CN110034845A - Information processing method and radio transmission apparatus - Google Patents
Information processing method and radio transmission apparatus Download PDFInfo
- Publication number
- CN110034845A CN110034845A CN201810032227.2A CN201810032227A CN110034845A CN 110034845 A CN110034845 A CN 110034845A CN 201810032227 A CN201810032227 A CN 201810032227A CN 110034845 A CN110034845 A CN 110034845A
- Authority
- CN
- China
- Prior art keywords
- equal
- block size
- order
- modulation
- transmission
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 230000005540 biological transmission Effects 0.000 title claims abstract description 2850
- 230000010365 information processing Effects 0.000 title claims abstract description 13
- 238000003672 processing method Methods 0.000 title claims abstract description 12
- 238000000034 method Methods 0.000 claims abstract description 51
- 238000012546 transfer Methods 0.000 claims description 51
- 230000007246 mechanism Effects 0.000 claims description 20
- 238000012545 processing Methods 0.000 claims description 16
- 238000004891 communication Methods 0.000 description 11
- 230000006870 function Effects 0.000 description 11
- 238000010586 diagram Methods 0.000 description 8
- 230000011218 segmentation Effects 0.000 description 7
- 230000008859 change Effects 0.000 description 6
- 238000004590 computer program Methods 0.000 description 5
- 125000004122 cyclic group Chemical group 0.000 description 4
- 239000011159 matrix material Substances 0.000 description 4
- 108010003272 Hyaluronate lyase Proteins 0.000 description 3
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 238000004080 punching Methods 0.000 description 3
- 241000209094 Oryza Species 0.000 description 2
- 235000007164 Oryza sativa Nutrition 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
- 238000004422 calculation algorithm Methods 0.000 description 2
- 238000004364 calculation method Methods 0.000 description 2
- 230000008878 coupling Effects 0.000 description 2
- 235000021186 dishes Nutrition 0.000 description 2
- 235000013399 edible fruits Nutrition 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000005055 memory storage Effects 0.000 description 2
- 235000009566 rice Nutrition 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 238000013475 authorization Methods 0.000 description 1
- 239000003795 chemical substances by application Substances 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 230000004927 fusion Effects 0.000 description 1
- 230000000155 isotopic effect Effects 0.000 description 1
- 238000010295 mobile communication Methods 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
Classifications
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03M—CODING; DECODING; CODE CONVERSION IN GENERAL
- H03M13/00—Coding, decoding or code conversion, for error detection or error correction; Coding theory basic assumptions; Coding bounds; Error probability evaluation methods; Channel models; Simulation or testing of codes
- H03M13/03—Error detection or forward error correction by redundancy in data representation, i.e. code words containing more digits than the source words
- H03M13/05—Error detection or forward error correction by redundancy in data representation, i.e. code words containing more digits than the source words using block codes, i.e. a predetermined number of check bits joined to a predetermined number of information bits
- H03M13/11—Error detection or forward error correction by redundancy in data representation, i.e. code words containing more digits than the source words using block codes, i.e. a predetermined number of check bits joined to a predetermined number of information bits using multiple parity bits
-
- 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
-
- 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
- H04L1/0045—Arrangements at the receiver end
- H04L1/0052—Realisations of complexity reduction techniques, e.g. pipelining or use of look-up tables
-
- 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
- H04L1/0057—Block codes
Abstract
The application provides a kind of information processing method and radio transmission apparatus, this method comprises: the first radio transmission apparatus obtains soft value/hard values sequence from the second radio transmission apparatus;First radio transmission apparatus carries out low density parity check code LDPC decoding according to the transport block size of the transmission block and the transmission code block size of the transmission block, to the soft value/hard values sequence or skips the decoding soft value/hard values sequence.Above-mentioned technical proposal can reduce the unnecessary work of the first radio transmission apparatus, improve the working efficiency of decoder.
Description
Technical field
This application involves the communications fields, set more particularly, to the method and wireless transmission of information processing in communication system
It is standby.
Background technique
5th generation (5thGeneration, 5G) communication system has determined that using low-density checksum (Low Density
Parity Check, LDPC) code as data channel encode.Radio transmission apparatus is having selected Modulation and Coding Scheme
After (Modulation and Coding Scheme, MCS), order of modulation can be determined.The radio transmission apparatus can use
Resource particle (Resource Element, RE) number, Physical Resource Block (Physical Resource Block, PRB) number
Mesh, order of modulation etc. determine the code block size and transport block size (Transport Block Size, TBS) of transmission.Then,
LDPC decoding or decoding are carried out according to the code block size of the transmission determined and transport block size.
However, in some cases, code block size and transport block size of the decoder based on the transmission determined can not be at
Function is to the soft value got/hard values sequential decoding.Therefore, how to improve the working efficiency of decoder and be one and urgently to be resolved ask
Topic.
Summary of the invention
The application provides a kind of information processing method and radio transmission apparatus, can be improved decoding efficiency.
In a first aspect, the embodiment of the present application provides a kind of information processing method, this method comprises: the first radio transmission apparatus
Obtain the soft value from the second radio transmission apparatus/hard values sequence, the soft value/hard values sequence carrying transmission block information;This
One radio transmission apparatus is according to the transport block size of the transmission block and the transmission code block size of the transmission block, to the soft value/hard values
Sequence carries out low density parity check code LDPC decoding or skips the decoding soft value/hard values sequence.It, should in above-mentioned technical proposal
First wireless device can be according to the transmission code block size of the transport block size of the transmission block and the transmission block, to being able to carry out
LDPC decoding soft value/hard values sequential decoding, skip can not LDPC decoding soft value/hard values sequence.In this way, in first nothing
In the case that line transmission device encounters the soft value/hard values sequence that can not be decoded, which will not be attempted pair
The soft value/hard values sequential decoding.The unnecessary work of the first radio transmission apparatus can be reduced in this way, improve the work of decoder
Make efficiency.
In one possible implementation, first radio transmission apparatus is according to the transport block size of the transmission block and this
The transmission code block size of transmission block carries out low density parity check code LDPC decoding or skips to translate to the soft value/hard values sequence
The code soft value/hard values sequence, comprising: first radio transmission apparatus is according to the transport block size and the transmission code block size, really
Determine efficient channel encoder bit rate;First radio transmission apparatus is determining the transport block size less than or equal to the first default biography
In the case that defeated block size and the efficient channel encoder bit rate are greater than the first default code rate, the decoding soft value/hard values sequence is skipped
Column;Or first radio transmission apparatus is determining the transport block size greater than the first Preset Transfer block size and effective letter
In the case that road encoder bit rate is greater than the second default code rate, the decoding soft value/hard values sequence is skipped;Or the first wireless biography
Transfer device is in the case where determining that the efficient channel encoder bit rate is less than or equal to the first default code rate, to the soft value/hard values
Sequence carries out LDPC decoding;Or first radio transmission apparatus is determining that it is first default that the efficient channel encoder bit rate is greater than this
Code rate, which is less than or equal to the second default code rate and the transport block size is greater than the first default biography
In the case where defeated block size, LDPC decoding is carried out to the soft value/hard values sequence.Based on the above-mentioned technical proposal, the first wireless biography
Transfer device can directly determine whether skip decoding based on the size of the efficient channel encoder bit rate and/or transmission block.This
In the case that one radio transmission apparatus encounters the soft value/hard values sequence that can not be decoded, which will not taste
Examination is to the soft value/hard values sequential decoding.The unnecessary work of the first radio transmission apparatus can be reduced in this way, improve decoder
Working efficiency.
In one possible implementation, which is 0.93, which is 0.95, this
One Preset Transfer block size is 136.
In one possible implementation, first radio transmission apparatus is according to the transport block size of the transmission block and this
The transmission code block size of transmission block carries out low density parity check code LDPC decoding to the soft value/hard values sequence or skips decoding
Soft value/hard values sequence, comprising: first radio transmission apparatus determines whether to meet any of first preset condition set
Preset condition;If it is determined that result be it is yes, then skip decoding the soft value/hard values sequence, however, it is determined that result be it is no, then to the soft value/
Hard values sequence carries out LDPC decoding, which includes that effective channel coding code rate is greater than the second default code rate,
Wherein the efficient channel encoder bit rate is determined according to the transport block size and the transmission code block size, first preset condition
Set further includes following at least one preset condition: the order of modulation of the transmission block is equal to 1 or 2, which is equal to 40
And the transmission code block size is less than or equal to 60, the order of modulation of the transmission block is equal to 1 or 2, the transport block size be equal to 48 and
The transmission code block size is less than or equal to 68, and the order of modulation of the transmission block is equal to 1 or 2, which is equal to 112 and should
It transmits code block size and is less than or equal to 136, the order of modulation of the transmission block is equal to 1 or 2, which is equal to 136 and should
It transmits code block size and is less than or equal to 160, the order of modulation of the transmission block is equal to 4, which is equal to 40 and the transmission
Code block size is less than or equal to 60, and the order of modulation of the transmission block is equal to 6, which is equal to 40 and the transmission code block is big
Small to be less than or equal to 60, the order of modulation of the transmission block is equal to 6, which is equal to 80 and the transmission code block size is less than
Or it is equal to 102, the order of modulation of the transmission block is equal to 8, which is equal to 112 and the transmission code block size is less than or waits
In 136, the order of modulation of the transmission block is equal to 8, which is equal to 136 and the transmission code block size is less than or equal to
160.Based on the above-mentioned technical proposal, which can be based on the efficient channel encoder bit rate and/or transmission block
Order of modulation, transport block size and transmission code block size directly determine whether skip decoding.In this way, in first wireless transmission
In the case that equipment encounters the soft value/hard values sequence that can not be decoded, first radio transmission apparatus will not attempt to the soft value/
Hard values sequential decoding.The unnecessary work of the first radio transmission apparatus can be reduced in this way, improve the working efficiency of decoder.
In one possible implementation, first radio transmission apparatus is according to the transport block size of the transmission block and this
The transmission code block size of transmission block carries out low density parity check code LDPC decoding to the soft value/hard values sequence or skips decoding
Soft value/hard values sequence, comprising: first radio transmission apparatus determines whether to meet any of second preset condition set
Preset condition;If it is determined that result be it is yes, then skip decoding the soft value/hard values sequence, however, it is determined that result be it is no, then to the soft value/
Hard values sequence carries out LDPC decoding, which includes at least one preset condition of table 2 into table 8.It is based on
Above-mentioned technical proposal, first radio transmission apparatus can based on first radio transmission apparatus support maximum modulation order,
Order of modulation, transport block size and the transmission code block size of the transmission block directly determine whether skip decoding.In this way, this first
In the case that radio transmission apparatus encounters the soft value/hard values sequence that can not be decoded, which will not be attempted
To the soft value/hard values sequential decoding.The unnecessary work of the first radio transmission apparatus can be reduced in this way, improve decoder
Working efficiency.
In one possible implementation, before skipping the decoding soft value/hard values sequence, this method further include: should
First radio transmission apparatus determines that efficient channel encoder bit rate is greater than third and presets code rate, determines that the transport block size is less than or waits
In the second Preset Transfer block size.
In one possible implementation, this method further include: the case where skipping the decoding soft value/hard values sequence
Under, which sends decoding error to second radio transmission apparatus and indicates information, decoding error instruction
Information is used to indicate the first radio transmission apparatus decoding error;Or in the case where skipping the decoding soft value/hard values sequence,
First radio transmission apparatus decodes the soft value/hard values sequence using the second decoding mechanism, wherein the second decoding machine
System is different from the first decoding mechanism, if first radio transmission apparatus, which is determined, carries out LDPC decoding to the soft value/hard values sequence,
First radio transmission apparatus carries out LDPC decoding to the soft value/hard values sequence using the first decoding mechanism.
Second aspect, the embodiment of the present application provide a kind of information processing method, this method comprises: radio transmission apparatus determines
First object Modulation and Coding Scheme, the first transport block size and the first transmission code block size;The radio transmission apparatus according to this
One transport block size and the first transmission code block size, determine using the first object Modulation and Coding Scheme and first transmission block
Size carries out low density parity check code LDPC coding, alternatively, determining using the second target modulation encoding scheme or the second transmission
Block size carries out LDPC coding, and wherein the rank of the second target modulation encoding scheme is lower than the first object Modulation and Coding Scheme
Rank, second transport block size be less than first transport block size.In above-mentioned technical proposal, which can be with
Prejudge disconnected receiving device whether can correct decoding, and determining that receiving device can not change in the case where correct decoding
Encoding scheme.The data transmission efficiency of entire link can be improved in this way.
In one possible implementation, the radio transmission apparatus is according to the first transport block size and the first transmission code block
Size determines and carries out low density parity check code LDPC using the first object Modulation and Coding Scheme and first transport block size
Coding carries out LDPC coding using the second target modulation encoding scheme or the second transport block size alternatively, determining, comprising: the nothing
Line transmission device determines efficient channel encoder bit rate according to first transport block size and the first transmission code block size;This
One radio transmission apparatus is determining that the transport block size is less than or equal to the first Preset Transfer block size and the efficient channel is compiled
In the case that code code rate is greater than the first default code rate, determines and use the second target modulation encoding scheme or the second transport block size
Carry out LDPC coding;Or first radio transmission apparatus is determining the transport block size greater than the first Preset Transfer block size
And in the case that the efficient channel encoder bit rate is greater than the second default code rate, determine using the second target modulation encoding scheme or
Second transport block size carries out LDPC coding;Or the radio transmission apparatus is determining that the efficient channel encoder bit rate is less than or waits
In the case of the first default code rate, determines and carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding;Or the radio transmission apparatus is determining the efficient channel encoder bit rate greater than the first default code rate, this is effectively
Channel coding code rate is less than or equal to the second default code rate and first transport block size is big greater than the first Preset Transfer block
In the case where small, determine and carry out LDPC coding using the first object Modulation and Coding Scheme and first transport block size.It is based on
Above-mentioned technical proposal, the radio transmission apparatus can be big based on the maximum modulation order and transmission block that the radio transmission apparatus is supported
Whether small directly determine is encoded using fixed encoding scheme.In this way, encountering in the radio transmission apparatus can not adopt
In the case where being encoded with fixed encoding scheme, encoding scheme is changed.Encoding scheme after change can to receive
End equipment normally decodes.The data transmission efficiency of entire link can be improved in this way.
