square
Certain intermediate a line of battle array is written to both sides.As shown in figure 8, the sequence of write-in can be:Index isRow, index beRow, index beRow, index and beRow, index beRow, index
ForRow ..., until writing the bit of all HARQ-ACK_1, wherein intermediate initial row can be pre-
If or eNB configuration.
It is all if PUSCH has 2 SC-FDMA symbols to be used for transmission data when interleaver matrix includes multiple row
HARQ-ACK is still transmitted in a symbol, then the initial position of the transmission on the symbol is similar to the above.
Embodiment 5
The transmission method for present embodiments providing another information, side in the present embodiment similar with the scene of embodiment 1
Method is not limited to use in two kinds of HARQ-ACK, can be also used for HARQ-ACK of more than two kinds.Two kinds of HARQ-ACK can be respectively
HARQ-ACK_1 and HARQ-ACK_2.
In the present embodiment, DMRS carries a kind of HARQ-ACK information in two kinds of HARQ-ACK.
Optionally, HARQ-ACK_2 can be indicated with the circular shift information of the DMRS of PUSCH, e.g., to UE configurations two
A cyclic shift value is such as cyclic shift value 1 and cyclic shift value 2, and it is 0 or 1 to be respectively used to instruction HARQ-ACK_2.When not having
Have HARQ-ACK_2 or HARQ-ACK_2 be NACK (Negative Acknowledgment) when, DMRS use cyclic shift 1
It sends, when HARQ-ACK_2 is ACK (Acknowledgment), DMRS is sent using cyclic shift 2.When HARQ-ACK_2 pairs
When answering the feedback of two transmission blocks, the feedbacks of two transmission blocks can do HARQ_ACK multiplexings, i.e., the feedbacks of two transmission blocks into
Row logic " with operation ", such as when two transmission blocks are corresponding is fed back to 0 and 1, the bit after " with operation " is 0, alternatively,
The 2bit information of HARQ-ACK_2 can be indicated with 4 cyclic shift values.
Optionally, indicate that HARQ-ACK_2 is e.g. indicated with the broach of different densities with the frequency domain comb tooth density of DMRS
HARQ-ACK_2.In the present embodiment, the frequency domain broach of DMRS refers to the subcarrier occupied on frequency domain, when DMRS is accounted on frequency domain
With 1/2 subcarrier in the frequency domain resource distributed to UE, for example, for even subcarriers or odd subcarriers when, density at this time
It is 1/2.Such as, as UE using 1/2 frequency domain broach come when sending DMRS, expression HARQ-ACK_2 is NACK or no HARQ-
ACK_2, in the present embodiment, if no HARQ-ACK_2 can HARQ-ACK_2 be referred to as DTX.When UE uses 1/4 frequency domain
Broach is come when sending DMRS, expression HARQ-ACK_2 is ACK.Here, 1/4 frequency domain broach refers to that DMRS only takes up on frequency domain
1/4 subcarrier.As shown in Figure 9.When HARQ-ACK_2 corresponds to the feedback of two transmission blocks, the feedbacks of two transmission blocks can be with
HARQ-ACK multiplexings are done, i.e., the feedback of two transmission blocks carries out logic and obtains 1bit information " with operation ".Alternatively, 4 can also be used
Frequency domain comb tooth density is planted to indicate the 2bit information of HARQ-ACK_2.
Optionally, when HARQ-ACK_1 is to be transmitted by PUSCH, the intertexture square of PUSCH can be written in HARQ-ACK_1
In battle array.
Optionally, when PUSCH corresponds to two TTI, i.e. the DMRS of PUSCH exists in a TTI, the data symbol of PUSCH
Another TTI, if there is HARQ-ACK_2, and the agreement transmission time of its corresponding control channel and the TTI where DMRS
There are superimposed symbols, then abandon the corresponding control channels of transmission HARQ-ACK_2, the method that is indicated using above-mentioned DMRS come
Indicate HARQ_2.If there is HARQ-ACK_1, and the agreement transmission time of its corresponding control channel and the data symbols of PUSCH
There are superimposed symbols by TTI where number, then, the corresponding control channels of transmission HARQ-ACK_1 are abandoned, HARQ_ACK_1 is existed
It is transmitted on PUSCH, that is, the interleaver matrix of PUSCH is written.As shown in Figure 10, the PUSCH of short TTI corresponds to two TTI, and DMRS exists
TTI#0, data symbol is in TTI#1.
