WO2010145609A1 - Method and apparatus for transmitting uplink control signaling - Google Patents

Method and apparatus for transmitting uplink control signaling Download PDF

Info

Publication number
WO2010145609A1
WO2010145609A1 PCT/CN2010/074756 CN2010074756W WO2010145609A1 WO 2010145609 A1 WO2010145609 A1 WO 2010145609A1 CN 2010074756 W CN2010074756 W CN 2010074756W WO 2010145609 A1 WO2010145609 A1 WO 2010145609A1
Authority
WO
WIPO (PCT)
Prior art keywords
information
uplink control
length
upper
ac
Prior art date
Application number
PCT/CN2010/074756
Other languages
French (fr)
Chinese (zh)
Inventor
杨维维
徐俊
戴博
梁春丽
夏树强
Original Assignee
中兴通讯股份有限公司
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority to CN200910212082.5 priority Critical
Priority to CN200910212082A priority patent/CN101702631A/en
Application filed by 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Publication of WO2010145609A1 publication Critical patent/WO2010145609A1/en

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic or resource management
    • H04W28/02Traffic management, e.g. flow control or congestion control
    • H04W28/06Optimizing the usage of the radio link, e.g. header compression, information sizing, discarding information

Abstract

The present invention discloses a method and an apparatus for transmitting uplink control signaling, which relate to mobile communication field and solve the problem of lacking a mechanism for transmitting uplink control signaling on Physical Uplink Shared channel (PUSCH), wherein the PUSCH uses Space Division Multiplex (SDM). The method includes the following steps: determining the target length of the uplink control signaling corresponding to each Transport Block (TB) or codeword stream; according to the target length of the uplink control signaling corresponding to each TB or codeword stream, respectively obtaining the multiplexed information after multiplexing uplink control signaling with uplink data, wherein the uplink control signaling and uplink data are to be transmitted on each TB or codeword stream; transmitting the multiplexed information corresponding to each TB or codeword stream on PUSCH. The technical solution provided by the present invention is suitable for uplink control signaling transmission in Long Term Evolution (LTE) system.

Description

 Uplink control method and device

 This relates to the field of communications, and more particularly to methods and apparatus for controlling God's uplink control.

In the long-term (o gTemEvo o , T ) system, the required uplink control commands are / message ( ck owedgeme / ega ve Ack owedgeme , AC / AC ), and the letter reflecting the downlink physics (Cha e Sae ao , C ). Among them, including the indication (ha esq ay dca o , CQ ) matrix indication (Pe-cod gax dcao , P ) indication (Rak dcao , R ) T system, AC / AC message in physical uplink control (hysca p Co o, CC ) in the format / a / b (P CC a / a), if each (se Eq pme, ) needs to send the ascend, then the physical uplink share (Physca p kShaedCha e, C), CQ /, R It can be a cyclical inverse or a non-periodic inverse. In the case of cyclically inverted CQ/, R, if there is no need to send a higher education, the cycle inverse CQ/, R is formatted on P CC . 2/2 2b ( CC a2/2 2b), if you need to send a higher education, then CQ/, R is on the PC in the non-periodic inverse CQ/P, R, only on the PC. T-A (o gTe vo o Adv ced) supports a higher rate in the upstream direction, and P C supports the same form, that is, in the mediation of P C or

Or map to multiple homes. In the upper T-A system, the PC uses the same way information, there exists

 In the mode information used by the P C, and the uplink control command in the phase of the P C is required, the existing control system is provided on the P C in the existing wood.

Content

 This provides God's Uplink Control method and device to solve the uplink control command on the active P C.

 God's upward control order method, including

 Determine the length of the uplink control

 The length of each uplink control command, the uplink control information of each or each of the uplink control commands, and

 Information about each or on P C .

Or the upper uplink control order is the same. The uplink control order includes / (C / AC), indication (CQ) or indication (R). The uplink control order includes AC / AC CQ and R, or the step of the upstream control order length.

Each uplink control order has a length of 9, 9 before each or the upstream control order, 9 Hugh on the PC AC / AC c or CQ or R, the first or upper control order "Length, Hugh Dian or on the AC / AC length or CQ The length of the Q or R length, the second or upper control of the aluminum "Length, the aluminum second or the length of the AC / AC 1 Ac or CQ length or R

 "

 Length , " is the offset from the base , the first or the way , the second or the way , C . m 1 2

 " or , sc is the pre-degree P C , expressed in subcarriers, is the meson carrier P C of the sheep carrier multi (SC-F), C means each or

 The divided children represent the size of each meson. Or the step of the upstream control order length

Equation 9 respectively or

The length of each uplink control command, or the length of the uplink control command, or the length of the AC/AC on the rest or the length of the UAC or C must be the length of the R, or the manner,

 "

Or on the upward control order, "is based on \

 Let the offset, '.