In one possible implementation, which is 0.93, which is 0.95, this
One Preset Transfer block size is 136.
In one possible implementation, the radio transmission apparatus is according to the first transport block size and the first transmission code block
Size determines and carries out low density parity check code LDPC using the first object Modulation and Coding Scheme and first transport block size
Coding carries out LDPC coding using the second target modulation encoding scheme or the second transport block size alternatively, determining, comprising: this
One radio transmission apparatus determines whether to meet any one preset condition in the first preset condition set;If it is determined that result be it is yes,
Then determine and carry out LDPC coding using the second target modulation encoding scheme or the second transport block size, however, it is determined that result be it is no, then
It determines and carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size;The first preset condition collection
Closing includes that effective channel coding code rate is greater than the second default code rate, and wherein the efficient channel encoder bit rate is according to first transmission
What block size and the first transmission code block size determined: the first preset condition set further includes following at least one default item
Part, the first order of modulation are the corresponding order of modulation of first object Modulation and Coding Scheme: first order of modulation is equal to 1 or 2,
First transport block size is equal to 40 and the first transmission code block size is less than or equal to 60;First order of modulation be equal to 1 or
2, which is equal to 48 and the first transmission code block size is less than or equal to 68;First order of modulation is equal to 1
Or 2, which is equal to 112 and the first transmission code block size is less than or equal to 136;First order of modulation etc.
In 1 or 2, which is equal to 136 and the first transmission code block size is less than or equal to 160;First modulation order
Number is equal to 4, which is equal to 40 and the first transmission code block size is less than or equal to 60;First order of modulation
Equal to 6, which is equal to 40 and the first transmission code block size is less than or equal to 60;First order of modulation etc.
In 6, which is equal to 80 and the first transmission code block size is less than or equal to 102;First order of modulation etc.
In 8, which is equal to 112 and the first transmission code block size is less than or equal to 136;First order of modulation etc.
In 8, which is equal to 136 and the first transmission code block size is less than or equal to 160.Based on above-mentioned technical side
Case, the radio transmission apparatus can order of modulation based on the efficient channel encoder bit rate and/or transmission block, transport block size and
Transmission code block size directly determines whether encoded using fixed encoding scheme.In this way, being met in the radio transmission apparatus
In the case where fixed encoding scheme can not be used to be encoded, encoding scheme is changed.Encoding scheme after change can
So that receiving device normally decodes.The data transmission efficiency of entire link can be improved in this way.
In one possible implementation, the radio transmission apparatus is according to the first transport block size and the first transmission code block
Size determines and carries out low density parity check code LDPC using the first object Modulation and Coding Scheme and first transport block size
Coding carries out LDPC coding using the second target modulation encoding scheme or the second transport block size alternatively, determining, comprising: this
One radio transmission apparatus determines whether to meet any one preset condition in the second preset condition set, wherein the first order of modulation
For the order of modulation of the transmission block;If it is determined that result is yes, it is determined that use the second target modulation encoding scheme or the second transmission
Block size carries out LDPC coding, however, it is determined that result is no, it is determined that uses the first object Modulation and Coding Scheme and first biography
Defeated block size carries out LDPC coding, which includes at least one preset condition of table 2 into table 8.It is based on
Above-mentioned technical proposal, the radio transmission apparatus can be based on maximum modulation order, transmission blocks that the radio transmission apparatus is supported
Order of modulation, transport block size and transmission code block size directly determine and whether encoded using fixed encoding scheme.
In this way, in the case where the radio transmission apparatus, which encounters, to be encoded using fixed encoding scheme, change coding
Scheme.Encoding scheme after change can make receiving device normally decode.The data that entire link can be improved in this way pass
Defeated efficiency.
In one possible implementation, the second target modulation encoding scheme or the second transport block size are used determining
Before carrying out LDPC coding, this method further include: the radio transmission apparatus determines that efficient channel encoder bit rate is default greater than third
Code rate determines that the transport block size is less than or equal to the second Preset Transfer block size.
The third aspect, the embodiment of the present application also provide a kind of radio transmission apparatus, which includes for real
The unit of any possible implementation of existing first aspect or first aspect.
Fourth aspect, the embodiment of the present application also provide a kind of radio transmission apparatus, which includes for real
The unit of any possible implementation of existing second aspect or second aspect.
5th aspect, the embodiment of the present application provide a kind of radio transmission apparatus, which includes: memory,
For storing program;Processor, it is described when described program is performed for executing the described program of memory storage
Processor is for executing method described in any possible implementation of first aspect or first aspect.Optionally, the nothing
Line transmission device is chip or integrated circuit.
6th aspect, the embodiment of the present application provide a kind of radio transmission apparatus, which includes: memory,
For storing program;Processor, it is described when described program is performed for executing the described program of memory storage
Processor is for executing method described in any possible implementation of second aspect or second aspect.Optionally, the nothing
Line transmission device is chip or integrated circuit.
7th aspect, the embodiment of the present application provide a kind of chip for executing first aspect or any of first aspect can
Method described in the implementation of energy.
Eighth aspect, the embodiment of the present application provide a kind of chip for executing second aspect or any of second aspect can
Method described in the implementation of energy.
9th aspect, the embodiment of the present application provide a kind of computer readable storage medium, the computer-readable storage
Instruction is stored in medium, when described instruction is run on computers, so that computer executes described in above-mentioned various aspects
Method.
Tenth aspect, the embodiment of the present application provides a kind of computer program product comprising instruction, when the computer journey
When sequence product is run on computers, so that computer executes method described in above-mentioned various aspects.
Detailed description of the invention
Fig. 1 is according to a kind of schematic flow chart of information processing method provided by the embodiments of the present application.
Fig. 2 is the schematic flow chart according to another information processing method provided by the embodiments of the present application.
Fig. 3 is the structural block diagram according to radio transmission apparatus provided by the embodiments of the present application.
Fig. 4 is the structural block diagram according to another radio transmission apparatus provided by the embodiments of the present application.
Fig. 5 is the structural block diagram according to another radio transmission apparatus provided by the embodiments of the present application.
Fig. 6 is the structural block diagram according to another radio transmission apparatus provided by the embodiments of the present application.
Specific embodiment
Below in conjunction with attached drawing, the technical solution in the application is described.
It should be understood that the technical solution of the embodiment of the present application can be applied to the various communication systems encoded using LDPC, example
Such as: 5G communication system, newly eat dishes without rice or wine (new radio, NR) etc..
So-called radio transmission apparatus may include terminal device or network side equipment in the embodiment of the present application, be also possible to
For terminal device or the chip of network side equipment, for example, variety of processes can be realized by one or more processors.
So-called terminal device in the technical solution of the embodiment of the present application is a kind of equipment with communication function, can be with
Including with wireless communication function handheld device, mobile unit, wearable device, calculate equipment or be connected to wireless-modulated solution
Adjust other processing equipments etc. of device.Terminal can be called different titles in different networks, such as: access terminal, user
Equipment (user equipment, UE), subscriber unit, subscriber station, movement station, mobile station, remote station, remote terminal, movement are set
Standby, user terminal, terminal, wireless telecom equipment, user agent or user apparatus, the handheld device with wireless communication function,
It calculates equipment or is connected to other processing equipments, mobile unit, wearable device and the future 5G net of radio modem
Terminal device in network.Terminal device can be through wireless access network (radio access network, RAN) and one or more
Core net is communicated, or can access distributed network self-organizing or by way of exempting from authorization, and terminal device can be with
Access wireless network is communicated otherwise, and terminal device can also directly carry out channel radio with other terminal devices
Letter, embodiments herein are not construed as limiting this.
So-called network side equipment is that one kind is deployed in wireless access network to provide wireless communication in the embodiment of the present application
The equipment of function.The call of base station may be different in different wireless access systems, such as in universal mobile communication system
Base station is known as node B in system (Universal Mobile Telecommunications System, UMTS) network
(NodeB), base station and in the lte networks is known as the node B (evolved NodeB, eNB or eNodeB) of evolution, new
Eat dishes without rice or wine the base station in (new radio, NR) network be known as transmitting-receiving point (transmission reception point, TRP) or
Person's next generation's node B (generation nodeB, gNB), perhaps in the network of other multiple technologies fusion or at other
Base station in various evolvement networks may also use other calls.The present invention is not limited thereto.
The 5G standard of R15 is in enhanced mobile Internet (Enhanced Mobile Broadband, eMBB) scene at present
The channel coding schemes of data service support 2 LDPC base figures (base graph, BG) simultaneously, are denoted as BG1, BG2 respectively, wherein
BG1 can be expressed as the matrix of 46 rows 68 column, and wherein the corresponding columns of information bit is that 22, BG2 can be expressed as 42 rows 52 column
Matrix, wherein the corresponding columns of information bit be 10.If transport block size is less than or equal to 308-16, it is using base figure
The check matrix (parity check matrix, PCM) of BG2 encodes;If transport block size is greater than 308-16 and is less than 3840-
16 and efficient coding code rate be less than or equal to 2/3, then using base figure be BG2 pcm encoder;If transport block size is greater than 308-16
And be less than 3840-16 and efficient coding code rate and be greater than 2/3, then the pcm encoder for the use of base figure being BG1;If transport block size is greater than
3840-16 and efficient coding code rate are less than or equal to 1/4, then the pcm encoder for the use of base figure being BG2;If transport block size is greater than
3840-16 and efficient coding code rate are greater than 1/4, then the pcm encoder for the use of base figure being BG1.
So-called transmission code block size refers to transmission block through code block segmentation, coding and rate in the embodiment of the present application
The bit sequence length exported after matching.More specifically, transmission block can be stored in circular buffer after code block segmentation, coding, then
From the designated position of the buffer, the continuous bit data for reading designated length encounters filling bit and skips automatically, and also not
Read punching bit.The length of the bit sequence read in this way is exactly to transmit code block size.
In one possible implementation, control or data information add TB-CRC to the transmission block as transmission block
Block of information B is used as after check bit L, wherein if the bit length of transmission block is greater than 3824, CRC check bit length in block of information B
It is 24, otherwise CRC check bit length is 16 in block of information B;If A≤292, alternatively, A≤3824 and R≤0.67, alternatively, R
≤ 0.25, it is determined that the base figure of the PCM for coding is BG2, otherwise determines that the base figure of the PCM for coding is BG2, wherein A
For the size of transmission block, R is the coding indicated in Modulation and Coding Scheme (modulation and coding scheme, MCS)
Code rate.In code block segmentation link, block of information B obtained after code block segmentation code block to be encoded (code block, CB) and
The spreading factor Z of PCM, if the corresponding maximum code block of base figure that the size of block of information B is greater than the PCM of coding is long, BG1 is 8448,
BG2 is 3840, then by block of information B carry out code block segmentation and add CB-CRC check bit obtain multiple code blocks (code block,
CB), include CB-CRC check bit in each code block, can also include filling bit so that each code block size meets base
The product of the information bit of figure corresponding columns and spreading factor Z;If the size of block of information B is less than or equal to the PCM's of coding
The corresponding maximum code block of base figure is long, then does not need to add CRC check position again, and it also may include filling out in code block that code block number, which is 1, at this time
Fill bit so that the information bit corresponding columns and spreading factor Z of a length of base figure of code block product.Each code block C is carried out
Code block (coded blcok) D after being encoded, wherein filling bit is still filling bit after coding, due to base
Preceding 2 column of figure can be perforated, therefore this corresponding coded-bit of 2 column is punching bit.Rate is carried out to the code block D after coding
Matching, wherein rate-matched does not include filling in the transmission code block E chosen by carrying out bit selection in circular buffer
Bit and punching bit carry out Bit Interleave to transmission code block E.Transmission code block after each intertexture of the transmission block is cascaded,
The signal corresponding to the transmission block is obtained through ovennodulation.
Fig. 1 is according to a kind of schematic flow chart of information processing method provided by the embodiments of the present application.
101, the first radio transmission apparatus obtains the soft value from the second radio transmission apparatus/hard values sequence, the soft value/hard
The information of value sequence carrying transmission block.
First radio transmission apparatus receives the symbol sebolic addressing of second radio transmission apparatus transmission, then carries out channel and estimates
Meter, demodulation step obtain the soft value/hard values sequence that can be used for decoding.
102, first radio transmission apparatus is big according to the transport block size of the transmission block and the transmission code block of the transmission block
It is small, LDPC decoding is carried out to the soft value/hard values sequence or skips the decoding soft value/hard values sequence.
Wherein, the transport block size of transmission block and transmission code block size can be obtained according to the parameter obtained in control channel
It arrives.
Optionally, in some embodiments, first radio transmission apparatus is according to the transport block size of the transmission block and this
The transmission code block size of transmission block carries out LDPC decoding to the soft value/hard values sequence or skips the decoding soft value/hard values sequence
Column, comprising: first radio transmission apparatus can determine that it is big that the transport block size is less than or equal to the first Preset Transfer block
The small and efficient channel encoder bit rate (effective channel code rate) is greater than the case where first default code rate
Under, skip the decoding soft value/hard values sequence;First radio transmission apparatus can determine the transport block size be greater than this first
Preset Transfer block size and the efficient channel encoder bit rate are skipped in the case where being greater than the second default code rate decodes the soft value/hard
Value sequence;First radio transmission apparatus can be less than or equal to the first default code rate determining the efficient channel encoder bit rate
In the case where, LDPC decoding is carried out to the soft value/hard values sequence;First radio transmission apparatus can determine the efficient channel
Encoder bit rate is greater than the first default code rate, which is less than or equal to the second default code rate and the transmission
In the case that block size is greater than the first Preset Transfer block size, LDPC decoding is carried out to the soft value/hard values sequence.For the ease of
Whether description, be greater than the first default code rate, the efficient channel encoder bit rate according to efficient channel encoder bit rate for above-mentioned below
Whether be less than the second default code rate and the transport block size whether be less than the first Preset Transfer block size determine whether into
The rule of row LDPC decoding is known as first and evades rule.