Embodiment 6
Present embodiments provide the transmission method of another information, the present embodiment it is similar with the scene of embodiment 1.This reality
It applies example and is not limited to use in two kinds of HARQ-ACK, can be also used for HARQ-ACK of more than two kinds.In the present embodiment, two kinds of HARQ-
ACK is respectively HARQ-ACK_1 and HARQ-ACK_2.
In the present embodiment, a kind of HARQ-ACK information in two kinds of HARQ-ACK is carried by the scramble sequence of PUSCH.
Before modulation, the information bit after the coding carried on PUSCH can be scrambled with a scramble sequence.
Optionally, the information of HARQ-ACK_2 is carried using the scramble sequence of PUSCH, e.g., the scramble sequence of PUSCH is adopted
Use cinit_0To be initialized:
Wherein, nRNTIFor Cell Radio Network Temporary Identifier/Identity, Cell-RNTI (the Cell Radio Network Temporary of UE
Identifier, referred to as C-RNTI).When HARQ-ACK_2 is NACK DTX, using above-mentioned scramble sequence to PUSCH
Coding after data scrambled.If HARQ-ACK_2 is ACK, the scramble sequence of PUSCH uses cinit_1It carries out initial
Change:
Wherein, nRNTI_1It is another radio network temporary identifier (Radio Network that eNB is configured to UE
Temporary Identifier, referred to as RNTI).
Optionally, if existing through PUSCH HARQ-ACK_1 to be transmitted, HARQ-ACK_1 is written to the friendship of PUSCH
It knits in matrix.
Embodiment 7
The transmission method of another information is present embodiments provided, in the present embodiment, PUSCH corresponds to two TTI, i.e.,
The DMRS of PUSCH is in a TTI, and the data symbol of PUSCH is in another TTI, at this point, there are one HARQ-ACK to need
Transmission in the corresponding TTI of DMRS of PUSCH.In the method for the present embodiment, above-mentioned two TTI can be it is adjacent, can also
Be it is spaced, as shown in figure 11.In the present embodiment, HARQ-ACK is transmitted, at this time in TTI#1 there may be HARQ-ACK,
HARQ-ACK may also be not present, the TTI where the transmission time of the control channel at place and the data symbol of PUSCH has weight
It is folded.
In the present embodiment, the channel and PUSCH where HARQ-ACK, the maximum hair of the control channel where HARQ-ACK
Send power PHARQ-ACK(i) it is the maximum transmission power P configuredCMAX,c(i) the transmission power P of PUSCH is subtractedPUSCH(i), HARQ-
The transmission power of control channel where ACK meets the following conditions:PHARQ-ACK(i)≤PCMAX,c(i)-PPUSCH(i), wherein i is
TTI indexes, and the maximum transmission power configured, the transmission of the transmission power and the control channel where HARQ-ACK of PUSCH
Power is linear value.
Embodiment 8
The transmission method for present embodiments providing another information, in the method for the present embodiment, PUSCH corresponds to two
TTI, the i.e. DMRS of PUSCH are in a TTI, and the data symbol of PUSCH is in another TTI, at this point, a HARQ-ACK needs
Transmission in the corresponding TTI of data symbol of PUSCH.In the method for the present embodiment, above-mentioned two TTI can be it is adjacent,
Can be spaced.As shown in figure 12, it needs to transmit HARQ-ACK in the present embodiment, the control letter where the HARQ-ACK
There are Chong Die with the TTI where the DMRS of PUSCH for the transmission time in road.At this point, the control channel where transmission HARQ-ACK.On
The sending method for stating PUSCH retracts at only being sent in TTI#1.That is, PUSCH no longer sends DMRS on TTI#0, but
DMRS is sent on TTI#1 and data e.g. send DMRS on first symbol of TTI#1, on second symbol of TTI#1
Transmission data.As shown in figure 13.
Embodiment 9
The transmission method of another information is present embodiments provided, in the present embodiment, PUSCH corresponds to two TTI, i.e.,
The DMRS of PUSCH is in a TTI, and the data symbol of PUSCH is in another TTI, at this point, there are one HARQ-ACK to need
Transmission in the corresponding TTI of data symbol of PUSCH.