Or, sc" is the PC of the former degree, expressed as a subcarrier, "is the sheep carrier multi (SC-F) of the meson PC, and C represents the divided sub-child, indicating the size of each meson.

 Steps include

Wanted formula , respectively, to calculate different or upper education information, the first or upper education information, G second or upper education information

 Up or down information on each or above, 5 on the upside information. . . ]with[ . . . ] or each way, all uplink control orders

 Each or above the upper control order length, the entire control order will be or

0 or each of the above information or

 The uplink control order and , get the information.

Length, respectively Each or - step includes

Through formula G , 5 count different or upper education information, the first or higher education information, G second or upper education information

 Up and down information about each of the upstream teaching information, M] and [ ]

0 each mode, all uplink control orders and

 The information is obtained by summing all the upward control orders of each of the above-mentioned uplink information.

 The steps of each of the uplink control order lengths, 5 or 5, respectively, or the uplink control command

 Based on the length of each uplink control command, the entire control order will be

 Formula G c

"and", respectively, calculate different or upper education information, upper or upper information, G second or upper information Up or down information on each

 . . . . . ]

Uplink information M ] [ .

 with

 In each mode, the information is obtained by the respective uplink control commands and the uplink control commands or the uplink control commands of each. The steps of obtaining the information or the uplink control order or the information of the uplink control order include the information of the first or the part to be edited . . . And the C information of the first or . .. ] , the first

 . Second or second information [ . . . And the second or the CQ information [ is . . . 2r

 + 1] , get [ . . . ] with "

Solid. . . And the AC / AC message of the first or the second c c c c

 V v V2 ], R let gr . . . ]

 9 and solid ] , second or AC / AC message 9 . . . 9 ], the R order [ . . .

 + ] and "

Solid. . . ] , get the information of the first or . . And the second or the information . . .

This is a near-goal control device that includes the length of the object, the upper or upper Control order length

 Information generation , each of which has an upper row control order , and each of the upper or lower uplink control orders

 Information , which is on P C or

Information. The uplink control order includes / message (C / AC), indication (CQ) or indication (R) length including

 The first leg of the sheep, its formula

 Ten O

In order to separate or up, each of the upstream control orders has a length of 9 and a previous or upward control order. Hugh on the PC on AC / AC or CQ or, ""

 The length of the upstream control command or the upper limit of the length of the AC / AC or the length of the CQ Q or the length of the R, the second or upper control of the aluminum "Length, the aluminum second or the upper AC / AC length c or CQ length or R

 "

, p" is the offset from the base, the first or the way, the second or the way, c 6 2

 .

 " or , s is the pre-degree P C , expressed in subcarriers, "is the meson carrier P C of the sheep carrier multi (SC-F), C means each or

 The split sub-represents the size of each meson and the second length of the sheep, its or the upper control order length, Hugh or AC / AC length Ac or C length must be or R length, / way," Or the upper control order, is the offset from the base, - \

 '.

 Or , c " is the P C of the precursor degree , expressed in subcarriers , is the sheep carrier multi (SC-F ) of the meson P C , and C represents each

 The divided children represent the size of each meson. Information generation includes teaching information generation sheep, its formula

 G c 2

"and", respectively, for different or upper-level teaching information, the first or the upper-level teaching information, the second or upper-level teaching, the sheep, the information of the upper and lower teachings, with[ . . . ] or, Each way, all uplink control orders

 The length of the control orders of the sheep, each of them, or the entire control order of each

 The information is generated by the sheep, and the information of each of the above-mentioned uplink information or the uplink control order is obtained.

 Information generation

 The length of the sheep, each of which is on or above the control order, will be the entire control order or

 Information generation sheep, its formula

G And sc, respectively, for different or upper "upper teaching information, " or "upper teaching information, G second or upper teaching information

 Sheep, each of which has information on the upper reaches of the teaching information, and [ ] or

 Each of the modalities, respectively, or each of the upward control orders and

 The information is generated by the sheep, and the information of each of the above-mentioned uplink information or the uplink control order is obtained.

 Information generation

 Teaching information to generate sheep, its formula

 Sc

Don't count the difference or the "and", the sub-teaching information, the first or On the upper teaching information, G second or above,

 Sheep , their educational information on or in each , . . .