Optionally, in some embodiments, which can determine the efficient channel encoder bit rate
In the case where the second default code rate, determines and skip the decoding soft value/hard values sequence.For ease of description, below by root
Determine whether that the rule for carrying out LDPC decoding is known as second according to whether the efficient channel encoder bit rate is greater than the second default code rate
Evade rule.
Optionally, in some embodiments, which can be 0.93, which can also be
0.931,0.933, or any value greater than 0.931 and less than 0.933.The second default code rate can be 0.95.This first
Preset Transfer block size can be 136,138 or 140.
For example, transport block size, less than or equal to 136 and when efficient channel encoder bit rate is greater than 0.93, skipping decoding, this is soft
Value/hard values sequence;In another example transport block size, greater than 136 and when efficient channel encoder bit rate is greater than 0.95, skipping decoding, this is soft
Value/hard values sequence.
Wherein, efficient channel encoder bit rate can be the bit number of information bit and the quotient of physical channel bit number, here
Information bit be include cyclic redundancy check (Cyclic Redundancy Check, CRC) bit.For example, first is wireless
Transmission device can be terminal device, then efficient channel encoder bit rate is the bit number and PDSCH physics letter of downlink information bit
Cease the quotient of bit number.In the implementation, it generally can according to need the decimal that not isotopic number is taken to efficient channel encoder bit rate, such as
Efficient channel encoder bit rate is 0.9275, being 0.93 when 2 decimals being taken to round up, when without rounding up, then may be used
Think 0.92.Other efficient channel encoder bit rates in the implementation can with and so on, be only for example, be not limited thereto herein.
If the size of block of information B is above-mentioned efficient channel coding if block of information B code block number after code block segmentation is 1
The size of the bit number of information bit in code rate, transmission code block E is physical channel bit in above-mentioned efficient channel encoder bit rate
Number.
In one possible implementation, if block of information is smaller, block of information B only one code block after code block segmentation,
First radio transmission apparatus can determine the efficient channel encoder bit rate according to the following formula:
Wherein, rEIndicate that the efficient channel encoder bit rate, K indicate that the information block size of channel coding, N indicate that the channel is compiled
The transmission code block size of code.The information block size of the channel coding can be the transport block size and cyclic redundancy check
The sum of position (Cyclic Redundancy Check, CRC).
Optionally, in some embodiments, first radio transmission apparatus is big according to the transport block size and transmission code block
It is small, low density parity check code LDPC decoding is carried out to the soft value/hard values sequence or skips the decoding soft value/hard values sequence, packet
Include: first radio transmission apparatus determines whether to meet any one preset condition in the first preset condition set;If it is determined that knot
Fruit be it is yes, then skip the decoding soft value/hard values sequence, however, it is determined that result be it is no, then the soft value/hard values sequence progress LDPC is translated
Code, the first preset condition set include that effective channel coding code rate is greater than the second default code rate, and wherein the efficient channel encodes
Code rate is determined according to the transport block size and the transmission code block size, the first preset condition set further include it is following at least
A kind of preset condition: the order of modulation of the transmission block is equal to 1 or 2, which is equal to 40 and the transmission code block size is small
In or be equal to 60, the order of modulation of the transmission block is equal to 1 or 2, which is equal to 48 and the transmission code block size is less than
Or be equal to 68, the order of modulation of the transmission block is equal to 1 or 2, the transport block size be equal to 112 and the transmission code block size be less than or
Equal to 136, the order of modulation of the transmission block is equal to 1 or 2, the transport block size be equal to 136 and the transmission code block size be less than or
Equal to 160, the order of modulation of the transmission block is equal to 4, which is equal to 40 and the transmission code block size is less than or equal to
60, the order of modulation of the transmission block is equal to 6, which is equal to 40 and the transmission code block size is less than or equal to 60, should
The order of modulation of transmission block is equal to 6, which is equal to 80 and the transmission code block size is less than or equal to 102, the transmission
The order of modulation of block is equal to 8, which is equal to 112 and the transmission code block size is less than or equal to 136, the transmission block
Order of modulation is equal to 8, which is equal to 136 and the transmission code block size is less than or equal to 160.
The efficient channel encoder bit rate can be determined using formula 1.1.The second default code rate is 0.95.
For ease of description, table 1 shows the preset condition that the first preset condition set may include.
Order of modulation | Transport block size | Maximum transmitted code block size |
1 or 2 | 40 | 60 |
1 or 2 | 48 | 68 |
1 or 2 | 112 | 136 |
1 or 2 | 136 | 160 |
4 | 40 | 60 |
6 | 40 | 60 |
6 | 80 | 102 |
8 | 112 | 136 |
8 | 136 | 160 |
Table 1
Every row in table 1 indicates a preset condition.For example, the first row in table 1 indicates, the order of modulation of the transmission block
It is 1 or 2, which is 40, which is less than or equal to 60.For another example, the last line in table 1 indicates,
The order of modulation of the transmission block is 8, which is 136, which is less than or equal to 160.
Specifically, if first radio transmission apparatus determines that the efficient channel encoder bit rate is greater than 0.95, decoding is skipped
The soft value/hard values sequence.Optionally, in some embodiments, which may include as shown in Table 1 complete
Portion's preset condition.In the case, first radio transmission apparatus is in the order of modulation for determining the transmission block, the transport block size
In the case where meeting any one preset condition in table 1 with the transmission code block size, determines and skip the decoding soft value/hard values sequence
Column;First radio transmission apparatus determine the efficient channel encoder bit rate be less than or equal to 0.95 and the transmission block modulation order
It is in the case that number, the transport block size and the transmission code block size are unsatisfactory for any one preset condition in table 1, then soft to this
Value/hard values sequence carries out LDPC decoding.
For example, the transport block size is 136 if first radio transmission apparatus determines that the order of modulation of the transmission block is 8,
The transmission code block size is less than or equal to 160, then skips the decoding soft value/hard values sequence.If first radio transmission apparatus is true
The order of modulation of the fixed transmission block is 8, which is 136, which is 200, then to the soft value/hard values
Sequence carries out LDPC decoding.
Optionally, in some embodiments, which may include that item is preset in part as shown in Table 1
Part.For example, first preset condition may include the other conditions as shown in Table 1 in addition to last line condition.In this feelings
Under condition, first radio transmission apparatus is in the order of modulation for determining the transmission block, the transport block size and the transmission code block size
In the case where meeting any one preset condition in table 1 in addition to last line, determines and skip the decoding soft value/hard values sequence;
First radio transmission apparatus determine the efficient channel encoder bit rate be less than or equal to 0.95 and the transmission block order of modulation,
The case where transport block size and the transmission code block size are unsatisfactory in table 1 any one preset condition in addition to last line
Under, then LDPC decoding is carried out to the soft value/hard values sequence.
For example, the transport block size is 112 if first radio transmission apparatus determines that the order of modulation of the transmission block is 8,
The transmission code block size is less than or equal to 136, then skips the decoding soft value/hard values sequence.If first radio transmission apparatus is true
The order of modulation of the fixed transmission block is 8, which is 136, which is greater than 136, then to the soft value/hard
Value sequence carries out LDPC decoding.
For ease of description, the rule of progress LDPC decoding will be determined whether based on the second default code rate and/or table 1 below
Then it is known as third and evades rule.
Optionally, in some embodiments, which evades the maximum value of the transmission code block size in rule in addition to such as
Outside maximum transmitted code block size shown in table 1, maximum transmitted code block size as shown in Table 1 and deviant can also be
With.The deviant can be 2, -2,4, -4,8, -8 etc..Maximum transmitted code block size corresponding to different transport block sizes
Deviant can be the same or different.
Optionally, in some embodiments, first radio transmission apparatus is big according to the transport block size and transmission code block
It is small, low density parity check code LDPC decoding is carried out to the soft value/hard values sequence or skips the decoding soft value/hard values sequence, packet
Include: first radio transmission apparatus determines whether to meet any one preset condition in the second preset condition set;If it is determined that knot
Fruit be it is yes, then skip the decoding soft value/hard values sequence, however, it is determined that result be it is no, then the soft value/hard values sequence progress LDPC is translated
Code.The second preset condition set may include one or more tables of the table 2 into table 8 or it is all of any one or more
Or full terms.
Table 2
Every row in table 2 indicates a preset condition.For example, the first row in table 2 indicates, first radio transmission apparatus
The maximum modulation order of support is 6, and the order of modulation of the transmission block is 1 or 2, which is 24, and the transmission code block is big
It is small to be less than or equal to 42.For another example, the last line in table 2 indicates, the maximum modulation order which supports
It is 6, the order of modulation of the transmission block is 1 or 2, which is 288, which is less than or equal to 312.
Table 3
Every row in table 3 indicates a preset condition.For example, the first row in table 3 indicates, first radio transmission apparatus
The maximum modulation order of support is 8, and the order of modulation of the transmission block is 1 or 2, which is 24, and the transmission code block is big
It is small to be less than or equal to 42.For another example, the last line in table 3 indicates, the maximum modulation order which supports
It is 8, the order of modulation of the transmission block is 1 or 2, which is 288, which is less than or equal to 312.
Table 4
Every row in table 4 indicates a preset condition.For example, the first row in table 4 indicates, first radio transmission apparatus
The maximum modulation order of support is 6, and the order of modulation of the transmission block is 4, which is 24, and the transmission code block size is small
In or equal to 40.For another example, the last line in table 4 indicates, the maximum modulation order which supports is 6,
The order of modulation of the transmission block is 4, which is 288, which is less than or equal to 304.
Table 5
Every row in table 5 indicates a preset condition.For example, the first row in table 5 indicates, first radio transmission apparatus
The maximum modulation order of support is 8, and the order of modulation of the transmission block is 4, which is 24, and the transmission code block size is small
In or equal to 40.For another example, the last line in table 5 indicates, the maximum modulation order which supports is 8,
The order of modulation of the transmission block is 4, which is 288, which is less than or equal to 304.
Table 6
Every row in table 6 indicates a preset condition.For example, the first row in table 6 indicates, first radio transmission apparatus
The maximum modulation order of support is 6, and the order of modulation of the transmission block is 6, which is 24, and the transmission code block size is small
In or equal to 42.For another example, the last line in table 6 indicates, the maximum modulation order which supports is 6,
The order of modulation of the transmission block is 6, which is 288, which is less than or equal to 312.
Maximum modulation order | Order of modulation | Transport block size | Maximum transmitted code block size |
8 | 6 | 24 | 42 |
8 | 6 | 32 | 48 |
8 | 6 | 40 | 60 |
8 | 6 | 48 | 66 |
8 | 6 | 56 | 72 |
8 | 6 | 64 | 80 |
8 | 6 | 72 | 90 |
8 | 6 | 80 | 102 |
8 | 6 | 88 | 108 |
8 | 6 | 96 | 112 |
8 | 6 | 104 | 120 |
8 | 6 | 112 | 132 |
8 | 6 | 120 | 136 |
8 | 6 | 128 | 144 |
8 | 6 | 136 | 152 |
8 | 6 | 144 | 168 |
8 | 6 | 152 | 168 |
8 | 6 | 160 | 180 |
8 | 6 | 168 | 192 |
8 | 6 | 176 | 198 |
8 | 6 | 184 | 204 |
8 | 6 | 192 | 216 |
8 | 6 | 208 | 228 |
8 | 6 | 224 | 240 |
8 | 6 | 240 | 264 |
8 | 6 | 256 | 272 |
8 | 6 | 272 | 288 |
8 | 6 | 288 | 312 |
Table 7
Every row in table 7 indicates a preset condition.For example, the first row in table 7 indicates, first radio transmission apparatus
The maximum modulation order of support is 8, and the order of modulation of the transmission block is 6, which is 24, and the transmission code block size is small
In or equal to 42.For another example, the last line in table 7 indicates, the maximum modulation order which supports is 8,
The order of modulation of the transmission block is 6, which is 288, which is less than or equal to 312.
Maximum modulation order | Order of modulation | Transport block size | Maximum transmitted code block size |
8 | 6 | 24 | 40 |
8 | 6 | 32 | 48 |
8 | 6 | 40 | 56 |
8 | 6 | 48 | 64 |
8 | 6 | 56 | 72 |
8 | 6 | 64 | 80 |
8 | 6 | 72 | 88 |
8 | 6 | 80 | 96 |
8 | 6 | 88 | 104 |
8 | 6 | 96 | 112 |
8 | 6 | 104 | 120 |
8 | 6 | 112 | 136 |
8 | 6 | 120 | 136 |
8 | 6 | 128 | 144 |
8 | 6 | 136 | 160 |
8 | 6 | 144 | 160 |
8 | 6 | 152 | 176 |
8 | 6 | 160 | 176 |
8 | 6 | 168 | 192 |
8 | 6 | 176 | 200 |
8 | 6 | 184 | 200 |
8 | 6 | 192 | 208 |
8 | 6 | 208 | 224 |
8 | 6 | 224 | 240 |
8 | 6 | 240 | 264 |
8 | 6 | 256 | 280 |
8 | 6 | 272 | 296 |
8 | 6 | 288 | 312 |
Table 8
Every row in table 8 indicates a preset condition.For example, the first row in table 8 indicates, first radio transmission apparatus
The maximum modulation order of support is 8, and the order of modulation of the transmission block is 8, which is 24, and the transmission code block size is small
In or equal to 40.For another example, the last line in table 8 indicates, the maximum modulation order which supports is 8,
The order of modulation of the transmission block is 8, which is 288, which is less than or equal to 312.