In the case where being configured with control channel and Traffic Channel simultaneous transmission, when needing to transmit the HARQ-ACK, such as
Fruit power limited, the HARQ-ACK are transmitted in PUSCH, and the interleaver matrix of PUSCH is such as written.
Embodiment 10
A kind of transmitting device of information is additionally provided in the present embodiment, and the device is for realizing above-described embodiment and preferably
Embodiment had carried out repeating no more for explanation.As used below, predetermined function may be implemented in term " module "
The combination of software and/or hardware.Although device described in following embodiment is preferably realized with software, hardware, or
The realization of the combination of person's software and hardware is also that may and be contemplated.
Figure 14 is the structure diagram of the transmitting device of information according to the ... of the embodiment of the present invention, as shown in figure 14, the device packet
Include transmission module 142, for when the agreement transmission time of N kinds UCI and the agreement transmission time of PUSCH there are it is Chong Die when, according to
Specific mode transmits in destination channel or abandons transmission N kinds UCI, wherein above-mentioned N kinds UCI belongs to M kinds UCI;Above-mentioned target letter
Road includes at least one:The corresponding control channels of PUSCH, N kind UCI, specified PUSCH, above-mentioned specified PUSCH be
The channel transmitted on TTI where the data symbol of PUSCH, M >=N >=1.
In an alternative embodiment, the agreement transmission time of above-mentioned M kinds UCI and the agreement transmission time of PUSCH are deposited
It is being overlapped.
In an alternative embodiment, above-mentioned transmission module 142 is additionally operable to when M kinds UCI is HARQ-ACK, will
PUSCH is as destination channel transmission N kinds UCI.
In an alternative embodiment, above-mentioned N kinds UCI includes the first UCI and/or the 2nd UCI, wherein the first UCI's
Arrange the TTI where the DMRS that transmission time is PUSCH, the agreement transmission time of the 2nd UCI is where the data symbol of PUSCH
TTI.
In an alternative embodiment, above-mentioned transmission module 142 be additionally operable to the corresponding control channels of the 2nd UCI of transmission with
And PUSCH, wherein the transmission power of the corresponding control channel of above-mentioned 2nd UCI is less than or equal to preconfigured maximum power
With the difference of the transmission power of PUSCH.
In an alternative embodiment, above-mentioned transmission module 142 be additionally operable to the corresponding control channels of the first UCI of transmission and
Specified PUSCH.
In an alternative embodiment, above-mentioned transmission module 142, which is additionally operable to work as, receives control channel and Traffic Channel
When the signaling and power limited of simultaneous transmission, the 2nd UCI is transmitted on PUSCH.
In an alternative embodiment, above-mentioned transmission module 142 is additionally operable to, when it is period CSI to determine the first UCI, put
Abandon the first UCI of transmission.
It should be noted that above-mentioned modules can be realized by software or hardware, for the latter, Ke Yitong
Following manner realization is crossed, but not limited to this:Above-mentioned module is respectively positioned in same processor;Alternatively, above-mentioned modules are with arbitrary
The form of combination is located in different processors.
Embodiment 11
A kind of transmission device of information is additionally provided in the present embodiment, and the device is for realizing above-described embodiment and preferably
Embodiment had carried out repeating no more for explanation.
Transmission device in the present embodiment includes:Processor, agreement transmission time and PUSCH for determining N kinds UCI
Arrange transmission time with the presence or absence of overlapping;Communication device, agreement transmission time and PUSCH for determining N kinds UCI when processor
Agreement transmission time when there is overlapping, in destination channel transmit or abandon transmission N kinds UCI according to specific mode, wherein on
It states N kinds UCI and belongs to M kinds UCI;Above-mentioned destination channel includes at least one:The corresponding control channels of PUSCH, N kind UCI refer to
Determine PUSCH, above-mentioned specified PUSCH is the channel transmitted on the TTI where the data symbol in PUSCH, M >=N >=1.
In an alternative embodiment, the agreement transmission time of above-mentioned M kinds UCI and the agreement transmission time of PUSCH are deposited
It is being overlapped.