 Upgrading information ] and . . . ] or,

 Each mode, all uplink control orders and

 The information is generated by the sheep, and the respective uplink control commands of each of the above or the upper teaching information are obtained. This provides God's uplink control method and device, first

 Or the upper control order length, or the length of each uplink control command, the corresponding uplink control order, the information of the uplink teaching, the most in the P C or

 The information, in the use of the P C uplink control order, solved the P C, there is no uplink control order. 1

 2 Uplink control order and uplink letter flow

 3 T system P C mode

 4 Force's provided God's Upward Control Order Method Flow

5 The schematic of the length of 501 in the schematic of the God Upstream Control Device provided by Liben 7 5 indication of the summer information generation 502

 The reason for the provision of the power supply of the 5th edition of the 5th summer information generation 502

The preferred way of this

 In the T system, the uplink control order and the uplink teaching method 1 are shown. In the T system, the uplink control command and the uplink education letter 2 show that the uplink teaching is in the form of TB (a spo Bock, ), TB CRCa ach e (Yu Tian), CodebockSe eo (division) and CodebockCRC a ach e (sub CRC) Tim), Cha e Cod g ( ), Rae mach g (rate matching), Code bock Co cae o (synthesis) and CQ/ ascending teaching and control orders, the most AC / AC R and ascending teaching. In the T system, P C mode 3 is shown, and P C is only in or .

 Up and down control orders

 First, the formula length, in AC / AC and R East, says

 Formula

Said in CQ East, the length of the formula. Q

formula

Then the length g .

 " □, , 9 . , where c is the PC of the pre-child, expressed as a subcarrier, "is the CF A of the meson PC (and the R and P), C represents the sub- and size of the split, "," The value is given by the base Hc

 (or ", or), the way of the upstream control order (either AC / AC message or R command or CQ /), or. However, AC / AC and R are the same AC / AC message or R message 1 bit, In the case of mode QP, information [ ] in the case of mode 16QAM4, information [in the case of mode 64QA, information [where, represents AC / AC message or R command, X, y is expressed in the largest fruit AC / AC message or R information 2 bits, in the case of mode QP, information Q] in the case of mode 16QA, information Q is

 In the case of 64QA, information

x] where, represents a 2-bit AC / AC message or R information, Q, X is represented by the largest due to the presence of AC / AC messages in the T system greater than 2 In the case of bits, in the T system, the AC / AC message is larger than 2 bits, (32, ). CQ/ bit is less than or equal to 1 special, C (32, ) way otherwise, CRC is added first, then

 4 shows the length 7, 1/3 of the way, the most AC / AC message, R, CQ / bit, until the content is met

 c c c

 Length , the information bits are respectively . . 9 ] , gyLg . . . c

 Y c J ] . . . ] and to , . . . ]

form The AC/AC information q will be in the order specified. ], R information bits. . ]

 And control . ]

use In the matrix, the order is like a matrix, and in the physical resource mapping, AC / AC, R, CQ / and teach can be mapped to the position shown in 1.

 Rest

 First, an integrative matrix is generated. The size of the matrix-like P C is allocated in the order of the matrix, the order of the matrix-like rows, and the matrix-like

 ] Go to the first line, the R information will be q. .

The predetermined position of the R information in the form of a matrix is like the position of the first row of the matrix, in the first order, Into the matrix,

 The position of the R information is in the order of the matrix-like, matrix-like rows, the most forward row of the matrix, and the encoded AC / AC information q ... q ]

Form matrix The predetermined location of the AC / AC information, the location has been.

9 ] , then knock out the position. The most order-like matrix is obtained in the order of the matrix, and the sequence of the form ".. where R is the predetermined position is shown in Table 1.

 1

 Form before

 Conventional before (1 4 7 1 )

 Before ( 3 5 )

 The planned location of AC / AC is shown in Table 2.

 2

 Form before

 Conventional before (2 3 8 )

 Before (1 2 6 )

 T-A supports a higher rate of uplink, so P C supports the same form. In the same form of P C East, the mapped maps are the same as those mapped to the T system, and the map of Hugh is shown in Table 3.

 3

Up

2 u 0 has 2+1

 ) )

 2 u U) ) f

 2 U) 1 2+1) x 2

 2+

 4 2 f 2

 U has 1 2)

 x ) 1 2+1

Which represents , , respectively , on the upper , , U

 Represented on , x , . . . , 3

Representing each of the above. Therefore, there are 2 cases in the PC of the T-A system, and the information in the P CC control order is supported by the PC in the T-A system, but the PC mode is lacking, and the uplink control order is on the PC. of. In the solution, this method provides God's uplink control order method, which solves the problem of the control system in the PC without the uplink control. 3, can be mapped to the PC in the PC or can be included in the PC, including the description of the PC, respectively, TB and TB2, respectively, Or

,

 \ where c" is the pre-degree P C , expressed in subcarriers, " is the C-F A of the meson P C (and R and P ), and C represents the sub- and size of the segmentation.