Optionally, in some embodiments, which may include whole as shown in table 2 to table 8
Preset condition.In the case, first radio transmission apparatus is in the maximum modulation for determining that first radio transmission apparatus is supported
Order, the order of modulation of the transmission block, the transport block size, it is default to any of table 8 which meets table 2
In the case where condition, determines and skip the decoding soft value/hard values sequence;First radio transmission apparatus is determining the first wireless biography
The maximum modulation order that transfer device is supported, the order of modulation of the transmission block, the transport block size, the transmission code block size are unsatisfactory for
In the case where any one preset condition of table 2 into table 8, then LDPC decoding is carried out to the soft value/hard values sequence.
For example, if first radio transmission apparatus determines that the maximum modulation order that first radio transmission apparatus is supported is 8,
The order of modulation of the transmission block is 8, which is 24, which is less than or equal to 40, then skips decoding
The soft value/hard values sequence.If first radio transmission apparatus determines the maximum modulation order that first radio transmission apparatus is supported
It is 8, the order of modulation of the transmission block is 8, which is 24, which is greater than 40, then to the soft value/hard
Value sequence carries out LDPC decoding.
Optionally, in some embodiments, which may include the part as shown in table 2 to table 8
Preset condition.For example, can only include whole preset conditions included by one or more tables of the table 2 into table 8.It for another example can be with
It only include one or part preset condition of the table 2 in one or more tables into table 8.It for another example, can only include 2 value table 8 of table
In a table in one or some or all of preset condition.In the case, first radio transmission apparatus is true
The maximum modulation order that fixed first radio transmission apparatus is supported, the order of modulation of the transmission block, the transport block size, the transmission
In the case that code block size meets any one preset condition in the second preset condition set, determine skip decode the soft value/
Hard values sequence;First radio transmission apparatus is in the maximum modulation order for determining that first radio transmission apparatus is supported, the transmission
The order of modulation of block, the transport block size, it is pre- which is unsatisfactory for any of the second preset condition set
If in the case where condition, then carrying out LDPC decoding to the soft value/hard values sequence.
For example, the second preset condition set only includes whole preset condition shown in table 2.If first wireless transmission is set
The standby maximum modulation order for determining that first radio transmission apparatus is supported is 6, and the order of modulation of the transmission block is 2, the transmission block
Size is 24, which is less than or equal to 42, then skips the decoding soft value/hard values sequence.If the first wireless biography
Transfer device determines that the maximum modulation order that first radio transmission apparatus is supported is 8, and the order of modulation of the transmission block is 8, the biography
Defeated block size is 24, which is greater than 40, then carries out LDPC decoding to the soft value/hard values sequence.
For ease of description, the rule of progress LDPC decoding will be determined whether based on one or more of table 2 to table 8 below
Then it is known as the 4th and evades rule.
Optionally, in some embodiments, the 4th evades the maximum value of the transmission code block size in rule in addition to such as
Outside maximum transmitted code block size shown in table 2 to table 8, the maximum transmitted code block size and one as shown in table 2 to table 8 can also be
The sum of a deviant.The deviant can be 2, -2,4, -4,8, -8 etc..Maximum transmitted corresponding to different transport block sizes
The deviant of code block size can be the same or different.
Optionally, in some embodiments, first radio transmission apparatus is big according to the transport block size and transmission code block
It is small, low density parity check code LDPC decoding is carried out to the soft value/hard values sequence or skips the decoding soft value/hard values sequence, packet
Include: first radio transmission apparatus determines whether the transport block size and the transmission code block size meet third preset condition set
In any one preset condition, however, it is determined that result be it is yes, then skip decoding the soft value/hard values sequence, however, it is determined that result be it is no, then
LDPC decoding is carried out to the soft value/hard values sequence, which may include any one table of table 2 into table 8
Transport block size and maximum transmitted code block size combination.In other words, which is determining whether to carry out
When LDPC is decoded, the order of modulation for judging maximum modulation order He the transmission block may not need, and can be directly according to the transmission
Block size and maximum transmitted code block size.For convenience of description, below by the transmission of any one table according to table 2 into table 8
Block size and the combination of maximum transmitted code block size determine whether that the rule for carrying out LDPC decoding is known as the 5th and evades rule.
Optionally, in further embodiments, the third preset condition set can also include table 2 into table 8 at least
The combination of the maximum value or minimum value and transport block size of maximum transmitted code block size in two tables.For convenience of description, with
It is lower by the maximum value of the maximum transmitted code block size according to table 2 at least two tables into table 8 or minimum value and transmission block
The combination of size determines whether that the rule for carrying out LDPC decoding is known as the 6th and evades rule.
Such as table 9 shows the maximum value and transport block size of the maximum transmitted code block size of whole tables of the table 2 into table 8
Combination.
Transport block size | Maximum transmitted code block size |
24 | 42 |
32 | 50 |
40 | 60 |
48 | 68 |
56 | 72 |
64 | 84 |
72 | 90 |
80 | 102 |
88 | 108 |
96 | 114 |
104 | 124 |
112 | 136 |
120 | 140 |
128 | 148 |
136 | 160 |
144 | 168 |
152 | 176 |
160 | 180 |
168 | 192 |
176 | 200 |
184 | 208 |
192 | 216 |
208 | 232 |
224 | 246 |
240 | 264 |
256 | 280 |
272 | 296 |
288 | 312 |
Table 9
Table 10 shows the minimum value and transport block size of the maximum transmitted code block sizes of whole tables of the table 2 into table 8
Combination.
Transport block size | Maximum transmitted code block size |
24 | 40 |
32 | 48 |
40 | 56 |
48 | 64 |
56 | 72 |
64 | 80 |
72 | 88 |
80 | 96 |
88 | 104 |
96 | 112 |
104 | 120 |
112 | 128 |
120 | 136 |
128 | 144 |
136 | 152 |
144 | 160 |
152 | 168 |
160 | 176 |
168 | 192 |
176 | 192 |
184 | 200 |
192 | 208 |
208 | 224 |
224 | 240 |
240 | 256 |
256 | 272 |
272 | 288 |
288 | 304 |
Table 10
Optionally, in further embodiments, which can also be any of table 9 or table 10
Preset condition.
Optionally, in some embodiments, first radio transmission apparatus, first radio transmission apparatus is according to the transmission
Block size and transmission code block size, carry out low density parity check code LDPC decoding to the soft value/hard values sequence or skip decoding
The soft value/hard values sequence, comprising:
First radio transmission apparatus determines in the case where determining that N meets following formula and skips the decoding soft value/hard values
Sequence:
Wherein N indicates the transmission code block size, and TBS indicates the transport block size, and CRC table shows CRC length, QmDescribed in expression
First object order of modulation.
For ease of description, first transmission device to be determined whether to the rule of progress LDPC decoding according to formula 1.2 below
Referred to as the 7th evades rule.
Optionally, in some embodiments, which can also follow the 8th and evade rule to determine
Whether LDPC decoding is carried out.Specifically, the 8th evades rule and may is that first radio transmission apparatus can be according to the transmission
Block size and the transmission code block size, determine efficient channel encoder bit rate;First radio transmission apparatus can have determining this
It imitates channel coding code rate and is greater than the first default code rate, which is less than or equal to the second default code rate, and should
In the case that transport block size is less than or equal to the first Preset Transfer block size, the decoding soft value/hard values sequence is skipped;This first
Radio transmission apparatus can be in the case where determining that the efficient channel encoder bit rate is less than or equal to the first default code rate, to this
Soft value/hard values sequence carries out LDPC decoding;First radio transmission apparatus can be greater than determining the efficient channel encoder bit rate
The first default code rate, which is less than or equal to the second default code rate, and the transport block size is greater than
In the case where the first Preset Transfer block size, LDPC decoding is carried out to the soft value/hard values sequence.
Optionally, in some embodiments, first radio transmission apparatus can follow this first evade rule to this
Eight evade any one in rule.
Optionally, in further embodiments, first radio transmission apparatus can also follow this first evade rule extremely
8th evade it is multiple in rule.For example, first radio transmission apparatus can follow the 8th evade rule and this second
Evade rule.For another example, first radio transmission apparatus can follow this second evade rule and the third evade rule.For another example,
First radio transmission apparatus, which can follow the 4th, to be evaded rule and the 7th evades rule.
Optionally, in further embodiments, first radio transmission apparatus can also follow this first evade rule extremely
8th evades the whole in rule.
Optionally, in some embodiments, before skipping the decoding soft value/hard values sequence, which is set
It is standby to determine that first transmission block is the transmission block of the high code rate of short code block size.For example, skipping the decoding transmission block
Before, this method can also include: that first radio transmission apparatus determines that efficient channel encoder bit rate is greater than third and presets code rate,
Determine that the transport block size is less than or equal to the second Preset Transfer block size.For example, it is 0.9,2/3,8/ that the third, which presets code rate,
9,5/6,0.89,0.83 or 0.67, which can be 292,296 or 300.
Optionally, in some embodiments, which is skipping the decoding soft value/hard values sequence feelings
Under condition, decoding error can be indicated.Indicating mode can be the output device output decoding by first radio transmission apparatus
Error indication indicates decoding error, and be also possible to generate be used to indicate translating for the first radio transmission apparatus decoding error
Code Defect Indication information is sent to other equipment.For example, the decoding error being indicated to, information sends second wireless transmission
Equipment.Second radio transmission apparatus can be retransmitted after receiving decoding error instruction information.The transmission block of re-transmission
Code rate can be lower than the transmission block.For another example, decoding error instruction information can be sent to can be with the first wireless biography
Other radio transmission apparatus of transfer device communication.
Optionally, in some embodiments, which is skipping the decoding soft value/hard values sequence feelings
Under condition, the soft value/hard values sequence can be decoded using the second decoding mechanism, wherein the second decoding mechanism is translated with first
Ink recorder system is different, if first radio transmission apparatus, which is determined, carries out LDPC decoding to the soft value/hard values sequence, this is first wireless
Transmission device carries out LDPC decoding to the soft value/hard values sequence using the first decoding mechanism.The calculation of the second decoding mechanism
Method can be different from the first decoding mechanism.The algorithm of the second decoding mechanism can be identical as the first decoding mechanism, still
The parameter that the parameter that the second decoding mechanism uses when decoding uses when decoding from the first decoding mechanism is different.
Optionally, in some embodiments, which is skipping the decoding soft value/hard values sequence feelings
It under condition, can do nothing, and continue to determine whether to decode subsequently received soft value/hard values sequence.
Fig. 2 is the schematic flow chart according to another information processing method provided by the embodiments of the present application.
201, radio transmission apparatus determines first object Modulation and Coding Scheme, the first transport block size and the first transmission code block
Size.
202, which determines to use and be somebody's turn to do according to first transport block size and the first transmission code block size
First object Modulation and Coding Scheme and first transport block size carry out LDPC coding, use the second target modulation alternatively, determining
Encoding scheme or the second transport block size carry out LDPC coding, wherein the rank of the second target modulation encoding scheme lower than this
The rank of one target modulation encoding scheme, second transport block size are less than first transport block size.
The radio transmission apparatus is after having determined the encoding scheme and transport block size for carrying out LDPC coding, Ke Yigen
Transmission block is encoded according to determining encoding scheme, transport block size and corresponding BG.Then it carries out rate-matched, interweave
Deng processing, and the coded-bit after intertexture is mapped to modulation symbol and is sent to receiving device.
Optionally, in some embodiments, the radio transmission apparatus is according to first transport block size and first transmission
Code block size determines and carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size, alternatively, really
Surely LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size, comprising: the radio transmission apparatus root
According to first transport block size and the first transmission code block size, efficient channel encoder bit rate is determined;First wireless transmission is set
It is standby to determine that the transport block size is less than or equal to the first Preset Transfer block size and the efficient channel encoder bit rate is big
In the case where the first default code rate, determines and carry out LDPC using the second target modulation encoding scheme or the second transport block size
Coding;Or first radio transmission apparatus can be greater than the first Preset Transfer block size determining the transport block size and be somebody's turn to do
In the case that efficient channel encoder bit rate is greater than the second default code rate, determines and use the second target modulation encoding scheme or second
Transport block size carries out LDPC coding;Or the radio transmission apparatus is determining the efficient channel encoder bit rate less than or equal to this
In the case of first default code rate, determines and carry out LDPC volume using the first object Modulation and Coding Scheme and first transport block size
Code;Or the radio transmission apparatus is determining the efficient channel encoder bit rate greater than the first default code rate, which compiles
Code code rate is less than or equal to the second default code rate and first transport block size is greater than the feelings of the first Preset Transfer block size
Under condition, determines and carry out LDPC coding using the first object Modulation and Coding Scheme and first transport block size.For the ease of retouching
It states, whether the first default code rate is greater than according to efficient channel encoder bit rate by above-mentioned below, which is
It is no whether to be less than the first Preset Transfer block size less than the second default code rate and first transport block size and determine whether
It is known as first using the rule that the first object Modulation and Coding Scheme and first transport block size carry out LDPC coding to evade
Then.
Optionally, in some embodiments, which can be greater than determining the efficient channel encoder bit rate
In the case where the second default code rate, determines and carry out LDPC volume using the second target modulation encoding scheme or the second transport block size
Code.For ease of description, whether will be greater than the second default code rate according to the efficient channel encoder bit rate below to determine whether to make
It is known as second with the rule that the first object Modulation and Coding Scheme and first transport block size carry out LDPC coding and evades rule.
Optionally, in some embodiments, which can be 0.93, which can also be
0.931,0.933, or any value greater than 0.931 and less than 0.933.The second default code rate can be 0.95.This first
Preset Transfer block size can be 136,138 or 140.