Embodiment 12
The embodiments of the present invention also provide a kind of storage mediums.Optionally, in the present embodiment, above-mentioned storage medium can
To be arranged to store the program code for executing following steps:When the agreement of the agreement transmission time and PUSCH of N kinds UCI
When transmission time has overlapping, transmission N kinds UCI is transmitted or abandoned in destination channel according to specific mode, wherein N kinds UCI
Belong to M kinds UCI;Above-mentioned destination channel includes at least one:The corresponding control channels of PUSCH, N kind UCI, specified PUSCH,
Specified PUSCH is the channel transmitted on the TTI where the data symbol in PUSCH, M >=N >=1.
Optionally, storage medium is also configured to store the program code for executing following steps:When M kinds UCI is
When HARQ-ACK, using PUSCH as destination channel transmission N kinds UCI.
Optionally, storage medium is also configured to store the program code for executing following steps:S1 is right as N=1
A kind of HARQ-ACK is encoded;S2 scrambles the bit after coding by corresponding scramble sequence;S3, after scrambling
Bit write-in PUSCH interleaver matrix.
Optionally, storage medium is also configured to store the program code for executing following steps:S1, as N > 1, to N
Kind HARQ-ACK carries out logic and operation;S2 encodes the bit after operation;S3, by corresponding scramble sequence to compiling
Bit after code is scrambled;The interleaver matrix of PUSCH is written in bit after scrambling by S4.
Optionally, storage medium is also configured to store the program code for executing following steps:S1, will be with M kinds HARQ-
Cascade obtains n bit after encoding or encode after the corresponding bit cascades of ACK;The friendship of PUSCH is written in n bit by S2
Knit matrix, wherein n is the integer more than or equal to 1.
Optionally, storage medium is also configured to store the program code for executing following steps:N kinds HARQ-ACK is write
In the interleaver matrix for entering PUSCH, wherein the position in N kinds HARQ-ACK write-in interleaver matrixs is not overlapped.
Optionally, storage medium is also configured to store the program code for executing following steps:In the transmission of PUSCH
Transmission N kinds HARQ-ACK in an interior SC-FDMA symbol.
Optionally, storage medium is also configured to store the program code for executing following steps:According to M kinds HARQ-ACK
In the corresponding modulation symbol number maximum values of the 2nd HARQ-ACK determine the corresponding modulation symbol number maximum values of the first HARQ-ACK,
Wherein, the 2nd HARQ-ACK is one or more HARQ-ACK in addition to the first HARQ-ACK in M kinds HARQ-ACK.
Optionally, storage medium is also configured to store the program code for executing following steps:In the following manner extremely
One of few position for determining the first HARQ-ACK in interleaver matrix:The maximum of the corresponding modulation symbol numbers of first HARQ-ACK
Value;The maximum value of the corresponding modulation symbol numbers of 2nd HARQ-ACK, wherein the 2nd HARQ-ACK is in M kinds HARQ-ACK except the
One or more HARQ-ACK other than one HARQ-ACK;The corresponding position at least one of RI, CRI, CQI and PMI;RI or
The corresponding modulation symbol numbers of CRI.
Optionally, storage medium is also configured to store the program code for executing following steps:In the intertexture square of PUSCH
In battle array, the 3rd HARQ-ACK is sequentially written in by interleaver matrix in the both sides of designated position according to the size of line index, wherein specified
Position is to pre-set or determined according to the notification information that eNB is sent.
Optionally, storage medium is also configured to store the program code for executing following steps:By sending PUSCH's
DMRS transmits N kinds UCI, wherein DMRS carries the information of N kinds HARQ-ACK.
Optionally, storage medium is also configured to store the program code for executing following steps:The volume carried on PUSCH
The scramble sequence of information bit after code carries the information of N kinds HARQ-ACK.
Optionally, storage medium is also configured to store the program code for executing following steps:Transmit the 2nd UCI correspondences
Control channel and PUSCH, wherein the transmission power of the corresponding control channels of the 2nd UCI be less than or equal to it is preconfigured
The difference of maximum power and the transmission power of PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:Transmit the first UCI correspondences
Control channel and specified PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:Believe when receiving control
When the signaling and power limited of road and Traffic Channel simultaneous transmission, the 2nd UCI is transmitted on PUSCH.