 WH

(or the value of "or" is derived from the base, representing the performance offset of the upstream control order, and the upward control order / AC or R or CQ/), or the way. In this case, the AC / AC R and CQ / are described on the PC, but the uplink control command on the PC is not limited to the above, and this is not limited. First combined, this introduction. The uplink control command is completed by using the uplink control command method provided in the present invention, including the step 401, or the uplink control command length. In this step, the uplink control commands required by the former child are AC / AC messages respectively. .. ], [ . . ]

R and CQ order "...], first in the length of the upper control order

Q. . R

 . Ten

 Formula

Q aluminum The length of each uplink control command, including the length of the AC / AC message G, the length of the R command, and the length of the C command UCr. Step 402: The length of each uplink control command, the uplink control order of each or each uplink control command, and the different manners of the uplink control command in this step, respectively [still], [ ] [

 And " ] , get the information separately # ]

 " , + ], " " " ]

 " Formulas and formulas on the second and second information G w formula , c "

 Formula.

 "

 Yes / 1

 ] and " " " ] , will [ ] and [ is + + ] , get

 " ""

[ with [

 One 0]

 One one two one one one one 2] then put [ g g

 One . ] , ] and ] q " Ac

9 2 g" ], "One 0-11 2 cc + c" [ + ] and solid], get the information of the uplink control order and the uplink teaching. Step 403, information on the PC or In this step, the information of step 402 is

. On the first and second homes of TB and TB2, respectively.

Below, the description of this.

 The upstream control order required by the former is the AC / AC message sequence [ . .. ], [ . . ]

 R and C, c ". ], the formula for the length of the upward control of each formula

The lengths of the obtained control information UAc UAc, and Ucr, the length, the first control order of each of the preceding control commands (including, and) O 2

 The formula is , in contrast to the different ways of the upward control order , respectively . .. still ] c

 , [ . . . ]

 And " ... ] , the information obtained is M ... ] q , " . . . ,

 . + ]

"The formula and formula on the second and second information and G will be especially] and """], will [] and [ "

 q" 9# ] 4" and use , " to [ ] . One to one and " " "

[ ] But put [

 One 0, one, two, one, 9 ". ], [ ] and [ " "

 One 0 to one 2], [

 One 2 9" ]

"ac, [] and solid], got the information of the upward control order and the ascending teaching, and will with. In the first and second home respectively.

Below, the description of this. In this case, the upstream control commands required by the former are AC / AC messages [ ] , [ ]

 R and C orders [ " ]

 . The formula is the length of each god's uplink control information UAc UAc , and Ucr . In the length, first of all the upward control commands of the formula AC / AC CQ and R, according to the respective God's upward control order, the uplink control is still divided into two parts (partially on the TB's first residence and part on the second home of TB2) However, in a different way from the control commands, the two pieces of information are respectively AC c C AC ] "[ AC CCC ] [ RR Ry [9 % like 9 % 92 9 % ]

 " "

 ] r ]

 , g 92 ] r 2r 2

 "," formula formulas and formulas, second and second ranking information and G will be ] 9

 And " " ]

Will o J o J 7

[ ] 0 % 9 ] r

 And " , get . ] and : ]. c ]

e , 9 ] , and [ ] talented] 9 ]

 4, . , w ]

, got the words of the upward control and the upward teaching: v. . , , will be L. In the first and second home respectively.

Below, the description of this. In this case, the upstream control commands required by the former are AC / AC messages [ ] , [ ]

 R order and C order c " ]

. First, the lengths of the upward control orders of the formulas are C and UC, and the length of each control order. , the upstream control information before the formula is still

 The color SC formula is still in the same way as the upward control order (partially in the TB's first residence and partly on the TB2's second residence), respectively.

 The information obtained is only 9 ] 9 ] q ]

 , , " " " ]

Formula and formula first and second home Words G and G Rare words] and [and o] 2r

 , will [ ]

 with " ] ]

 , got it. [ ]

 However e [ c c ] ]

 , 9 ]

 And , [ c c ] [

 , [ 9 ] ]

 And , got the words and the words: + and "+ will.

 ". In the first and second home respectively.

, the description of this. In this case, the upstream control commands required by the former include AC / AC messages [ ] , [ ]

 R and C orders]

. The upward control order on each of them satisfies the formula. 5 The formula is still, the length of each formula of the upward control order C, and still

 " , according to the way in which the parts of the upward control of each god are different from each other, and the length of the upward control order is still different.

 Ac ] part , the information obtained is c , A

 O c aAc c Ac

 . ]

0 . ] ]

[and 2r" q

. Formula formula and formula The information on the first and second homes and the information on the G]]] and ""]

 , [

 Will and [ q ] ] [ ] , get it and then ] [

 Put v v V2 ] ]

 , and , c c c ] ]

 5 , ] [

And got the information of the uplink control order and the uplink teaching with. ,will with. In the first and second home respectively.