The radio transmission apparatus can determine the efficient channel encoder bit rate according to formula 1.1.Aforementioned reality can also be referred to
It applies to the explanation of efficient channel encoder bit rate in example, details are not described herein again.
Optionally, in some embodiments, the radio transmission apparatus is according to first transport block size and the first transmission code
Block size determines and carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size, alternatively, determining
LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size, comprising:
First radio transmission apparatus determines whether to meet any one preset condition in the first preset condition set;If really
It is yes for determining result, it is determined that carries out LDPC coding using the second target modulation encoding scheme or the second transport block size, however, it is determined that
It as a result is no, it is determined that carry out LDPC coding using the first object Modulation and Coding Scheme and first transport block size, this
One preset condition set includes that effective channel coding code rate is greater than the second default code rate, and wherein the efficient channel encoder bit rate is root
According to first transport block size and this first transmission code block size determine: the first preset condition set further include it is following at least
A kind of preset condition, the first order of modulation are the corresponding order of modulation of first object Modulation and Coding Scheme: first modulation order
Number is equal to 1 or 2, which is equal to 40 and the first transmission code block size is less than or equal to 60;First modulation
Order is equal to 1 or 2, which is equal to 48 and the first transmission code block size is less than or equal to 68;First tune
Order processed is equal to 1 or 2, which is equal to 112 and the first transmission code block size is less than or equal to 136;This
One order of modulation is equal to 1 or 2, which is equal to 136 and the first transmission code block size is less than or equal to 160;
First order of modulation is equal to 4, which is equal to 40 and the first transmission code block size is less than or equal to 60;It should
First order of modulation is equal to 6, which is equal to 40 and the first transmission code block size is less than or equal to 60;This
One order of modulation is equal to 6, which is equal to 80 and the first transmission code block size is less than or equal to 102;This
One order of modulation is equal to 8, which is equal to 112 and the first transmission code block size is less than or equal to 136;This
One order of modulation is equal to 8, which is equal to 136 and the first transmission code block size is less than or equal to 160.This has
Imitating channel coding code rate can determine that the second default code rate is equal to 0.95 according to formula 1.1.
The preset condition may include that efficient channel encoder bit rate is any greater than shown in the second default code rate and/or table 1
A or multiple preset conditions.The specific descriptions of table 1 can participate in method shown in FIG. 1, need not just repeat herein.
Specifically, if the radio transmission apparatus determines that the efficient channel encoder bit rate is greater than 0.95, it is determined that use second
Target modulation encoding scheme or the second transport block size carry out LDPC coding.Optionally, in some embodiments, this is first default
Set of circumstances may include whole preset conditions as shown in Table 1.In the case, which is determining the transmission
In the case that the order of modulation of block, the transport block size and the transmission code block size meet any one preset condition in table 1, really
Surely LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size;The radio transmission apparatus is somebody's turn to do determining
Efficient channel encoder bit rate is less than or equal to 0.95 and the order of modulation of the transmission block, the transport block size and the transmission code block are big
In the case where small any one preset condition being unsatisfactory in table 1, it is determined that using the first object Modulation and Coding Scheme and this
One transport block size carries out LDPC coding.
For example, the transport block size is 136, the biography if the radio transmission apparatus determines that the order of modulation of the transmission block is 8
Defeated code block size is less than or equal to 160, it is determined that is carried out using the second target modulation encoding scheme or the second transport block size
LDPC coding.If the radio transmission apparatus determines that the order of modulation of the transmission block is 8, which is 136, the transmission code
Block size is 200, it is determined that carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size.
Optionally, in some embodiments, which may include that item is preset in part as shown in Table 1
Part.For example, first preset condition may include the other conditions as shown in Table 1 in addition to last line condition.In this feelings
Under condition, which meets in the order of modulation for determining the transmission block, the transport block size and the transmission code block size
In the case where any one preset condition in table 1 in addition to last line, determine using the second target modulation encoding scheme or the
Two transport block sizes carry out LDPC coding;The radio transmission apparatus is determining the efficient channel encoder bit rate less than or equal to 0.95
And the order of modulation of the transmission block, the transport block size and the transmission code block size are unsatisfactory in table 1 in addition to last line
In the case where any one preset condition, it is determined that carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding.
For example, the transport block size is 112, the biography if the radio transmission apparatus determines that the order of modulation of the transmission block is 8
Defeated code block size is less than or equal to 136, it is determined that is carried out using the second target modulation encoding scheme or the second transport block size
LDPC coding.If the radio transmission apparatus determines that the order of modulation of the transmission block is 8, which is 136, the transmission code
Block size is greater than 136, it is determined that carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size.
For ease of description, below will based on table 1 determine whether using the first object Modulation and Coding Scheme and this first
The rule that transport block size carries out LDPC coding is known as third and evades rule.
Optionally, in some embodiments, the maximum value which evades the first transmission code block size in rule is removed
Outside maximum first transmission code block size as shown in Table 1, can also be maximum first transmission code block size as shown in Table 1 with
The sum of one deviant.The deviant can be 2, -2,4, -4,8, -8 etc..Corresponding to the first different transport block sizes most
The deviant of big first transmission code block size can be the same or different.
Optionally, in some embodiments, the radio transmission apparatus is according to first transport block size and the first transmission code
Block size determines and carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size, alternatively, determining
LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size, comprising: first radio transmission apparatus
Determine whether to meet any one preset condition in the second preset condition set, wherein the first order of modulation is the tune of the transmission block
Order processed;If it is determined that result is yes, it is determined that carry out LDPC using the second target modulation encoding scheme or the second transport block size
Coding, however, it is determined that result is no, it is determined that carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding, the second preset condition set may include one or more tables of the table 2 into table 8 or it is all of any one
Or multiple or full terms.
Optionally, in some embodiments, which may include whole as shown in table 2 to table 8
Preset condition.In the case, first radio transmission apparatus is in the maximum modulation for determining that first radio transmission apparatus is supported
Order, the order of modulation of the transmission block, the transport block size, it is default to any of table 8 which meets table 2
In the case where condition, determines and carry out LDPC coding using the second target modulation encoding scheme or the second transport block size;This first
For radio transmission apparatus in the maximum modulation order for determining that first radio transmission apparatus is supported, the order of modulation of the transmission block should
Transport block size, in the case which is unsatisfactory for any one preset condition of table 2 into table 8, it is determined that use
The first object Modulation and Coding Scheme and first transport block size carry out LDPC coding.
For example, if first radio transmission apparatus determines that the maximum modulation order that first radio transmission apparatus is supported is 8,
The order of modulation of the transmission block is 8, which is 24, which is less than or equal to 40, it is determined that is used
Second target modulation encoding scheme or the second transport block size carry out LDPC coding.If first radio transmission apparatus determine this
The maximum modulation order that one radio transmission apparatus is supported is 8, and the order of modulation of the transmission block is 8, which is 24, should
It transmits code block size and is greater than 40, it is determined that carry out LDPC using the first object Modulation and Coding Scheme and first transport block size
Coding.
Optionally, in some embodiments, which may include the part as shown in table 2 to table 8
Preset condition.For example, can only include whole preset conditions included by one or more tables of the table 2 into table 8.It for another example can be with
It only include one or part preset condition of the table 2 in one or more tables into table 8.It for another example, can only include 2 value table 8 of table
In a table in one or some or all of preset condition.In the case, first radio transmission apparatus is true
The maximum modulation order that fixed first radio transmission apparatus is supported, the order of modulation of the transmission block, the transport block size, the transmission
In the case that code block size meets any one preset condition in the second preset condition set, determines and use the second target modulation
Encoding scheme or the second transport block size carry out LDPC coding;First radio transmission apparatus determine this first wireless transmission set
The standby maximum modulation order supported, the order of modulation of the transmission block, the transport block size, the transmission code block size be unsatisfactory for this
In the case where any one preset condition in two preset condition set, it is determined that using the first object Modulation and Coding Scheme and be somebody's turn to do
First transport block size carries out LDPC coding.
For example, the second preset condition set only includes whole preset condition shown in table 2.If first wireless transmission is set
The standby maximum modulation order for determining that first radio transmission apparatus is supported is 6, and the order of modulation of the transmission block is 2, the transmission block
Size is 24, which is less than or equal to 42, it is determined that uses the second target modulation encoding scheme or the second transmission
Block size carries out LDPC coding.If first radio transmission apparatus determines the maximum modulation rank that first radio transmission apparatus is supported
Number is 8, and the order of modulation of the transmission block is 8, which is 24, which is greater than 40, it is determined that is used
The first object Modulation and Coding Scheme and first transport block size carry out LDPC coding.
For ease of description, will determine whether to use the first object tune based on one or more of table 2 to table 8 below
The rule that encoding scheme processed and first transport block size carry out LDPC coding is known as the 4th and evades rule.
Optionally, in some embodiments, the 4th maximum value for evading the first transmission code block size in rule is removed
Outside the transmission code block size of the maximum first as shown in table 2 to table 8, the transmission of as shown in table 2 to table 8 maximum first can also be
Code block size and deviant and.The deviant can be 2, -2,4, -4,8, -8 etc..The first different transport block sizes
The deviant that corresponding maximum first transmits code block size can be the same or different.
Optionally, in some embodiments, the radio transmission apparatus is according to first transport block size and the first transmission code
Block size determines and carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size, alternatively, determining
LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size, comprising: the radio transmission apparatus determines
Whether first transport block size and the first transmission code block size meet any of third preset condition set and preset item
Part, however, it is determined that result is yes, it is determined that LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size,
If it is determined that result be it is no, then LDPC is carried out using the first object Modulation and Coding Scheme and first transport block size to the transmission
Coding, wherein first order of modulation is the order of modulation of the transmission block, which may include table 2 to table
The first transport block size and maximum first of any one table in 8 transmit code block size combination.In other words, which sets
It is standby when determining whether to carry out LDPC coding using the first object Modulation and Coding Scheme and first transport block size, Ke Yiwu
It need to judge maximum modulation order and first order of modulation, and can directly be passed according to first transport block size and maximum first
Defeated code block size.For convenience of description, below by the first transport block size of any one table according to table 2 into table 8 and most
Big first transmission code block size combination determine whether using the first object Modulation and Coding Scheme and first transport block size into
The rule of row LDPC coding is known as the 5th and evades rule.
Optionally, in further embodiments, the third preset condition set can also include table 2 into table 8 at least
Maximum first in two tables transmits the combination of the maximum value or minimum value and the first transport block size of code block size.For convenience
Description, below by the maximum value or minimum of the transmission code block size of maximum first according to table 2 at least two tables into table 8
The combination of value and the first transport block size determines whether using the first object Modulation and Coding Scheme and first transport block size
The rule for carrying out LDPC coding is known as the 6th and evades rule.
Optionally, in further embodiments, which can also be any of table 9 or table 10
Preset condition.
Optionally, in some embodiments, the radio transmission apparatus radio transmission apparatus is big according to first transmission block
Small and the first transmission code block size, determines and carries out LDPC using the first object Modulation and Coding Scheme and first transport block size
Coding is determined using the second target modulation encoding scheme or the second transport block size progress LDPC coding, comprising:
The radio transmission apparatus determines in the case where determining that N meets formula 1.2 and uses the second target modulation encoding scheme
Or second transport block size carry out LDPC coding.
For ease of description, below first transmission device is determined whether to modulate using the first object according to formula 1.2
The rule that encoding scheme and first transport block size carry out LDPC coding is known as the 7th and evades rule.
Optionally, in some embodiments, which can also follow the 8th and evade rule to determine whether
Carry out LDPC coding.Specifically, the 8th evades rule and may is that
The radio transmission apparatus can determine effectively letter according to first transport block size and the first transmission code block size
Road encoder bit rate;The radio transmission apparatus can be greater than the first default code rate determining the efficient channel encoder bit rate, this is effectively
Channel coding code rate is less than or equal to the second default code rate, and first transport block size is less than or equal to the first Preset Transfer block
In the case where size, determines and carry out LDPC coding using the second target modulation encoding scheme or the second transport block size;This is wireless
Transmission device can be determined and be used in the case where determining that the efficient channel encoder bit rate is less than or equal to the first default code rate
The first object Modulation and Coding Scheme and first transport block size carry out LDPC coding;The radio transmission apparatus can be in determination
The efficient channel encoder bit rate is greater than the first default code rate, which is less than or equal to second code presupposition
In the case that rate and first transport block size are greater than the first Preset Transfer block size, determine and compiled using first object modulation
Code scheme and first transport block size carry out LDPC coding.
Optionally, in some embodiments, the radio transmission apparatus can follow this first evade rule to the 8th rule
Keep away any one in rule.
Optionally, in further embodiments, the radio transmission apparatus can also follow this first evade rule to this
Eight evade it is multiple in rule.For example, the radio transmission apparatus, which can follow the 8th, evades rule and this second evades rule.
For another example, the radio transmission apparatus can follow this second evade rule and the third evade rule.For another example, the radio transmission apparatus
The 4th can be followed to evade rule and the 7th evade rule.
Optionally, in further embodiments, the radio transmission apparatus can also follow this first evade rule to this
Eight evade the whole in rule.
Optionally, in some embodiments, the second target modulation encoding scheme or the second transport block size are used determining
Before carrying out LDPC coding, which can also determine that first transmission block is the transmission of the high code rate of short code block size
Block.For example, before determining using the second target modulation encoding scheme or the second transport block size progress LDPC coding, this method
It can also include: that the radio transmission apparatus determines that efficient channel encoder bit rate is greater than third and presets code rate, determine that the transmission block is big
It is small to be less than or equal to the second Preset Transfer block size.For example, it is 0.9,2/3,8/9,5/6,0.89 that the third, which presets code rate,
0.83 or 0.67, which can be 292,296 or 300.