Optionally, storage medium is also configured to store the program code for executing following steps:When determining that the first UCI is
When period CSI, the first UCI of transmission is abandoned.
Optionally, in the present embodiment, above-mentioned storage medium can include but is not limited to:USB flash disk, read-only memory (Read-
Only Memory, referred to as ROM), it is random access memory (Random Access Memory, referred to as RAM), mobile hard
The various media that can store program code such as disk, magnetic disc or CD.
Optionally, the specific example in the present embodiment can refer to described in above-described embodiment and optional embodiment
Example, details are not described herein for the present embodiment.
Obviously, those skilled in the art should be understood that each module of the above invention or each step can be with general
Computing device realize that they can be concentrated on a single computing device, or be distributed in multiple computing devices and formed
Network on, optionally, they can be realized with the program code that computing device can perform, it is thus possible to which they are stored
It is performed by computing device in the storage device, and in some cases, it can be with different from shown in sequence execution herein
The step of going out or describing, either they are fabricated to each integrated circuit modules or by them multiple modules or
Step is fabricated to single integrated circuit module to realize.In this way, the present invention is not limited to any specific hardware and softwares to combine.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (41)
1. a kind of transmission method of information, which is characterized in that including:
When there are Chong Die with the agreement transmission time of Physical Uplink Shared Channel for the agreement transmission times of N kind ascending control informations
When, it in destination channel transmits or abandons according to specific mode to transmit the N kinds ascending control information, wherein the N kinds uplink
Control information belongs to M kind ascending control informations;The destination channel includes at least one:The shared letter of the physical uplink
Road, the corresponding control channel of the N kinds ascending control information, specified Physical Uplink Shared Channel, the specified physical uplink are total
It is the channel transmitted on the Transmission Time Interval where the data symbol of the Physical Uplink Shared Channel to enjoy channel, M >=N >=
1。
2. according to the method described in claim 1, it is characterised in that it includes:
The corresponding agreement transmission time of at least two ascending control informations in the M kinds ascending control information is not overlapped and corresponds to
Tti length type it is identical;And/or
The corresponding agreement transmission time overlapping of at least two ascending control informations in the M kinds ascending control information and corresponding
Tti length type differs.
3. according to the method described in claim 1, it is characterized in that, the M kinds ascending control information includes at least one of:
Arrange the uplink of the Transmission Time Interval where the demodulated reference signal that transmission time is the Physical Uplink Shared Channel
Control information;
Arrange the upload control of the Transmission Time Interval where the data symbol that transmission time is the Physical Uplink Shared Channel
Information;
Arrange the ascending control information that transmission time is the subframe where the Physical Uplink Shared Channel.
4. according to the method described in claim 1, it is characterized in that, the agreement transmission time of the M kinds ascending control information with
There is overlapping in the agreement transmission time of the Physical Uplink Shared Channel.
5. method according to any one of claims 1 to 4, which is characterized in that when the M kinds ascending control information is mixed
When closing automatic repeat request confirmation message, transmitted the Physical Uplink Shared Channel as the destination channel in the N kinds
Row control information.
6. according to the method described in claim 5, it is characterized in that, believing the Physical Uplink Shared Channel as the target
Road transmits the N kinds ascending control information, including:
As N=1, a kind of hybrid automatic repeat-request confirmation message is encoded;Pass through corresponding scramble sequence pair
Bit after coding is scrambled;Bit after scrambling is written to the interleaver matrix of the Physical Uplink Shared Channel;And/or
As N > 1, logic and operation is carried out to hybrid automatic repeat-request confirmation message described in N kinds;By the bit after operation into
Row coding;The bit after coding is scrambled by corresponding scramble sequence;By after scrambling bit write-in described in physically
The interleaver matrix of the shared channel of row.
7. according to the method described in claim 6, it is characterised in that it includes:
The different values of N correspond to the different scramble sequences;Or
Various combination corresponds to the different scramble sequences, wherein combination hybrid automatic repeat-request described in M kinds confirms
One or more in information are formed.