, the description of this.

 In this case, the upstream control commands required by the former include AC / AC messages [ ] , [ ]

 R command and C order "], in this case, all uplink control orders on TB and TB2. The formulas are the lengths of the control information C, and 5, and the phase of each god's uplink control command, the uplink control order, obtained Upward control orders [q 9 9 9 ] q 9 9 9 ] 9 ] ], " " ]

 ", " " " ]

 ". Formula and formula, the second and second ranking information G, then

 1

0 ]

 And " " " ]

 , [ ] will

] ] [ ] and, get and [ Ac Ry

 . .

Of course 90

Go to the uplink control order and the information on the up and down. . . ,will with. In the first and second home respectively.

The present invention provides a god uplink control device, which is included in the PC, or the device 5, includes an analysis length 501, an uplink control command length information generation 502, and an uplink control command on each of the roots. The information information 503 of the uplink control command for each of the upper or upper uplink control commands is used for each information on the PC.

 Step, shown in Figure 501, including the length of the sheep, 5011, in the public

 Ten O

 Separately or separately

Upstream control order length 9, pre- or each of the upstream control commands, C / C on AC / AC c or C or R

" , on the upper or upper control ring length, Hugh on the upper or upper AC / AC length or C length Q or R length, aluminum second or upper control order "length, aluminum rest second or upper AC / AC length Ac or CQ length or R

 "

 , " is the offset by the base, the first or the mode, the second or the formula, c 2

 . 6

 " or , s is the pre-degree P C , expressed as subcarriers, is the meson carrier P C of the sheep carrier multi (SC-F), C means each or

 Segmented child , representing the size of each meson , and the second length of the sheep 5012 , in the formula

9 g separately or above, each

Upward control order The length of the AC/AC on the Hugh or AC/AC length must be the length of R or R,"

 Or the way, or the upward control order, ", is the offset from the base, C. s 2

" or , c is the PC of the pre-child, expressed as a subcarrier, is the sheep carrier multi (SC-F) of the meson PC, C means each The divided children represent the size of each meson.

 Step, information generation 502 shown in Figure 7, including the teaching information generation sheep 701, in the formula

 Sc

 "and", the difference between the upper and lower teaching information, the upper or lower teaching information, the second or upper information of the sheep 702, the upper and lower teaching information, respectively, of the ascending information] and ] or, each way, all upward control orders

 羊 703, the length of each of the upward control orders of the roots, or all the control orders of each

The information generating sheep 704 obtains information on the sum of the upstream teaching information or the uplink control command sum.

Steps, the information generation 502 can be shown as 8 , including the length of the upward control order of the 179, the root or the root, and all the control commands or information is generated by the sheep 802, in the formula and sc, "" Calculate different or upper education information, the first or the upper information, the second or upper information of the sheep 803, respectively, or the above information, the information of the ascending information] and [ ] or, In each mode, each of the upper or lower uplink control order information generates a sheep 804, and obtains information on each of the uplink teaching information or the uplink control command sum.

 Step, information generation 502 can be shown in Figure 9, including the teaching information generation sheep 901, in the formula

 G 7 and sc, count different or on the "upper teaching information, the first" or the upper teaching information, G second or the upper teaching information sheep 902, on the upper or lower teaching information, the ascending teaching Information 1 ] and ] or, each way, all uplink control orders

 The information generation sheep 903 obtains information on all the uplink control commands of the respective uplink information of each of the above.

Upward control device, which can provide God's ascent The device is combined, and the uplink control commands are assigned to each of the PCs, the length of the uplink control command of the first or upper, and the length of the uplink control command of each or above, and the uplink control command respectively, the uplink information is most on the PC. Each of the information, the uplink control order on the PC used, solved the PC, uplink control order.

It can be done by hardware of the program instruction phase, and the program can be stored in

It can be stored, the program is being executed, including the steps of the method or a combination thereof. In addition, the functional sheep in each of these can be in the form of hardware or in the form of software functions. The integration is sold or used in the form of software functions, and can also be stored in the storage. The storage mentioned above can be only memory, or the like. Above, the way of rest, but the protection of this is not limited to this, any wood familiar with the wood field can be easily imagined or replaced in the wood garden disclosed in this disclosure, and is covered in this warranty. Therefore, this warranty is guaranteed by the requirements. Ordinary wood in the art can understand that all or part of the steps in the method can be completed by hardware, and the program can be stored in storable, only memory, or the like. Yes, all or part of the steps can also be used or integrated. Phases, each of the sheep / sheep can be in the form of hardware, or in the form of software functions. This is not limited to any particular form of hardware and software combination. Usability

 This provides God's uplink control method and device, first

 Or the length of the uplink control command, or the length of the uplink control command on each or the upper, the information of the uplink control command, the most information on the PC, the information on the PC, and the uplink control command on the used PC. PC, no uplink control order.