Fig. 3 is the structural block diagram according to radio transmission apparatus provided by the embodiments of the present application.Wireless transmission as shown in Figure 3
Equipment 300 can be the first radio transmission apparatus in embodiment illustrated in fig. 1.As shown in figure 3, radio transmission apparatus 300 includes:
Acquiring unit 301 and decoding unit 302.
Acquiring unit 301, for obtaining the transmission block from the second radio transmission apparatus.
Decoding unit 302, for the transport block size and the transmission code block size of the transmission block according to the transmission block, to this
Soft value/hard values sequence carries out low density parity check code LDPC decoding or skips the decoding soft value/hard values sequence.
The concrete function and beneficial effect of acquiring unit 301 and decoding unit 302, may refer to embodiment shown in FIG. 1,
It need not just repeat herein.
Acquiring unit 301 can be realized that decoding unit 302 can be realized by decoder by processor.
Fig. 4 is the structural block diagram according to another radio transmission apparatus provided by the embodiments of the present application.As shown in Figure 4 is wireless
Transmission device 400 can be the radio transmission apparatus in embodiment illustrated in fig. 2.As shown in figure 4, radio transmission apparatus 400 includes:
Processing unit 401 and coding unit 402.
Processing unit 401, for determining first object Modulation and Coding Scheme, the first transport block size and the first transmission code block
Size.
Coding unit 402, for according to first transport block size and the first transmission code block size, determine using this
One target modulation encoding scheme and first transport block size carry out low density parity check code LDPC coding, alternatively, determination makes
LDPC coding is carried out with the second target modulation encoding scheme or the second transport block size, wherein the second target modulation encoding scheme
Rank be lower than the first object Modulation and Coding Scheme rank, second transport block size be less than first transport block size.
The concrete function and beneficial effect of processing unit 401 and coding unit 402, may refer to embodiment shown in Fig. 2,
It need not just repeat herein.
Processing unit 401 can be realized that coding unit 402 can be realized by encoder by processor.
Fig. 5 is the structural block diagram according to another radio transmission apparatus provided by the embodiments of the present application.As shown in Figure 5 is wireless
Transmission device 500 includes memory 501 and processor 502.
Memory 501, for storing program.
Processor 502, for executing the program of the storage of memory 501, when program is performed, so that radio transmission apparatus
500 may be implemented the method that above-mentioned Fig. 1 embodiment provides.
It can will be realized some or all of in method shown in FIG. 1 by software using radio transmission apparatus 500.
Memory 501 can be physically separate unit, can also integrate with processor 502.
Optionally, when passing through software realization some or all of in method shown in FIG. 1, radio transmission apparatus 500
Processor 502 can be only included.Memory 501 for storing program is located at except device 500, processor 502 by circuit/
Electric wire is connect with memory 501, for reading and executing the program stored in memory 501.
Processor 502 can be central processing unit (central processing unit, CPU), network processing unit
The combination of (network processor, NP) or CPU and NP.
Processor 502 can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit
(application-specific integrated circuit, ASIC), programmable logic device (programmable
Logic device, PLD) or combinations thereof.Above-mentioned PLD can be Complex Programmable Logic Devices (complex
Programmable logic device, CPLD), field programmable gate array (field-programmable gate
Array, FPGA), Universal Array Logic (generic array logic, GAL) or any combination thereof.
Memory 501 may include volatile memory (volatile memory), such as random access memory
(random-access memory, RAM);Memory 501 also may include nonvolatile memory (non-volatile
), such as flash memory (flash memory), hard disk (hard disk drive, HDD) or solid state hard disk memory
(solid-state drive, SSD);Memory 501 can also include the combination of the memory of mentioned kind.
Fig. 6 is the structural block diagram according to another radio transmission apparatus provided by the embodiments of the present application.It is as shown in FIG. 6 wireless
Transmission device 600 includes memory 601 and processor 602.
Memory 601, for storing program.
Processor 602, for executing the program of the storage of memory 601, when program is performed, so that radio transmission apparatus
600 may be implemented the method that above-mentioned Fig. 1 embodiment provides.
It can will be realized some or all of in method shown in FIG. 1 by software using radio transmission apparatus 600.
Memory 601 can be physically separate unit, can also integrate with processor 602.
Optionally, when passing through software realization some or all of in method shown in FIG. 1, radio transmission apparatus 600
Processor 602 can be only included.Memory 601 for storing program is located at except device 600, processor 602 by circuit/
Electric wire is connect with memory 601, for reading and executing the program stored in memory 601.
Processor 602 can be central processing unit (central processing unit, CPU), network processing unit
The combination of (network processor, NP) or CPU and NP.
Processor 602 can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit
(application-specific integrated circuit, ASIC), programmable logic device (programmable
Logic device, PLD) or combinations thereof.Above-mentioned PLD can be Complex Programmable Logic Devices (complex
Programmable logic device, CPLD), field programmable gate array (field-programmable gate
Array, FPGA), Universal Array Logic (generic array logic, GAL) or any combination thereof.
Memory 601 may include volatile memory (volatile memory), such as random access memory
(random-access memory, RAM);Memory 601 also may include nonvolatile memory (non-volatile
), such as flash memory (flash memory), hard disk (hard disk drive, HDD) or solid state hard disk memory
(solid-state drive, SSD);Memory 601 can also include the combination of the memory of mentioned kind.
The another aspect of the application provides a kind of computer readable storage medium, deposits in the computer readable storage medium
Instruction is contained, when the instruction is run on computers, so that computer executes above-mentioned method as shown in Figure 1.
The another aspect of the application provides a kind of computer program product comprising instruction, when the computer program product
When running on computers, so that computer executes method as shown in Figure 1.
The another aspect of the application provides a kind of computer readable storage medium, deposits in the computer readable storage medium
Instruction is contained, when the instruction is run on computers, so that computer executes above-mentioned method as shown in Figure 2.
The another aspect of the application provides a kind of computer program product comprising instruction, when the computer program product
When running on computers, so that computer executes method as shown in Figure 2.
Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure
Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually
It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician
Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed
Scope of the present application.
It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description,
The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.
In several embodiments provided herein, it should be understood that disclosed systems, devices and methods, it can be with
It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit
It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components
It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or
The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit
It closes or communicates to connect, can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit
The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple
In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme
's.
It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.
It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product
It is stored in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially in other words
The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter
Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a
People's computer, server or network equipment etc.) execute each embodiment the method for the application all or part of the steps.
And storage medium above-mentioned includes: that USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), arbitrary access are deposited
The various media that can store program code such as reservoir (Random Access Memory, RAM), magnetic or disk.
The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any
Those familiar with the art within the technical scope of the present application, can easily think of the change or the replacement, and should all contain
Lid is within the scope of protection of this application.Therefore, the protection scope of the application should be based on the protection scope of the described claims.
Claims (26)
1. a kind of information processing method, which is characterized in that the described method includes:
First radio transmission apparatus obtains to obtain the soft value from the second radio transmission apparatus/hard values sequence, the soft value/hard
The information of value sequence carrying transmission block;
First radio transmission apparatus according to the transport block size of the transmission block and the transmission code block size of the transmission block,
Low density parity check code LDPC decoding is carried out to the soft value/hard values sequence or skips the decoding soft value/hard values sequence.
2. the method as described in claim 1, which is characterized in that first radio transmission apparatus is according to the biography of the transmission block
The transmission code block size of defeated block size and the transmission block carries out low density parity check code to the soft value/hard values sequence
LDPC decodes or skips the decoding soft value/hard values sequence, comprising:
First radio transmission apparatus determines that efficient channel encodes according to the transport block size and the transmission code block size
Code rate;
First radio transmission apparatus is determining the transport block size less than or equal to the first Preset Transfer block size
And in the case that the efficient channel encoder bit rate is greater than the described first default code rate, the decoding soft value/hard values sequence is skipped;
Or
First radio transmission apparatus is determining that the transport block size is greater than the first Preset Transfer block size and described
In the case that efficient channel encoder bit rate is greater than the described second default code rate, the decoding soft value/hard values sequence is skipped;Or
First radio transmission apparatus is determining the efficient channel encoder bit rate less than or equal to the described first default code rate
In the case where, LDPC decoding is carried out to the soft value/hard values sequence;Or
First radio transmission apparatus determine the efficient channel encoder bit rate be greater than the described first default code rate, it is described to have
Channel coding code rate is imitated less than or equal to the described second default code rate and the transport block size is greater than first Preset Transfer
In the case where block size, LDPC decoding is carried out to the soft value/hard values sequence.
3. method according to claim 2, which is characterized in that the first default code rate is 0.93, second code presupposition
Rate is 0.95, and the first Preset Transfer block size is 136.
4. the method as described in claim 1, which is characterized in that first radio transmission apparatus is according to the biography of the transmission block
The transmission code block size of defeated block size and the transmission block carries out low density parity check code to the soft value/hard values sequence
LDPC decodes or skips the decoding soft value/hard values sequence, comprising:
First radio transmission apparatus determines whether to meet any one preset condition in the first preset condition set;
If it is determined that result be it is yes, then skip the decoding soft value/hard values sequence, or
If it is determined that result be it is no, then LDPC decoding is carried out to the soft value/hard values sequence,
The first preset condition set includes that effective channel coding code rate is greater than the second default code rate, wherein the efficient channel
Encoder bit rate is determined according to the transport block size and the transmission code block size,
The first preset condition set further includes following at least one preset condition:
The order of modulation of the transmission block be equal to 1 or 2, the transport block size be equal to 40 and the transmission code block size be less than or
Equal to 60,
The order of modulation of the transmission block be equal to 1 or 2, the transport block size be equal to 48 and the transmission code block size be less than or
Equal to 68,
The order of modulation of the transmission block is equal to 1 or 2, and the transport block size is equal to 112 and the transmission code block size is less than
Or it is equal to 136,
The order of modulation of the transmission block is equal to 1 or 2, and the transport block size is equal to 136 and the transmission code block size is less than
Or it is equal to 160,
The order of modulation of the transmission block is equal to 4, and the transport block size is equal to 40 and the transmission code block size is less than or waits
In 60,
The order of modulation of the transmission block is equal to 6, and the transport block size is equal to 40 and the transmission code block size is less than or waits
In 60,
The order of modulation of the transmission block is equal to 6, and the transport block size is equal to 80 and the transmission code block size is less than or waits
In 102,
The order of modulation of the transmission block is equal to 8, and the transport block size is equal to 112 and the transmission code block size is less than or waits
In 136,
The order of modulation of the transmission block is equal to 8, and the transport block size is equal to 136 and the transmission code block size is less than or waits
In 160.
5. the method as described in claim 1, which is characterized in that first radio transmission apparatus is according to the biography of the transmission block
The transmission code block size of defeated block size and the transmission block carries out low density parity check code to the soft value/hard values sequence
LDPC decodes or skips the decoding soft value/hard values sequence, comprising:
First radio transmission apparatus determines whether to meet any one preset condition in the second preset condition set;
If it is determined that result be it is yes, then skip the decoding soft value/hard values sequence, or
If it is determined that result be it is no, then LDPC decoding is carried out to the soft value/hard values sequence,
The second preset condition set comprises at least one of the following preset condition:
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 32 and the transmission code block size is less than or equal to 50;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 48 and the transmission code block size is less than or equal to 68;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 96 and the transmission code block size is less than or equal to 114;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 112 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 120 and the transmission code block size is less than or equal to 140;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 128 and the transmission code block size is less than or equal to 148;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 136 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 176 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 184 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 208 and the transmission code block size is less than or equal to 232;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 256 and the transmission code block size is less than or equal to 280;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 272 and the transmission code block size is less than or equal to 296;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 32 and the transmission code block size is less than or equal to 50;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 48 and the transmission code block size is less than or equal to 68;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 96 and the transmission code block size is less than or equal to 114;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 112 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 120 and the transmission code block size is less than or equal to 140;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 128 and the transmission code block size is less than or equal to 148;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 136 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 176 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 184 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 208 and the transmission code block size is less than or equal to 232;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 256 and the transmission code block size is less than or equal to 280;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 272 and the transmission code block size is less than or equal to 296;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 40;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 64;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 84;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 88;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 128;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 224;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 256;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 304;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 40;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 64;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 84;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 88;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 128;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 224;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 256;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 304;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 66;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 84;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 102;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 114;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 120;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 132;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 198;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 204;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 228;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 246;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 66;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 102;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 120;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 132;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 198;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 204;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 228;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 40;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 56;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 64;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 88;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 104;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 120;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 224;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 280;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 296;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 312.
6. method as described in claim 4 or 5, which is characterized in that before skipping the decoding soft value/hard values sequence, institute
State method further include:
First radio transmission apparatus determines that efficient channel encoder bit rate is greater than third and presets code rate, determines that the transmission block is big
It is small to be less than or equal to the second Preset Transfer block size.
7. such as method described in any one of claims 1 to 6, which is characterized in that the method also includes:
In the case where skipping the decoding soft value/hard values sequence, first radio transmission apparatus is wirelessly passed to described second
Transfer device sends decoding error and indicates that information, the decoding error instruction information are used to indicate first radio transmission apparatus and translate
Code mistake;Or
In the case where skipping the decoding soft value/hard values sequence, first radio transmission apparatus is using the second decoding mechanism
The soft value/hard values sequence is decoded, wherein the second decoding mechanism is different from the first decoding mechanism, if described first
Radio transmission apparatus, which is determined, carries out LDPC decoding to the soft value/hard values sequence, then first radio transmission apparatus uses institute
It states the first decoding mechanism and LDPC decoding is carried out to the soft value/hard values sequence.