8. according to the method described in claim 5, it is characterized in that, believing the Physical Uplink Shared Channel as the target
Road transmits the N kinds ascending control information, including:
To encode after the cascade of corresponding with hybrid automatic repeat-request confirmation message described in M kinds bit or coding after cascade
To n bit;
The n bit is written to the interleaver matrix of the Physical Uplink Shared Channel, wherein n is whole more than or equal to 1
Number.
9. according to the method described in claim 5, it is characterized in that, believing the Physical Uplink Shared Channel as the target
Road transmits the N kinds ascending control information, including:The physics is written into hybrid automatic repeat-request confirmation message described in N kinds
In the interleaver matrix of Uplink Shared Channel, wherein the interleaver matrix is written in hybrid automatic repeat-request confirmation message described in N kinds
In position be not overlapped.
10. according to the method described in claim 9, it is characterized in that, using the Physical Uplink Shared Channel as the target
N kinds ascending control information described in transmission, including:A single load in the transmission time of the Physical Uplink Shared Channel
Wave frequency, which is divided, transmits hybrid automatic repeat-request confirmation message described in N kinds in multiple access symbol.
11. according to the method described in claim 10, it is characterized in that, hybrid automatic repeat-request confirmation message pair described in M kinds
The modulation symbol number summation answered is less than or equal to the first designated value, wherein first designated value is pre-set or foundation
The value that the notification information that evolved base station is sent determines.
12. according to the method for claim 11, which is characterized in that first designated value be equal to or less than it is described physically
Total modulation symbol number that one single-carrier frequency division multiple access symbol of the shared channel of row includes.
13. according to the method for claim 11, which is characterized in that first designated value be α × R, wherein α be less than
Or the positive number equal to 1, R are the corresponding sub-carrier number of the Physical Uplink Shared Channel.
14. method according to claim 9 or 10, which is characterized in that the first hybrid automatic repeat-request confirmation message pair
The modulation symbol number answered is less than or equal to the second designated value, wherein second designated value is pre-set, or according to evolution
The value that the notification information that type base station is sent determines, the first hybrid automatic repeat-request confirmation message are to be mixed certainly described in M kinds
A kind of hybrid automatic repeat-request confirmation message in dynamic retransmission request confirmation message.
15. according to the method for claim 14, which is characterized in that
Second designated value be less than or equal to the Physical Uplink Shared Channel a single-carrier frequency division multiple access symbol include
Total modulation symbol number;And/or
Second designated value be less than or equal to the Physical Uplink Shared Channel a single-carrier frequency division multiple access symbol include
Total modulation symbol number divided by the obtained values of M.
16. according to the method for claim 14, which is characterized in that second designated value be γ × R, wherein γ be less than
Or it is equal toPositive number, R be the corresponding sub-carrier number of the Physical Uplink Shared Channel.
17. according to the method for claim 14, which is characterized in that according to hybrid automatic repeat-request confirmation letter described in M kinds
The corresponding modulation symbol number maximum value of the second hybrid automatic repeat-request confirmation message in breath determines that first mixing is automatic
The corresponding modulation symbol number maximum value of retransmission request confirmation message, wherein the second hybrid automatic repeat-request confirmation message
For in hybrid automatic repeat-request confirmation message described in M kinds in addition to the first hybrid automatic repeat-request confirmation message one
Kind or a variety of hybrid automatic repeat-request confirmation messages.
18. method according to claim 9 or 10, which is characterized in that the notification information sent according to evolved base station is true
Determine or pre-set position of the first hybrid automatic repeat-request confirmation message in the interleaver matrix, wherein described first
Hybrid automatic repeat-request confirmation message is a kind of mixed automatic retransfer in hybrid automatic repeat-request confirmation message described in M kinds
Request confirmation information.
19. according to the method for claim 18, which is characterized in that the position includes following one:The interleaver matrix
Initial position, the rest position of the interleaver matrix, the interleaver matrix centre position.
20. according to the method for claim 18, which is characterized in that determine that described first is mixed at least one in the following manner
Close position of the automatic repeat request confirmation message in the interleaver matrix:
The maximum value of the corresponding modulation symbol number of the first hybrid automatic repeat-request confirmation message;
The maximum value of the corresponding modulation symbol number of the second hybrid automatic repeat-request confirmation message, wherein described second is mixed
It is that the automatic weight of the first mixing is removed in hybrid automatic repeat-request confirmation message described in M kinds to close automatic repeat request confirmation message
Pass one or more hybrid automatic repeat-request confirmation messages other than request confirmation information;
In order instruction, the reference signal resource instruction of channel state information, channel status instruction and pre-coding matrix instruction extremely
One of few corresponding position;
The reference signal resource of order instruction or channel state information indicates corresponding modulation symbol number.