Claims

Requirements 1, God's uplink control method, which is characterized in that physical uplink sharing (C) includes or , methods include
 The length of the uplink control order of each or each of the length control commands, or the uplink control command of each or each of the uplink control commands and the "or" of the P.
2. The uplink control order method of claim 1, wherein the length of each uplink control command is the same as the uplink control command of each of the upper or upper uplink control commands, or the uplink control command is the same, and the uplink control order includes / message (C AC ), indication (CQ) or indication (R)
3. The uplink control command method of claim 1, wherein the step of the uplink control command including the / message (C / AC), the indication (CQ), and the indication (R), or the uplink control command length includes
 Ten
formula Separately or above,
Upward control order
OC , On the PC AC / AC c or CQ or R, the first or upper control command "length,
 Dimensional or length of AC / AC or length of CQ Q or R length, aluminum second or upper control "Length length, aluminum second or upper AC / AC length UAc or CQ length or R The length of the offset is based on the basics, or
, the second or the way, - \
 '. s b or , sc " is the P C of the precursor degree , expressed as a subcarrier , " is the mesa carrier ( C-F ) of the meson P C , and C represents each or a divided sub - representing the size of each meson .
4. The uplink control command method of claim 1, wherein the step of the uplink control command including the / message (C / AC), the indication (CQ), and the indication (R), or the uplink control command length includes
 .
 Formula,
 9 2 respectively or above, the length of each uplink control command, or the length of the uplink control command, or the length of the AC / AC length UAC or C must be the length of R or , or
" Base
2
 \
 The offset, - '.
 Or , c " is the P C of the pre-child degree, expressed as a subcarrier, which is the sheep carrier multi (SC-F) of the meson P C , and C represents the subdivision of each number , indicating the size of each meson.
5. The uplink control order method of claim 1, wherein each or each of the uplink control commands has a length, respectively
- formula , respectively, to calculate different or upper education information, the first or the upper education information, the second or upper education, the upper or lower education information, and the fifth teaching information. . . ]with[ . . . ] each way, all uplink control orders
Will 0 will be the information of each or above the
The up-and-down control order and get the information.
6. The method of claim 1 for the uplink control order, wherein each of the uplink control command lengths, respectively, or each of the uplink control commands of the upstream teaching information includes
Wanted formula , respectively, to calculate different or upper education information, the first or upper education information, G second or upper education information
 Up or down information on each or
Uplink information M] and [ ] each way, all uplink control orders and
 The information is obtained by summing all the upward control orders of each of the above-mentioned uplink information.
 7. The method of claim 1 for the uplink control order, wherein each or each of the uplink control orders has a length, or each of the control commands, or
 Formula
 G w c
"and", respectively, calculate different or upper uplink information, upper or upper educational information, G second or upper uplink Information
 Up-and-down information about each of the upstream teaching information. . . ] [ . . . ]
 with
 Each of the modalities, respectively, or each of the upward control orders and
 Get information on each or each of the upstream information or the uplink control order.
 8. The method of requesting 5 or 6 or 7 of the uplink control order, wherein each of the above or the upper teaching information or
Uplink control and , the steps to get information include
 The first or the information to be compiled . . . And the CQ information of the first or . .. , the first
 . Second or second message [ . . . And the second or the CQ information [q is . . . 2r
 + 1] , get [ . . . ] with "
Solid. . . ] and the R or R of the AC / AC message c c c c ] of the first or . . . ] and solid ] , second or AC / AC message 9 . . . 9 ,
 Q ] R order [ . . .
 + ] and "
Solid. . . ] , get the information of the first or . And the second or the information . . .
9, God's uplink control device, which is characterized by physical uplink sharing (C) includes or, the uplink control command device includes a visual analysis, the uplink control command length information is generated thereon, and each of the upper or lower uplink control commands, respectively, or the uplink control command for the upstream teaching information and information, On the PC or
Information.
10. The uplink control command device of requirement 9, wherein the upper uplink control command is the same, and the uplink control command includes / message (C / AC), indication (CQ) or indication (R) 11, and uplink control of requirement 9. The device, wherein the length includes the first length of the sheep, and the formula
 Ten O
 3 separately or above, each
Upstream control order length 9, cy before each or the upstream control order, Hugh PC AC / AC O or C or R, the first or upper control order "Length, Hugh Dian or on AC / AC Length or length of CQ Q or length of R, aluminum second or upper The length of the up control is the length of the aluminum or the second AC/AC length of the AC or CQ or the length of the R
 "
 , " is the offset by the base , the first or the mode , the second or the way ,
. m
 " or , sc is the pre-degree P C , expressed in subcarriers, is the meson carrier P C of the sheep carrier multi (SC-F), C means each or
 The split sub-represents the size of each meson and the length of the second length of the sheep, or the length of the upward control command, or the length of the AC / AC on the AC or AC length or the length of the R must be the length of R, /, ", or The upward control order on the upper limit is the offset from the base order.
 C sc 2
 .
 " or , c is the P C of the neutron degree , expressed as a subcarrier , is the sheep carrier multi (SC-F ) of the meson P C , and C represents each
 The divided children represent the size of each meson. 12. The uplink control device of claim 9, wherein the information generation includes
Information generation sheep, its formula G and sc, respectively, for different or upper "upper teaching information, " or "upper teaching information, G second or upper teaching information, each of its upper or lower educational information, the upstream teaching information M ] and [ ] or, each mode, all uplink control orders
 The length of the control orders of the sheep, each of them, or the entire control order of each
 The information is generated by the sheep, and the information of each of the above-mentioned uplink information or the uplink control order is obtained. 13. The uplink control device of claim 9, wherein the information generation includes
 Signaling sheep, each or above the length of the control order, will be all control orders or
 Information generation sheep, its formula
 And sc, respectively, calculate the different or upper "upper teaching information, the first" or the upper teaching information, G the second or the upper teaching information sheep, the upper and lower teaching information of each, or the upstream teaching information 1 ]and / or,
Each way, each individually or Upward control order on
 The information is generated by the sheep, and the information of each of the above-mentioned uplink information or the uplink control order is obtained. 14. The uplink control device of claim 9, wherein the information generation includes
 Teaching information to generate sheep, its formula
G And c, respectively, calculate the difference or the "upper teaching information, the first" or the upper teaching information, G the second or the upper teaching information
 Sheep, each of which has information on the upper reaches of the teaching information, and [ ] or
 Each mode, all uplink control orders and
 The information is generated by the sheep, and the respective uplink control commands of each of the above or the upper teaching information are obtained.
PCT/CN2010/074756 2009-11-04 2010-06-29 Method and apparatus for transmitting uplink control signaling WO2010145609A1 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN200910212082.5 2009-11-04
CN200910212082A CN101702631A (en) 2009-11-04 2009-11-04 Transmission method of uplink control signaling and device thereof