8. a kind of information processing method, which is characterized in that the described method includes:
Radio transmission apparatus determines first object Modulation and Coding Scheme, the first transport block size and the first transmission code block size;
The radio transmission apparatus determines described in use according to first transport block size and the first transmission code block size
First object Modulation and Coding Scheme and first transport block size carry out low density parity check code LDPC coding, alternatively, really
Surely LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size, wherein second target modulation is compiled
The rank of code scheme is lower than the rank of the first object Modulation and Coding Scheme, and second transport block size is less than described first
Transport block size.
9. method according to claim 8, which is characterized in that the radio transmission apparatus is according to the first transport block size and
One transmission code block size, determines and carries out low-density using the first object Modulation and Coding Scheme and first transport block size
Parity check code LDPC coding carries out LDPC using the second target modulation encoding scheme or the second transport block size alternatively, determining
Coding, comprising:
The radio transmission apparatus determines efficient channel according to first transport block size and the first transmission code block size
Encoder bit rate;
First radio transmission apparatus is determining the transport block size less than or equal to the first Preset Transfer block size
And in the case that the efficient channel encoder bit rate is greater than the described first default code rate, determines and use the second target modulation coding staff
Case or the second transport block size carry out LDPC coding;Or
First radio transmission apparatus is determining that the transport block size is greater than the first Preset Transfer block size and described
In the case that efficient channel encoder bit rate is greater than the described second default code rate, determine using the second target modulation encoding scheme or the
Two transport block sizes carry out LDPC coding;Or
The radio transmission apparatus is determining the efficient channel encoder bit rate less than or equal to the described first default code rate situation
Under, it determines and carries out LDPC coding using the first object Modulation and Coding Scheme and first transport block size;Or
The radio transmission apparatus is determining the efficient channel encoder bit rate greater than the described first default code rate, effective letter
Road encoder bit rate is less than or equal to the described second default code rate and first transport block size is greater than first Preset Transfer
In the case where block size, determines and carry out LDPC volume using the first object Modulation and Coding Scheme and first transport block size
Code.
10. method as claimed in claim 9, which is characterized in that the first default code rate is 0.93, second code presupposition
Rate is 0.95, and the first Preset Transfer block size is 136.
11. method according to claim 8, the radio transmission apparatus is according to the first transport block size and the first transmission code block
Size determines and carries out low density parity check code using the first object Modulation and Coding Scheme and first transport block size
LDPC coding carries out LDPC coding using the second target modulation encoding scheme or the second transport block size alternatively, determining, comprising:
First radio transmission apparatus determines whether to meet any one preset condition in the first preset condition set;
If it is determined that result is yes, it is determined that carry out LDPC volume using the second target modulation encoding scheme or the second transport block size
Code, or
If it is determined that result is no, it is determined that carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding;
The first preset condition set includes that effective channel coding code rate is greater than the second default code rate, wherein the efficient channel
Encoder bit rate is determined according to first transport block size and the first transmission code block size:
The first preset condition set further includes following at least one preset condition, and the first order of modulation is the first object
The corresponding order of modulation of Modulation and Coding Scheme:
First order of modulation is equal to 1 or 2, and first transport block size is equal to 40 and the first transmission code block size is small
In or equal to 60;
First order of modulation is equal to 1 or 2, and first transport block size is equal to 48 and the first transmission code block size is small
In or equal to 68;
First order of modulation is equal to 1 or 2, and first transport block size is equal to 112 and the first transmission code block size
Less than or equal to 136;
First order of modulation is equal to 1 or 2, and first transport block size is equal to 136 and the first transmission code block size
Less than or equal to 160;
First order of modulation is equal to 4, and first transport block size is equal to 40 and the first transmission code block size is less than
Or it is equal to 60;
First order of modulation is equal to 6, and first transport block size is equal to 40 and the first transmission code block size is less than
Or it is equal to 60;
First order of modulation is equal to 6, and first transport block size is equal to 80 and the first transmission code block size is less than
Or it is equal to 102;
First order of modulation is equal to 8, and first transport block size is equal to 112 and the first transmission code block size is less than
Or it is equal to 136;
First order of modulation is equal to 8, and first transport block size is equal to 136 and the first transmission code block size is less than
Or it is equal to 160.
12. method according to claim 8, which is characterized in that the radio transmission apparatus according to the first transport block size and
First transmission code block size determines low close using the first object Modulation and Coding Scheme and first transport block size progress
Parity check code LDPC coding is spent, is carried out alternatively, determining using the second target modulation encoding scheme or the second transport block size
LDPC coding, comprising:
First radio transmission apparatus determines whether any one preset condition in the second preset condition set of satisfaction, wherein the
One order of modulation is the order of modulation of the transmission block;
If it is determined that result is yes, it is determined that carry out LDPC volume using the second target modulation encoding scheme or the second transport block size
Code, or
If it is determined that result is no, it is determined that carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding,
The second preset condition set comprises at least one of the following preset condition:
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 32 and the first transmission code block size is less than or equal to 50;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 48 and the first transmission code block size is less than or equal to 68;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 96 and the first transmission code block size is less than or equal to 114;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 112 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 120 and the first transmission code block size is less than or equal to 140;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 128 and the first transmission code block size is less than or equal to 148;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 136 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 176 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 184 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 208 and the first transmission code block size is less than or equal to 232;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 256 and the first transmission code block size is less than or equal to 280;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 272 and the first transmission code block size is less than or equal to 296;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 32 and the first transmission code block size is less than or equal to 50;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 48 and the first transmission code block size is less than or equal to 68;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 96 and the first transmission code block size is less than or equal to 114;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 112 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 120 and the first transmission code block size is less than or equal to 140;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 128 and the first transmission code block size is less than or equal to 148;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 136 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 176 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 184 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 208 and the first transmission code block size is less than or equal to 232;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 256 and the first transmission code block size is less than or equal to 280;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 272 and the first transmission code block size is less than or equal to 296;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 40;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 64;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 84;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 88;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 128;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 224;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 256;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 304;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 40;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 64;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 84;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 88;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 128;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 224;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 256;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 304;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 66;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 84;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 102;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 114;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 120;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 132;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 198;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 204;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 228;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 246;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 66;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 102;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 120;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 132;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 198;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 204;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 228;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 40;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 56;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 64;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 88;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 104;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 120;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 224;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 280;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 296;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 312.
13. the method as described in claim 11 or 12, which is characterized in that determining using the second target modulation encoding scheme or
Before second transport block size carries out LDPC coding, the method also includes:
The radio transmission apparatus determines that efficient channel encoder bit rate is greater than third and presets code rate, determines that the transport block size is small
In or equal to the second Preset Transfer block size.
14. a kind of radio transmission apparatus, which is characterized in that the radio transmission apparatus includes:
Acquiring unit, for obtaining the soft value from the second radio transmission apparatus/hard values sequence, the soft value/hard values sequence is held
Carry the information of transmission block;
Decoding unit, for according to the transport block size of the transmission block and the transmission code block size of the transmission block, to described
Soft value/hard values sequence carries out low density parity check code LDPC decoding or skips the decoding soft value/hard values sequence.
15. radio transmission apparatus as claimed in claim 14, which is characterized in that the decoding unit is specifically used for:
According to the transport block size and the transmission code block size, efficient channel encoder bit rate is determined;
Determining that the transport block size is less than or equal to the first Preset Transfer block size and the efficient channel encodes code
In the case that rate is greater than the described first default code rate, the decoding soft value/hard values sequence is skipped;Or
Determining that the transport block size is greater than the first Preset Transfer block size and the efficient channel encoder bit rate is greater than
In the case where the second default code rate, the decoding soft value/hard values sequence is skipped;Or
Determine the efficient channel encoder bit rate be less than or equal to the first default code rate in the case where, to the soft value/
Hard values sequence carries out LDPC decoding;Or
Determine the efficient channel encoder bit rate be greater than the described first default code rate, the efficient channel encoder bit rate be less than or
Equal to the described second default code rate and in the case that the transport block size is greater than the first Preset Transfer block size, to described
Soft value/hard values sequence carries out LDPC decoding.
16. radio transmission apparatus as claimed in claim 15, which is characterized in that the first default code rate is 0.93, described
Second default code rate is 0.95, and the first Preset Transfer block size is 136.
17. radio transmission apparatus as claimed in claim 14, which is characterized in that the decoding unit is specifically used for:
Determine whether to meet any one preset condition in the first preset condition set;
If it is determined that result be it is yes, then skip the decoding soft value/hard values sequence, or
If it is determined that result be it is no, then LDPC decoding is carried out to the soft value/hard values sequence,
The first preset condition set includes that effective channel coding code rate is greater than the second default code rate, wherein the efficient channel
Encoder bit rate is determined according to the transport block size and the transmission code block size,
The first preset condition set further includes following at least one preset condition:
The order of modulation of the transmission block be equal to 1 or 2, the transport block size be equal to 40 and the transmission code block size be less than or
Equal to 60,
The order of modulation of the transmission block be equal to 1 or 2, the transport block size be equal to 48 and the transmission code block size be less than or
Equal to 68,
The order of modulation of the transmission block is equal to 1 or 2, and the transport block size is equal to 112 and the transmission code block size is less than
Or it is equal to 136,
The order of modulation of the transmission block is equal to 1 or 2, and the transport block size is equal to 136 and the transmission code block size is less than
Or it is equal to 160,
The order of modulation of the transmission block is equal to 4, and the transport block size is equal to 40 and the transmission code block size is less than or waits
In 60,
The order of modulation of the transmission block is equal to 6, and the transport block size is equal to 40 and the transmission code block size is less than or waits
In 60,
The order of modulation of the transmission block is equal to 6, and the transport block size is equal to 80 and the transmission code block size is less than or waits
In 102,
The order of modulation of the transmission block is equal to 8, and the transport block size is equal to 112 and the transmission code block size is less than or waits
In 136,
The order of modulation of the transmission block is equal to 8, and the transport block size is equal to 136 and the transmission code block size is less than or waits
In 160.
18. radio transmission apparatus as claimed in claim 14, which is characterized in that the decoding unit is specifically used for:
Determine whether to meet any one preset condition in the second preset condition set;
If it is determined that result be it is yes, then skip the decoding soft value/hard values sequence, or
If it is determined that result be it is no, then LDPC decoding is carried out to the soft value/hard values sequence,
The second preset condition set comprises at least one of the following preset condition:
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 32 and the transmission code block size is less than or equal to 50;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 48 and the transmission code block size is less than or equal to 68;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 96 and the transmission code block size is less than or equal to 114;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 112 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 120 and the transmission code block size is less than or equal to 140;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 128 and the transmission code block size is less than or equal to 148;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 136 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 176 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 184 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 208 and the transmission code block size is less than or equal to 232;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 256 and the transmission code block size is less than or equal to 280;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 272 and the transmission code block size is less than or equal to 296;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 6, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 32 and the transmission code block size is less than or equal to 50;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 48 and the transmission code block size is less than or equal to 68;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 96 and the transmission code block size is less than or equal to 114;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 112 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 120 and the transmission code block size is less than or equal to 140;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 128 and the transmission code block size is less than or equal to 148;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 136 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 176 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 184 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 208 and the transmission code block size is less than or equal to 232;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 256 and the transmission code block size is less than or equal to 280;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 272 and the transmission code block size is less than or equal to 296;
The maximum modulation order that first radio transmission apparatus is supported is that the order of modulation of the 8, transmission block is equal to 1 or 2, institute
Transport block size is stated equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 40;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 64;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 84;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 88;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 128;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 224;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 256;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 4, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 304;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 40;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 64;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 84;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 88;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 124;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 128;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 224;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 256;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 4, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 304;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 66;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 84;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 102;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 114;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 120;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 132;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 198;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 204;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 228;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 246;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 6, transmission block equal to 6, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 42;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 60;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 66;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 90;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 102;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 108;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 120;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 132;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 152;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 168;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 180;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 198;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 204;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 216;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 228;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 272;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 288;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 6, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 312;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 24 and the transmission code block size is less than or equal to 40;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 32 and the transmission code block size is less than or equal to 48;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 40 and the transmission code block size is less than or equal to 56;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 48 and the transmission code block size is less than or equal to 64;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 56 and the transmission code block size is less than or equal to 72;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 64 and the transmission code block size is less than or equal to 80;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 72 and the transmission code block size is less than or equal to 88;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 80 and the transmission code block size is less than or equal to 96;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 88 and the transmission code block size is less than or equal to 104;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 96 and the transmission code block size is less than or equal to 112;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 104 and the transmission code block size is less than or equal to 120;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 112 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 120 and the transmission code block size is less than or equal to 136;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 128 and the transmission code block size is less than or equal to 144;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 136 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 144 and the transmission code block size is less than or equal to 160;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 152 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 160 and the transmission code block size is less than or equal to 176;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 168 and the transmission code block size is less than or equal to 192;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 176 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 184 and the transmission code block size is less than or equal to 200;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 192 and the transmission code block size is less than or equal to 208;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 208 and the transmission code block size is less than or equal to 224;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 224 and the transmission code block size is less than or equal to 240;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 240 and the transmission code block size is less than or equal to 264;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 256 and the transmission code block size is less than or equal to 280;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 272 and the transmission code block size is less than or equal to 296;
The maximum modulation order that first radio transmission apparatus is supported is the order of modulation of the 8, transmission block equal to 8, described
Transport block size is equal to 288 and the transmission code block size is less than or equal to 312.
19. the radio transmission apparatus as described in claim 17 or 18, which is characterized in that the decoding unit is also used to determine
Efficient channel encoder bit rate is greater than third and presets code rate, and it is big to determine that the transport block size is less than or equal to the second Preset Transfer block
It is small.