21. according to the method for claim 18, which is characterized in that in the interleaver matrix of the Physical Uplink Shared Channel
In, the third hybrid automatic repeat-request confirmation message is sequentially written in the both sides of designated position according to the size of line index
The interleaver matrix, wherein the designated position is that the notification information that pre-sets or sent according to the evolved base station is true
Fixed.
22. according to the method described in claim 5, it is characterized in that, using the Physical Uplink Shared Channel as the target
N kinds ascending control information described in transmission, including:Demodulated reference signal by sending the Physical Uplink Shared Channel passes
The defeated N kinds ascending control information, wherein the demodulated reference signal carries hybrid automatic repeat-request confirmation letter described in N kinds
The information of breath.
23. according to the method for claim 22, which is characterized in that including:
The cyclic shift of the demodulated reference signal is used to indicate the information of hybrid automatic repeat-request confirmation message described in N kinds;
And/or
The comb tooth density of the demodulated reference signal is used to indicate the letter in hybrid automatic repeat-request confirmation message described in N kinds
Breath.
24. according to the method for claim 22, which is characterized in that the hybrid automatic repeat-request confirmation message described in the N kinds
When the corresponding Transmission Time Interval of information Transmission Time Interval corresponding with the demodulated reference signal is identical, the demodulation reference
Signal carries the information of hybrid automatic repeat-request confirmation message described in N kinds.
25. according to the method described in claim 5, it is characterized in that, using the Physical Uplink Shared Channel as the target
N kinds ascending control information described in transmission, including:Information bit after the coding carried on the Physical Uplink Shared Channel
Scramble sequence carry N kinds described in hybrid automatic repeat-request confirmation message information.
26. method according to any one of claims 1 to 4, which is characterized in that the N kinds ascending control information includes:The
One ascending control information and/or the second ascending control information, wherein the agreement transmission time of first ascending control information is
Transmission Time Interval where the demodulated reference signal of the Physical Uplink Shared Channel, the pact of second ascending control information
Determine the Transmission Time Interval where the data symbol that transmission time is the Physical Uplink Shared Channel.
27. according to the method for claim 26, which is characterized in that the corresponding control of transmission second ascending control information
Channel and the Physical Uplink Shared Channel, wherein the transmission work(of the corresponding control channel of second ascending control information
Rate is less than or equal to the difference of preconfigured maximum power and the transmission power of the Physical Uplink Shared Channel.
28. according to the method for claim 26, which is characterized in that the corresponding control of transmission first ascending control information
Channel and the specified Physical Uplink Shared Channel.
29. according to the method for claim 28, which is characterized in that the demodulation reference of the specified Physical Uplink Shared Channel
Signal transmits on first symbol on the Transmission Time Interval.
30. according to the method for claim 26, which is characterized in that when receiving control channel and Traffic Channel simultaneous transmission
Signaling and when power limited, second ascending control information is transmitted on the Physical Uplink Shared Channel.
31. according to the method for claim 26, which is characterized in that when determine first ascending control information be the period letter
When channel state information, abandon transmitting first ascending control information.
32. a kind of transmitting device of information, which is characterized in that including:
Transmission module, for being transmitted when the agreement transmission time of N kind ascending control informations and the agreement of Physical Uplink Shared Channel
When time has overlapping, in destination channel transmit or abandon according to specific mode to transmit the N kinds ascending control information,
In, the N kinds ascending control information belongs to M kind ascending control informations;The destination channel includes at least one:The object
Manage Uplink Shared Channel, the corresponding control channel of the N kinds ascending control information, specified Physical Uplink Shared Channel, the finger
It is to be transmitted on the Transmission Time Interval where the data symbol of the Physical Uplink Shared Channel to determine Physical Uplink Shared Channel
Channel, M >=N >=1.
33. device according to claim 32, which is characterized in that the agreement transmission time of the M kinds ascending control information
There are Chong Die with the agreement transmission time of the Physical Uplink Shared Channel.
34. the device according to claim 32 or 33, which is characterized in that the transmission module is additionally operable to when in the M kinds
When row control information is hybrid automatic repeat-request confirmation message, believe the Physical Uplink Shared Channel as the target
Transmit the N kinds ascending control information in road.
35. the device according to claim 32 or 33, which is characterized in that the N kinds ascending control information includes on first
Row control information and/or the second ascending control information, wherein the agreement transmission time of first ascending control information is described
The agreement of Transmission Time Interval where the demodulated reference signal of Physical Uplink Shared Channel, second ascending control information passes
The defeated time is the Transmission Time Interval where the data symbol of the Physical Uplink Shared Channel.
36. device according to claim 35, which is characterized in that the transmission module is additionally operable to transmit second uplink
Control the corresponding control channel of information and the Physical Uplink Shared Channel, wherein second ascending control information corresponds to
Control channel transmission power be less than or equal to preconfigured maximum power and the Physical Uplink Shared Channel transmission
The difference of power.
37. device according to claim 35, which is characterized in that the transmission module is additionally operable to transmit first uplink
Control the corresponding control channel of information and the specified Physical Uplink Shared Channel.
38. device according to claim 35, which is characterized in that the transmission module, which is additionally operable to work as, receives control channel
When with the signaling and power limited of Traffic Channel simultaneous transmission, second uplink is transmitted on the Physical Uplink Shared Channel
Control information.
39. device according to claim 35, which is characterized in that the transmission module is additionally operable on determining described first
When row control information is periodic channel status information, abandon transmitting first ascending control information.
40. a kind of transmission device of information, which is characterized in that including:
Processor, the agreement transmission of agreement transmission time and Physical Uplink Shared Channel for determining N kind ascending control informations
Time is with the presence or absence of overlapping;
Communication device, the agreement transmission time for determining the N kinds ascending control information when the processor and the physics
When the agreement transmission time of Uplink Shared Channel has overlapping, transmission institute is transmitted or abandoned in destination channel according to specific mode
State N kind ascending control informations, wherein the N kinds ascending control information belongs to M kind ascending control informations;The destination channel packet
Include at least one:The Physical Uplink Shared Channel, the corresponding control channel of the N kinds ascending control information, specified object
Uplink Shared Channel is managed, the specified Physical Uplink Shared Channel is where the data symbol of the Physical Uplink Shared Channel
Transmission Time Interval on the channel that transmits, M >=N >=1.
41. transmission device according to claim 40, which is characterized in that the agreement of the M kinds ascending control information is transmitted
Time, there are Chong Die with the agreement transmission time of the Physical Uplink Shared Channel.
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CN110972277A (en) * | 2018-09-28 | 2020-04-07 | 华为技术有限公司 | Data transmission method, device and storage medium |
CN111200487A (en) * | 2018-11-20 | 2020-05-26 | 展讯通信(上海)有限公司 | Transmission method and device for hybrid automatic repeat request acknowledgement HARQ-ACK |
CN111435878A (en) * | 2019-01-11 | 2020-07-21 | 电信科学技术研究院有限公司 | Information transmission method, terminal and network equipment |
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CN110972277A (en) * | 2018-09-28 | 2020-04-07 | 华为技术有限公司 | Data transmission method, device and storage medium |
CN111200487A (en) * | 2018-11-20 | 2020-05-26 | 展讯通信(上海)有限公司 | Transmission method and device for hybrid automatic repeat request acknowledgement HARQ-ACK |
CN111200487B (en) * | 2018-11-20 | 2021-06-29 | 展讯通信(上海)有限公司 | Transmission method and device for hybrid automatic repeat request acknowledgement HARQ-ACK |
CN111435878A (en) * | 2019-01-11 | 2020-07-21 | 电信科学技术研究院有限公司 | Information transmission method, terminal and network equipment |
CN111435878B (en) * | 2019-01-11 | 2021-10-01 | 大唐移动通信设备有限公司 | Information transmission method, terminal and network equipment |
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CN113812105A (en) * | 2019-09-30 | 2021-12-17 | 华为技术有限公司 | Transmission method, device and storage medium of uplink control information |
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