Publications (1)

Publication Number Publication Date
WO2010145609A1 true WO2010145609A1 (en) 2010-12-23

Family

ID=42157526

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2010/074756 WO2010145609A1 (en) 2009-11-04 2010-06-29 Method and apparatus for transmitting uplink control signaling

Country Status (2)

Country Link
CN (1) CN101702631A (en)
WO (1) WO2010145609A1 (en)

Families Citing this family (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101702631A (en) * 2009-11-04 2010-05-05 中兴通讯股份有限公司 Transmission method of uplink control signaling and device thereof
US9270427B2 (en) 2010-01-11 2016-02-23 Futurewei Technologies, Inc. System and method for multiplexing control and data channels in a multiple input, multiple output communications system
KR101356532B1 (en) * 2010-05-12 2014-02-03 엘지전자 주식회사 Method for performing channel interleaving in a multi-antenna wireless communication system, and apparatus for same
CN102104973B (en) * 2010-05-31 2013-09-25 电信科学技术研究院 Method and device for aperiodic SRS (stimulated Raman scattering) transmission
US8989156B2 (en) 2010-06-18 2015-03-24 Sharp Kabushiki Kaisha Selecting a codeword and determining a symbol length for uplink control information
SG10201404644VA (en) * 2010-06-21 2014-10-30 Panasonic Corp Terminal apparatus and communication method thereof
CN101902313B (en) * 2010-06-22 2013-03-20 中兴通讯股份有限公司 PUSCH transmission (Physical Uplink Shared Channel) based coding method and system of uplink control information
CN102315897B (en) * 2010-06-30 2015-10-14 上海贝尔股份有限公司 The method and apparatus of transmitting uplink control information on row shared channel physically
CN102348288B (en) * 2010-07-30 2015-04-01 中兴通讯股份有限公司 Dispatch method and evolvement-type base station
CN102377537B (en) * 2010-08-10 2014-07-09 电信科学技术研究院 Uplink control information UCI transmitting and receiving method and device
CN102377529B (en) * 2010-08-13 2014-02-26 普天信息技术研究院有限公司 Transmission method of uplink control information
CN102448113B (en) * 2010-09-30 2014-11-05 中兴通讯股份有限公司 Method and system for sending periodical channel state information
CN103202059B (en) * 2010-11-09 2016-08-10 夏普株式会社 Mobile station apparatus, base station apparatus, wireless communication system, wireless communications method and integrated circuit
JP5663096B2 (en) 2010-11-10 2015-02-04 ゼットティーイー コーポレイション Method and system for transmitting uplink control information, method and apparatus for determining number of encoded symbols
CN102468917B (en) * 2010-11-15 2014-04-30 华为技术有限公司 Uplink control information (UCI) transmission and reception methods, terminal and base station
CN102104467A (en) * 2011-01-07 2011-06-22 大唐移动通信设备有限公司 Method and device for confirming UCI (Uplink Control Information) transmission resources
CN103095398B (en) * 2011-11-04 2017-04-12 华为技术有限公司 Method and user equipment and base station for transmission and control information
US10477524B2 (en) 2013-03-13 2019-11-12 Lg Electronics Inc. Method for transmitting wireless signal and device therefor
CN104836764B (en) * 2014-02-10 2019-02-26 上海数字电视国家工程研究中心有限公司 The sending method and method of reseptance of physical frame
CN105530071B (en) * 2014-09-29 2018-08-07 普天信息技术有限公司 A kind of uplink signal coding method and terminal based on code block segmentation
CN108809605A (en) * 2018-04-23 2018-11-13 中国科学院自动化研究所 A kind of information transferring method and system based on 5G communication networks

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101330306A (en) * 2008-07-24 2008-12-24 中兴通讯股份有限公司 Method for transmitting rank indication information
WO2009099301A2 (en) * 2008-02-05 2009-08-13 Lg Electronics Inc. Method for transmitting uplink control information in wireless mobile communication system
CN101511121A (en) * 2008-02-04 2009-08-19 三星电子株式会社 Autonomous user equipment transmission power control in communications systems
CN101702631A (en) * 2009-11-04 2010-05-05 中兴通讯股份有限公司 Transmission method of uplink control signaling and device thereof

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101511121A (en) * 2008-02-04 2009-08-19 三星电子株式会社 Autonomous user equipment transmission power control in communications systems
WO2009099301A2 (en) * 2008-02-05 2009-08-13 Lg Electronics Inc. Method for transmitting uplink control information in wireless mobile communication system
CN101330306A (en) * 2008-07-24 2008-12-24 中兴通讯股份有限公司 Method for transmitting rank indication information
CN101702631A (en) * 2009-11-04 2010-05-05 中兴通讯股份有限公司 Transmission method of uplink control signaling and device thereof

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
"Multiplexing and channel coding (Release 8),3GPP TS 36.212 V8.7.0", 3 GPP TSG RAN, EVOLVED UNIVERSAL TERRESTRIAL RADIO ACCESS (E-UTRA), May 2009 (2009-05-01) *

Also Published As

Publication number Publication date
CN101702631A (en) 2010-05-05

Similar Documents

Publication Publication Date Title
CN104243117B (en) Connection processing method, movement station and base station between movement station and base station
CN101404526B (en) Descending control information processing method
TWI517645B (en) Signaling for downlink coordinated multipoint in a wireless communication system
CN102812658B (en) For the method and apparatus of the channel state information transmission of multiple carrier wave
ES2710917T3 (en) Mapping of an improved physical downlink control channel
KR20140071355A (en) Apparatus and method for ue-specific demodulation reference signal scrambling
TWI445368B (en) Mobile communication devices for mobile capability signaling
JP2013516863A (en) Method and system for signaling configuration of physical uplink shared channel
KR20160105993A (en) Information transmission method and device
KR101994056B1 (en) Method and terminal for mapping acknowledge/ non-acknowledge response message
KR101410834B1 (en) Method and apparatus for transmitting uplink control signaling on physical uplink shared channel
JP5276120B2 (en) Physical hybrid retransmission instruction channel resource distribution method
CN103797747B (en) In the wireless network, carrier aggregation is used to carry out the transmission of control information
CN101883391B (en) Uplink control signaling feedback processing method and system
CN105227266B (en) Method, user equipment and the base station of transmitting uplink control information
CN102237992B (en) Method for feeding back data receiving status
CN103327615B (en) Resource allocation indicating method, resource allocation methods and equipment
CN103404046B (en) The method and apparatus controlling information with terminal searching in multi-node system
CN103326806B (en) The transmission method of a kind of descending control signaling and device
CN102215094B (en) Method, system and equipment for sending and receiving uplink feedback information
CN102204155B (en) Resource allocation
CN104054385A (en) Coordinated forward link blanking and power boosting for flexible bandwidth systems
CN102804907B (en) Downlink transmissions for type 2 relay
CN104539410A (en) Muting schemes for channel state information reference signal and signaling thereof
CN104429015B (en) The multiplexing of channel state information and mixed automatic repeat request-confirmation message

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 10789005

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase in:

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 10789005

Country of ref document: EP

Kind code of ref document: A1