20. the radio transmission apparatus as described in any one of claim 14 to 19, which is characterized in that the radio transmission apparatus
Further include: transmission unit, in the case where the decoding unit is skipped and decodes the soft value/hard values sequence, Xiang Suoshu the
Two radio transmission apparatus send decoding error and indicate that information, the decoding error instruction information are used to indicate the described first wireless biography
Transfer device decoding error;Or
The decoding unit is also used in the case where skipping the decoding soft value/hard values sequence, using the second decoding mechanism pair
The soft value/hard values sequence is decoded, wherein the second decoding mechanism is different from the first decoding mechanism, if decoding unit is true
Fixed to carry out LDPC decoding to the soft value/hard values sequence, then the decoding unit is using the first decoding mechanism to described soft
Value/hard values sequence carries out LDPC decoding.
21. a kind of radio transmission apparatus, which is characterized in that the radio transmission apparatus includes:
Processing unit, for determining first object Modulation and Coding Scheme, the first transport block size and the first transmission code block size;
Coding unit, for determining using described the according to first transport block size and the first transmission code block size
One target modulation encoding scheme and first transport block size carry out low density parity check code LDPC coding, alternatively, determining
LDPC coding is carried out using the second target modulation encoding scheme or the second transport block size, wherein second target modulation encodes
The rank of scheme is lower than the rank of the first object Modulation and Coding Scheme, and second transport block size is less than described first and passes
Defeated block size.
22. radio transmission apparatus as claimed in claim 21, which is characterized in that the coding unit is specifically used for:
According to first transport block size and the first transmission code block size, efficient channel encoder bit rate is determined;
Determining that the transport block size is less than or equal to the first Preset Transfer block size and the efficient channel encodes code
In the case that rate is greater than the described first default code rate, determine using the second target modulation encoding scheme or the second transport block size into
Row LDPC coding;Or
Determining that the transport block size is greater than the first Preset Transfer block size and the efficient channel encoder bit rate is greater than
In the case where the second default code rate, determines and carry out LDPC using the second target modulation encoding scheme or the second transport block size
Coding;Or
When determining that the efficient channel encoder bit rate is less than or equal to the first default code rate, determine using described the
One target modulation encoding scheme and first transport block size carry out LDPC coding;Or
Determine the efficient channel encoder bit rate be greater than the described first default code rate, the efficient channel encoder bit rate be less than or
Equal to the described second default code rate and in the case that first transport block size is greater than the first Preset Transfer block size, really
Surely LDPC coding is carried out using the first object Modulation and Coding Scheme and first transport block size.
23. radio transmission apparatus as claimed in claim 22, which is characterized in that the first default code rate is 0.93, described
Second default code rate is 0.95, and the first Preset Transfer block size is 136.
24. radio transmission apparatus as claimed in claim 21, the coding unit, are specifically used for:
Determine whether to meet any one preset condition in the first preset condition set;
If it is determined that result is yes, it is determined that carry out LDPC volume using the second target modulation encoding scheme or the second transport block size
Code, or
If it is determined that result is no, it is determined that carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding
The first preset condition set includes that effective channel coding code rate is greater than the second default code rate, wherein the efficient channel
Encoder bit rate is determined according to first transport block size and the first transmission code block size:
The first preset condition set further includes following at least one preset condition, and the first order of modulation is the first object
The corresponding order of modulation of Modulation and Coding Scheme:
First order of modulation is equal to 1 or 2, and first transport block size is equal to 40 and the first transmission code block size is small
In or equal to 60;
First order of modulation is equal to 1 or 2, and first transport block size is equal to 48 and the first transmission code block size is small
In or equal to 68;
First order of modulation is equal to 1 or 2, and first transport block size is equal to 112 and the first transmission code block size
Less than or equal to 136;
First order of modulation is equal to 1 or 2, and first transport block size is equal to 136 and the first transmission code block size
Less than or equal to 160;
First order of modulation is equal to 4, and first transport block size is equal to 40 and the first transmission code block size is less than
Or it is equal to 60;
First order of modulation is equal to 6, and first transport block size is equal to 40 and the first transmission code block size is less than
Or it is equal to 60;
First order of modulation is equal to 6, and first transport block size is equal to 80 and the first transmission code block size is less than
Or it is equal to 102;
First order of modulation is equal to 8, and first transport block size is equal to 112 and the first transmission code block size is less than
Or it is equal to 136;
First order of modulation is equal to 8, and first transport block size is equal to 136 and the first transmission code block size is less than
Or it is equal to 160.
25. radio transmission apparatus as claimed in claim 21, which is characterized in that the coding unit is specifically used for:
Determine whether to meet any one preset condition in the second preset condition set, wherein the first order of modulation is the transmission
The order of modulation of block;
If it is determined that result is yes, it is determined that carry out LDPC volume using the second target modulation encoding scheme or the second transport block size
Code, or
If it is determined that result is no, it is determined that carried out using the first object Modulation and Coding Scheme and first transport block size
LDPC coding,
The second preset condition set comprises at least one of the following preset condition:
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 32 and the first transmission code block size is less than or equal to 50;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 48 and the first transmission code block size is less than or equal to 68;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 96 and the first transmission code block size is less than or equal to 114;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 112 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 120 and the first transmission code block size is less than or equal to 140;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 128 and the first transmission code block size is less than or equal to 148;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 136 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 176 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 184 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 208 and the first transmission code block size is less than or equal to 232;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 256 and the first transmission code block size is less than or equal to 280;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 272 and the first transmission code block size is less than or equal to 296;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 32 and the first transmission code block size is less than or equal to 50;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 48 and the first transmission code block size is less than or equal to 68;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 96 and the first transmission code block size is less than or equal to 114;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 112 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 120 and the first transmission code block size is less than or equal to 140;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 128 and the first transmission code block size is less than or equal to 148;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 136 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 176 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 184 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 208 and the first transmission code block size is less than or equal to 232;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 256 and the first transmission code block size is less than or equal to 280;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 272 and the first transmission code block size is less than or equal to 296;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 1 or 2, and described first passes
Defeated block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 40;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 64;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 84;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 88;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 128;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 224;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 256;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 4, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 304;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 40;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 64;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 84;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 88;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 124;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 128;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 224;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 256;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 4, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 304;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 66;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 84;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 102;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 114;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 120;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 132;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 198;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 204;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 228;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 246;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 6, first order of modulation is equal to 6, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 42;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 60;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 66;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 90;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 102;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 108;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 120;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 132;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 152;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 168;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 180;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 198;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 204;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 216;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 228;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 272;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 288;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 6, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 312;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 24 and the first transmission code block size is less than or equal to 40;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 32 and the first transmission code block size is less than or equal to 48;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 40 and the first transmission code block size is less than or equal to 56;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 48 and the first transmission code block size is less than or equal to 64;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 56 and the first transmission code block size is less than or equal to 72;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 64 and the first transmission code block size is less than or equal to 80;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 72 and the first transmission code block size is less than or equal to 88;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 80 and the first transmission code block size is less than or equal to 96;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 88 and the first transmission code block size is less than or equal to 104;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 96 and the first transmission code block size is less than or equal to 112;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 104 and the first transmission code block size is less than or equal to 120;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 112 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 120 and the first transmission code block size is less than or equal to 136;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 128 and the first transmission code block size is less than or equal to 144;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 136 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 144 and the first transmission code block size is less than or equal to 160;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 152 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 160 and the first transmission code block size is less than or equal to 176;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 168 and the first transmission code block size is less than or equal to 192;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 176 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 184 and the first transmission code block size is less than or equal to 200;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 192 and the first transmission code block size is less than or equal to 208;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 208 and the first transmission code block size is less than or equal to 224;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 224 and the first transmission code block size is less than or equal to 240;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 240 and the first transmission code block size is less than or equal to 264;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 256 and the first transmission code block size is less than or equal to 280;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 272 and the first transmission code block size is less than or equal to 296;
The maximum modulation order that the radio transmission apparatus is supported is that 8, first order of modulation is equal to 8, first transmission
Block size is equal to 288 and the first transmission code block size is less than or equal to 312.
26. the radio transmission apparatus as described in claim 24 or 25, which is characterized in that the processing unit is also used to determine
Efficient channel encoder bit rate is greater than third and presets code rate, and it is big to determine that the transport block size is less than or equal to the second Preset Transfer block
It is small.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810032227.2A CN110034845B (en) | 2018-01-12 | 2018-01-12 | Information processing method and wireless transmission device |
PCT/CN2019/071564 WO2019137520A1 (en) | 2018-01-12 | 2019-01-14 | Information processing method, and wireless transmission apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810032227.2A CN110034845B (en) | 2018-01-12 | 2018-01-12 | Information processing method and wireless transmission device |
Publications (2)
Publication Number | Publication Date |
---|---|
CN110034845A true CN110034845A (en) | 2019-07-19 |
CN110034845B CN110034845B (en) | 2021-09-14 |
Family
ID=67218515
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201810032227.2A Active CN110034845B (en) | 2018-01-12 | 2018-01-12 | Information processing method and wireless transmission device |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN110034845B (en) |
WO (1) | WO2019137520A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20220053406A (en) * | 2020-10-22 | 2022-04-29 | 삼성전자주식회사 | Apparatus and method for transmitting and receiving control information and data in communication system |
CN116033487A (en) * | 2021-10-27 | 2023-04-28 | 华为技术有限公司 | Data transmission method and device |
Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070127387A1 (en) * | 2005-12-05 | 2007-06-07 | Lee Tak K | Partial-parallel implementation of LDPC (low density parity check) decoders |
US20110314352A1 (en) * | 2010-06-16 | 2011-12-22 | Nec Laboratories America, Inc. | Reduced-complexity ldpc decoding |
CN102752867A (en) * | 2011-03-31 | 2012-10-24 | 北京新岸线无线技术有限公司 | Method for achieving link adaptation, terminal device and network device |
CN104601291A (en) * | 2015-02-16 | 2015-05-06 | 哈尔滨工业大学 | Flight test telemetering wireless transmission method based on self-adaptive LDPC (low density parity check) coding modulation |
CN106961319A (en) * | 2016-01-12 | 2017-07-18 | 中兴通讯股份有限公司 | A kind of method and apparatus of data processing |
CN106982172A (en) * | 2016-01-18 | 2017-07-25 | 华为技术有限公司 | Determine the method and communication equipment of polarization code transport block size |
CN107370489A (en) * | 2016-05-13 | 2017-11-21 | 中兴通讯股份有限公司 | The data processing method and device of structured LDPC code |
CN107370490A (en) * | 2016-05-13 | 2017-11-21 | 中兴通讯股份有限公司 | Coding, interpretation method and the device of structured LDPC |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2010066778A1 (en) * | 2008-12-12 | 2010-06-17 | Thomson Licensing | Method for turbo equalization of zarray coded words |
-
2018
- 2018-01-12 CN CN201810032227.2A patent/CN110034845B/en active Active
-
2019
- 2019-01-14 WO PCT/CN2019/071564 patent/WO2019137520A1/en active Application Filing
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070127387A1 (en) * | 2005-12-05 | 2007-06-07 | Lee Tak K | Partial-parallel implementation of LDPC (low density parity check) decoders |
US20110314352A1 (en) * | 2010-06-16 | 2011-12-22 | Nec Laboratories America, Inc. | Reduced-complexity ldpc decoding |
CN102752867A (en) * | 2011-03-31 | 2012-10-24 | 北京新岸线无线技术有限公司 | Method for achieving link adaptation, terminal device and network device |
CN104601291A (en) * | 2015-02-16 | 2015-05-06 | 哈尔滨工业大学 | Flight test telemetering wireless transmission method based on self-adaptive LDPC (low density parity check) coding modulation |
CN106961319A (en) * | 2016-01-12 | 2017-07-18 | 中兴通讯股份有限公司 | A kind of method and apparatus of data processing |
CN106982172A (en) * | 2016-01-18 | 2017-07-25 | 华为技术有限公司 | Determine the method and communication equipment of polarization code transport block size |
CN107370489A (en) * | 2016-05-13 | 2017-11-21 | 中兴通讯股份有限公司 | The data processing method and device of structured LDPC code |
CN107370490A (en) * | 2016-05-13 | 2017-11-21 | 中兴通讯股份有限公司 | Coding, interpretation method and the device of structured LDPC |
Also Published As
Publication number | Publication date |
---|---|
WO2019137520A1 (en) | 2019-07-18 |
CN110034845B (en) | 2021-09-14 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101061659B (en) | Adaptive forward error correction method and device | |
CN110089037A (en) | Device and method for polarization code construction | |
CN108347295B (en) | Data transmission method and device | |
CN109478953A (en) | The method and system of blind Detecting are carried out with polarization code | |
CN110999362B (en) | Method and apparatus for using redundancy bits in a semi-statically configured HARQ-ACK codebook | |
CN109586843A (en) | The design scheme of redundancy versions in communication system | |
US20200322090A1 (en) | Method and device for rate matching and polar encoding | |
CN108234081B (en) | Coding method and device | |
CN108809487A (en) | Method, base station and the terminal device of transmission data | |
CN107819545A (en) | The repeating method and device of polarization code | |
JP7030131B2 (en) | Data processing methods and devices | |
KR102326830B1 (en) | Methods, devices and devices for determining transport block size | |
CN110166168A (en) | Determine the method, apparatus and system of transport block size | |
US20230283346A1 (en) | Channel state information encoding method and apparatus, storage medium and processor | |
CN110034845A (en) | Information processing method and radio transmission apparatus | |
CN111446969A (en) | Polarization code coding method and device for cascading CRC (Cyclic redundancy check) codes | |
CN109756307A (en) | Data repeating method and device | |
CN108289009A (en) | A kind of method and apparatus in the UE for being used for channel coding, base station | |
EP4351028A1 (en) | Data processing method and apparatus | |
CN109802756A (en) | Information processing method and radio transmission apparatus | |
KR102455652B1 (en) | Method and apparatus for decoding using soft decision | |
EP4123933A1 (en) | Data processing method, apparatus and device | |
CN108400832A (en) | Data processing method and communication equipment | |
CN113037437A (en) | Data transmission method and device | |
CN111355562B (en) | Data transmission method and communication device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |