WO2010149087A1

WO2010149087A1 - Processing method for demodulation reference signal dynamic cyclic shift parameter

Info

Publication number: WO2010149087A1
Application number: PCT/CN2010/074652
Authority: WO
Inventors: 戴博; 曾萍; 吴欣; 左志松
Original assignee: 中兴通讯股份有限公司
Priority date: 2009-12-14
Filing date: 2010-06-28
Publication date: 2010-12-29
Also published as: CN101741462B; CN101741462A

Abstract

A processing method for a demodulation reference signal dynamic cyclic shift parameter is disclosed in the present invention, and includes: a base station transmits a downlink control information format to a user equipment, wherein the downlink control information format carries the demodulation reference signal (DMRS) dynamic cyclic shift parameter, the DMRS dynamic cyclic shift parameter indicates a set of DMRS dynamic cyclic shift amounts configured for uplink component carrier of the user equipment; and the user equipment obtains the set of DMRS dynamic cyclic shift amounts corresponding to the DMRS dynamic cyclic shift parameter. By the present invention, the signaling overhead is reduced, and the efficiency is improved.

Description

參考言 d 參的、木域本涉通信領域休而言涉參考移的理方法。背景木長期 o g e o o ) 系是第代伴的重要。系常前 o a C c c e 介包含 7 長度的 / 符寺系前 e ded C c c ef ) 介包含6 長度的 / 符寺。是相木的 5 z的系物理資源的示意所示介資源羊 eso ce e e R ) 介O 符寺中的介子載波而介下資源 eso ce oc R ) 由的 2介子載波和的 7 前的 6 ) O 符寺。介資源羊在 8 z 介般的同長度資源分配以資源基本羊未分配。在子中物理控制 sca Co o C e P CC ) 于頻帶帶中同于物理共享 sca References d, the wood domain, the communication field, and the reference method of reference shift. Background Wood long-term o g e o o) is important for the first generation. The system always contains a length of / a sect of the pre-e ded C c c ef ) containing 6 lengths of / Fu Temple. Is the schematic representation of the 5 z-series physical resources of the wood, the sheep eso ce ee R), the meson carrier in the O-fuji, and the resource eso ce oc R) by the 2-subcarrier and 7 before the 6) O Fu Temple. The resources of the sheep are allocated in the same length as the resources of the basic sheep are not allocated. In the sub-physical control sca Co o C e P CC ) in the band band is the same as the physical sharing sca

S e e P SC ) 于承載。在系了下物理物理 sc boadcas C e P C ) 承載的信息包系的、系的下、物理的周期、以用于定物理指示 sca b dA Q dcao C a e P C ) 的 /61/21 S e e P SC ) is carried. In the physical physics sc boadcas C e P C ) , the underlying physical period of the packet system used for the physical indication sca b dA Q dcao C a e P C ) /61/21

。物理下控制 sca do co o C e P CC ) 于承載、下信息以率控制信息。下控制信息 o Co o 此 o C )格式此 ) 分力以 C O a O A C 2 A 3 3A等其中 o 于指示物理共享 P c s edC e P SC ) 的 C 此 a A C 于羊的物理下共享 sca o S e e P SC ) 的不同模式 C 此 a 2 2A 于用的不同模式 C 此 a 3 3A 于物理控制 sca co o C e . Physically control sca do co o C e P CC ) to control information under load and under information. Lower control information o Co o this o C) format this) force to CO a OAC 2 A 3 3A, etc. Where o indicates the physical sharing of P cs edC e P SC ) C This a AC shares the different modes of sca o S ee P SC ) in the physical state of the sheep C This a 2 2A is used in different modes C This a 3 3A Physical control sca co o C e

P CC )和P SC 的率控制指令的。物理共享于承載。道相的資源分配方案參考 e od a o e比 e ce Sg a S ) 的移 C c c S RR 等控制信息由 g ) C 此 0 。物理指示 sc b dA Q dcao C e P CC ) and P SC rate control instructions. Physical sharing is hosted. The channel's resource allocation scheme refers to e od a o e than e ce Sg a S ). The control information such as C c c S RR is controlled by g ) C . Physical indication sc b dA Q dcao C e

P C ) 于承載的 AC AC 信息。 P C P C ) AC AC information carried. P C

的、同 d o )由所在的下載波的 P C 中的系消息 P C 的置由 P C 的、同、小 P C 的配置、小以 P C 的和內序列索引決定。于 P C 的由以下式 a) 決定 V / FO oma Cyc cpe6x The same as d o ) is determined by the location of the message P C in the P C of the next carrier where P C is located, the configuration of the same P C is small, and the P C and the internal sequence index are determined. The P C is determined by the following formula a) V / FO oma Cyc cpe6x

一 One

C a) C a)

2 / 比 eXendedcyc cp eHX 凡。 1/61/21 2 / than eXendedcyc cp eHX Where. 1/61/21

由所在的下載波 o 。 e e ) 的 P C 中的系消息到 1 From the next carrier o. e e ) in the P C message to 1

是P C 所在的下載波的。于 2 P C 的子其中由下決定。下 S b仟 e be It is the download wave where the PC is located. It is determined by the following in the sub-section of 2 PC. Under S b仟e be

子配置 0 2 3 4 5 6 7 9 Sub configuration 0 2 3 4 5 6 7 9

0 2 2 0 2 2

0 0 0 0

2 0 0 0 0 0 0 2 0 0 0 0 0 0

3 0 0 0 0 3 0 0 0 0

4 0 0 0 0 0 0 4 0 0 0 0 0 0

5 0 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 0

6 6

P C 資源由 cw) % P C 的是中序列的索引由下面的式 b) " 十 )mO V 十 w7C 溫P C resource by cw) % P C is the index of the middle sequence from the following formula b) "ten" mO V ten w7C temperature

C b C b

RA" + ) 2 RA" + ) 2

WW

Rs是 C 此 0中的解參考 e o a o e比e ce Sg S 的移參參的配置小內的 - 用戶同具有不同的移小內 - 用戶抑制小內。參的配置下 2所述。 2 Rs is C. The solution in this 0 is e e a o e smaller than the configuration of the shift parameter of e ce Sg S - the user has a different shift within - the user suppresses the inner. The configuration of the parameter is as follows. 2

是P C 制的因子

Is a PC factor

， ,

"" ""

" 4 資源勿的物資源 P sca eso ce oc " 4 resources do not have resources P sca eso ce oc

PR ) 的索引 T 配置 P C 在子 4或9Index of PR ) T configuration PC in child 4 or 9

7cw 7cw

l0 、它 eease 只許羊。式 b) 中" Rs 于未在 C FO a 中只配置。 L0, it eease only sheep. In the formula b) "Rs is not configured in C FO a only.

P SC S的序列 S序列的 Sequence of P SC S sequence of S

F。C ．十F. C. ten

01 01

n … 1 n ... 1

2 / 2 s S 十 RS 十 PRS ) mO 2 mod2 m 1分別介子的第第。 2 移 P SC S P SC 相同。

2 / 2 s S ten RS ten PRS) mO 2 mod2 m 1 The first of the mesons. 2 Move P SC SP SC is the same.

S序列的移由參量決定休明下由高居參決定 3 配置不同的小具有不同的移小同 - 用戶抑制小同。由最的 C 0提 3b 參考 2 配置小內fKJ - O用戶同具有不同的移使小區內 - O用戶抑制小內。移參。

The shift of the S-sequence is determined by the parameter. The decision is made by the high-ranking parameter. 3 The configuration is different. The small ones have different shifts. By the most C 0 mention 3b reference 2 configuration small internal fKJ-O users with different shifts within the cell - O user suppression small inside. Move the parameters.

C C

+A O 0 c mod30 其中 A 。{01 29} 高居配置。高系 o g e o o Ad a ced 是 eease-8的演本。仟通信提出的高固仟通信系需求中要求向兼容。在 -A ced eease 向兼容的需求是指 eease- 8的終端以在 -Ad ced的中作 -Ad ced 的終端以在 eease- 8 的中作。另外 -Ad ced 能在不同大小的配置包 bb eease 更寬的配置 z的的資源 ) 以到更高的性能和速率。考慮到 eease-8的兼容性于大于2 z的聚集 C e aggega o 的方式即或以的分量載波 Co o e C e ) 聚集以支持大于2 z的下。 -A系中的終端能力同介或多分量載波以羊用戶多木包 s e s +A O 0 c mod30 where A . {01 29} High configuration. The high system o g e o o Ad a ced is the eease-8 script.仟 Communication Requirements for high-solid-state communication systems are required to be compatible. The requirement for compatibility with -A ced eease refers to the terminal of eease-8 to be used as the terminal of -Ad ced in -Ad ced to work in eease-8. In addition -Ad ced can configure z's resources in different sizes of configuration packages to achieve higher performance and speed. Considering the compatibility of eease-8 in a way that aggregates C e aggega o greater than 2 z or the component carrier Co o e C e ) aggregates to support lower than 2 z. Terminal in the -A system, the same or multiple component carriers, more than the sheep user, the wooden package s e s

)和同 e eO O)。了提高增益能引換 a e S RR g S ) 木其中換木 P C 資源即 2 的 ) and the same e eO O). Increased gain can be exchanged for a e S RR g S ) wood which replaces wood P C resources ie 2

/ 信息 Ac o edge e / ega e Ac o edge e / Information Ac o edge e / ega e Ac o edge e

AC / AC ) 只映射到 P C 。分量載波最多支持2 同的映射 Code od o a e g 則在同下映射則 2是相木的 -A "的映射的示意。在相木中 C 此 a 不支持多在 -A 多下 C 需要新增格式 C 此 a 果用 C 此 a 各 a e ) 配置的 S 移相移 bb特則令比較大例 4 配置介3 bb特 S 移則需要 2 bb特的信令。而了 P C 資源映射能兼容在某些情形 -A 參考的移仟移量的仍需要沿用方式 2). AC / AC ) only maps to PC. The component carrier supports up to 2 the same mapping. Code od oaeg is mapped in the same way, then 2 is the mapping of the phase-A" mapping. In the wood, C, this a does not support more in -A, more C, new format is required. C This is a C. This a each ae) configuration S shift phase shift bb special order comparison example 4 configuration 3 bb special S shift requires 2 bb special signaling. And PC resource mapping can be compatible with some Some cases -A The reference shifting amount still needs to follow the way 2).

另外多能需要配置多的解參考移 In addition, you need to configure more solutions.

W W

參以同抑制和。由于存在多的 Rs 因 P C 資 W Participate in the same suppression and . Because there are many Rs due to P C

源式中的 Rs 休的是的參。內容本的主要目的在于提參考移參的理方法以至少解決述相木中存在各配置的 S 移相參令比較大的。了述目的本的介方面提了參考移參的理方法。本的解參考移參的理方法包基向用戶各下控制信息式其中下控制信息格式中帶有參考 S 移參 S 移參于指示用戶各的分量載波配置的 S 移用戶各 S 移參的 S 移。 S 移參 2 bb特或3比特。本下控制信息格式中帶有用于指示 S 移量的解參考 S 移參至少解決了相木中存在各配置的 S 移相參令比較大的而減少了令提高了率。外了在 -A 多下在用戶 P C 映射式中用 S 移的 S 移參。明所明的未提本的步理解成本的部分本的示意其明于本不本的不定。在中是相木的 5 z的系物理資源的示意 2是相木的 -A 的映射的示意 3是本的解參考移參的理方法的流程 4是本的四分同不同居的示意。方式下中將參考結未明本。需要明的是在不的情下本中的中的特以相互。 The Rs in the source formula is the reference. The main purpose of the content book is to refer to the rational method of shifting parameters to at least solve the relatively large S-phase shifting parameters of each configuration in the wood. The purpose of this article is to refer to the rational method of reference. The solution method of the reference reference shifting parameter bases the user to each control information type, wherein the lower control information format has a reference S shift parameter S, and the S shift user of each component carrier configuration of the user is indicated. S shift. S shifts 2 bb or 3 bits. In the present control information format, the solution S-shift parameter for indicating the S-shift amount at least solves the problem that the S-phase shift command of each configuration in the phase tree is relatively large, and the rate is increased. In addition, the S shift in the user PC map with S shift is performed. The explanation of the part of the cost of understanding the cost of the unexplained step is clearly stated in the original Not sure. The schematic diagram 2 of the physical structure of the 5z system in the middle is the schematic diagram of the mapping of the phase A-A. The flow 4 of the method of the reference reference shift is an illustration of the four different divisions of the present. In the mode, the reference will be unclear. What needs to be clarified is that in the case of no, the special ones in this book are mutually exclusive.

在本中提了參考移參的理方法 3是本的解參考移參的理方法的流程 3所示流程包下步驟步驟S302 向用戶各下控制信息格式其中下控制信息格式中帶有參考 S 移參 S 移參于指示用戶各的分量載波配置的 S 移 In the present embodiment, the reference method of the reference shifting parameter is shown in the flow of the method of the reference shifting step. The step S302 is performed to the user under each control information format, wherein the control information format has a reference S. Move the parameter S to the S shift indicating the component carrier configuration of the user

步驟 S304 用戶各取下控制信息格式中的 S 移參的 S 移以 S 仟移 )。述步驟通在下控制信息格式中于指示 S 移量的 S 移參而解決了在 C 此 a 中的 S 移參只能指示介 S 移量的而減少了令的。在步驟S302中以現有的 C 此 Step S304: The user removes the S shift of the S shift parameter in the control information format by S ) shift). The steps in the lower control information format are used to indicate the S shift of the S shift, and the S shift in C is only able to indicate the S shift and reduce the order. In step S302, the existing C is

能移用于指示 S 移。了兔現有的 C 此 a 以支持多新增介 C 此 a 了描述方將新增的 C 此 a C 此 a 下面將以此 a 本明。以在 o 中用 2 bb特或者3 bb特指示 S 移。 Can be moved to indicate S shift. Rabbit's existing C, this a, to support more new media C, this a The description party will add a new C. This a C will be described below. Use S bb or 3 bb to indicate S shift in o.

在本中需要配置2 S 移在中用 2比特的 S 移指示4 S 仟移例 4 的 S 0 6) 2 3 9) 4 ) 2bb特的下 3是的例明。 3In this case, it is necessary to configure 2 S shift in which 2 bits of S shift are used to indicate 4 S 仟 shifting S 4 of the example 4 6) 2 3 9) 4) 2bb is the following example. 3

C 此 a 中 S S 移 C This S in S a shift

移參 ) Move parameter

00 0 6 00 0 6

0 2 8 0 2 8

0 3 9 0 3 9

4 0) 4 0)

在本中需要配置3 S 移在中用 2 bb特的 S 移參指示 3 S 移。例 3 S 仟移以 0 4 2 6 0) 3 6 9 2 bb特的 S 移參述3 S 移量的映射以有下 4是的例明。 4In this case, you need to configure 3 S shift in the 2 bb special S shift parameter to indicate 3 S shift. Example 3 S 仟 shift with 0 4 2 6 0) 3 6 9 2 bb special S shifts the mapping of 3 S shifts with the following 4 is an example. 4

C 此 a 中 S 仟移 C In this a, S 仟 shift

移參 ) Move parameter

00 0 4 8 00 0 4 8

0 2 6 0) 0 2 6 0)

0 3 6 9 在本中需要配置4 S 移在 o 中用 2 bb特的 S 移參指示2 S 移。例 2 S 仟移量力 0 3 6 9) 2 4 0 。 bb特的 S 移參述2 S 移量的映射以有下 5是的例明。 50 3 6 9 In this case, you need to configure 4 S shift in o to indicate 2 S shift with 2 bb special S shift parameters. Example 2 S 仟 shifting force 0 3 6 9) 2 4 0 . The bb-specific S shifts the mapping of the 2 S shifts to the following example. 5

C 此 a 中 S 仟移 C In this a, S 仟 shift

移參 ) Move parameter

00 0 3 6 9 00 0 3 6 9

0 2 4 8 0) 0 2 4 8 0)

0 0

在本中需要配置2 S 移在 In this case, you need to configure 2 S shift.

中用 3 bb特的 S 移參指示 8 S 仟移例 8 S 仟移量力 0 6) 2 3 9) 4 0) 6 0) 8 2) 9 3) 0 4 3 比特的 S 移參述8 S 移量的映射以有下 6是的例明。 6 In the 3 bb special S shift indication 8 S 仟 shift example 8 S 仟 shift force 0 6) 2 3 9) 4 0) 6 0) 8 2) 9 3) 0 4 3 bit S shift reference 8 S The mapping of the shift is exemplified by the following 6 is. 6

在本中需要配置3 S 移在 In this case, you need to configure 3 S shift.

中用 3 bb特的 S 移指示 8 S 移。例 8 S 仟移量力 0 4 2 6 0) 3 6 9) 6 0 2) 0 2 6) 4 8 0) 0 4) 9 3 6 。 3 b 特的 S 移 8 S 移量的映射以有下 7是的。 7 The S shift of 3 bb is used to indicate 8 S shift. Example 8 S 仟 shifting force 0 4 2 6 0) 3 6 9) 6 0 2) 0 2 6) 4 8 0) 0 4) 9 3 6 . 3 b special S shift 8 S shift mapping to have the next 7 yes. 7

在本中需要配置4 S 移在此 a 中用 3 bb特的 S 移指示 8 S 移。例 8 S 移量力 0 3 6 9) 2 4 8 0) 3 6 9 0) 4 8 0 2) 6 9 0 3) 0 2 4) 9 0 3 6) 0 2 4 。 3比特的 S 移 8 S 移量的映射以有下 8是的。In this case, you need to configure 4 S shift. In this a, use 3 bb special S shift to indicate 8 S shift. Example 8 S Shift force 0 3 6 9) 2 4 8 0) 3 6 9 0) 4 8 0 2) 6 9 0 3) 0 2 4) 9 0 3 6) 0 2 4 . The 3-bit S shifts the 8 S shift map to have the following 8 yes.

8 8

C 此 a 中 S 仟移 C In this a, S 仟 shift

移 ) Move)

000 0 3 6 9 000 0 3 6 9

00 6 9 0 3 00 6 9 0 3

00 3 6 9 o 00 3 6 9 o

4 8 0 2) 4 8 0 2)

00 2 4 8 0) 00 2 4 8 0)

0 8 0 2 4) 0 8 0 2 4)

0 0 2 4 8) 0 0 2 4 8)

9 0 3 6 了兼容至中的的每介 S 移 bb特的解參考的移映射則下 9。 9 9 0 3 6 The permutation of each of the S-shifted bp-specific solution references is as follows. 9

述至不同的是 S 移參 3比特以以下式用戶各的 S 移 The difference is that the S shifts 3 bits in the following way.

C ． C

其中用戶各的 g SC. C

Among them, the user's g S

& &

移參 0… \ " 234 9 1734 7 在 9 1734 7 次于0 6 3 4 2 0 9。在述和中配置的仟移目相等 S 移同的映射以是將仟移內次向高居映射或者次高居向映射。配置的仟移目不相等大于 S 移量的目 ) S 移同的映射以是相同的不同居相同的移相同所在的同 ogo a Co e Code C ) 四分 4是本的四分同不同居的示意 4所示所在的較或較高居的解的 2 O 符寺在乘以 - ) 等于第符寺相。不同的分別不同的移以將 S 移內次向高居映射或者次高居向映射。是否 C 以用比特令指示或 )。例 C 的信令 0 表示配置的仟移相等 C 的信令表示配置的仟移不相等。用 C 的理方式以有以下下面分別。方式在 S 的情下相同所在的用相同的 S 移用四分相同所在的不同居同不同的用不同的移將 S 移中的 S 移量的值次用戶各的向高居映射或者次高居向映射。方式在 S 的情下在用戶各的 3 4Move the parameter 0... \ " 234 9 1734 7 at 9 1734 7 times at 0 6 3 4 2 0 9. The 仟仟在在在在相等相等相等相等相等在在在在在在在在在在在在在在在The second highest rank mapping. The configured 仟仟不不大于 S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S The 4 O Fu Temple of the solution of the higher or higher residence of the different residences shown in Figure 4 is multiplied by -) equal to the phase of the temple. Differently different movements are used to map the S to the next higher or The second highest rank mapping. Whether C is indicated by a bit order or). The signaling 0 of C indicates that the configured signaling of the equal C is not equal to the configuration. The rationale for using C is as follows. In the case of S, the same S is shifted by the same S, and the same difference is used. The S shifts in the S shift are different. Mapping. The way in the S's love in the user's 3 4

S 移包的 S的移量的量力 2 的情下介移的用相同的 S 移用四分相同所在的不同居同 S shifting the amount of S's shifting force 2, using the same S shifting with the same S

其中果介只則的參考的 ) 果介的參考的力分別 ) - ) 在用戶各的 2 S 移中包的 S的移量的量力的情下相同的移用不同的四分的解。方式用戶各的的解不同的 S 移其中的解用的 S 移和 S 移 Among them, the reference is only for the reference force of the reference) -) In the case of the user's 2 S shift, the amount of S's shift is the same as the shift of the different four-point solution. The way the user's solution is different S is shifted by the S and S shifts

在參考 S 的情下索引的解參考的 - ) 索引的解參考 In the context of the reference S, the solution of the index reference - the solution of the index

的 ) 或者索引的解參考的Or the index of the reference

) 索引的解參考的 - ) 在參考 S 不的情下的解參考的 ) 以在 C 此 a 中介指示信息指示信息于指示方式或方式或者指示信息以指示方式或方式。是否 C 和方式以羊的比特分別指示以共用比特果將于指示的比特在 R S 移中那的 3比特、 4 bb特或 5比特。在 -A 多下羊用戶能同在物理下控制道中配置多或多參考移因在用戶 P C 映射式中需要定用 S 移的 S 移以下。在 C 此 a 中分量載波配置了參考移核分量載波的和/或 2的 P C 映射式中的 S 移是所在居中的最或最高居仟移的解參考的移或者以將分量載波的所在居中的最或最高居的 S 移直作力的物理指示 P C 映射式中的 W) The reference to the index reference -) In the case of reference S, the reference information indicates that the information indicates the information in the indication mode or manner or the indication information in an indication manner or manner. Whether the C and the mode are respectively indicated by the bits of the sheep, respectively, are 3 bits, 4 bb or 5 bits of the bit to be indicated in the RS shift. In the -A multiple sheep users can configure multiple or multiple reference shifts in the physical control channel. In the user PC mapping, the S shift of the S shift needs to be determined. In C, the component carrier is configured with reference to the shifting core component carrier and/or the S-shift in the PC mapping of 2 is the most or highest of the centered shifting reference shift or to center the component carrier The physical indication of the most or highest S-shifting force in the PC mapping

R 。下面。例多子的分量載波只有介 R. Below. Example multi-subcarrier component carrier only

的 P C 映射式中的解參考的移最或最高居仟移的解參考的移。例多子的分量載波有 2 The displacement of the solution in the P C map is the most or the highest shift of the solution of the solution. Example multi-subcarrier component carrier has 2

核分量載波的或 2的 P C 映射式中的解參考的移是所在居中的最或最高居仟移的解參考的移。例多子的分量載波有 2 換 S ) 木核分量載波的和 2 的 P C 映射式中的解參考的移參是所有居中最或最高居仟移的解參考的移參。 The shift of the dereference in the PC mapping of the core component carrier or 2 is the shift of the most or highest decoupling reference in the center. Example multi-subcarrier component carrier has 2 The S-shifting parameter in the PC mapping of the sum of the S-wood component carriers and the PC mapping of 2 is the shifting reference of all the most or the highest decomposed reference.

以增比特令指示多是否 P C 即分量載波的 2 共享 P C 資源是分別 It is indicated by increasing the bit order whether P C or component carrier 2 shared P C resources are respectively

P C 資源 P C 2 共享 P C 資源。例占用于指示的比特 0 表示P C 表示P C 不。 P C Resources P C 2 Share P C resources. The example of the bit 0 used for the indication means that P C means P C is not.

以用比特的信令指示最或最高居 S 移的 S 移參。例于指示的比特 0 表示最的表示最高居的。或者占用于指示的比特 The S-shift parameter with the highest or highest S shift is indicated by the signaling of the bit. For example, the indicated bit 0 indicates the highest representation of the highest rank. Or occupy the bits used for the indication

表示最的 0 表示最高居的。以原則例的 S 移的 S 移參。 Indicates that the most 0 means the highest. The S shift of the S shift by the principle example.

以下至十是述 C 此 a 以在用戶 P C 映射式中 S 移的 S 移參的例明十至十五是 P C 資源映射的例明。 The following ten to ten are C. An example of the S shift parameter that is shifted by S in the user P C map is ten to fifteen, which are examples of the P C resource map.

在本中以在 4 2 和 2 2 即和 2。在此中用 2 bb特的信令分配2 S 仟移果 2 bb特 0 則表3所示表示的仟移量力 2 。 S 移內的值以照向高居映射的原則以照高居向映射。在以向高居映射 In this book, in 4 2 and 2 2 ie and 2. In this case, 2 bb is used to allocate 2 S 仟 shifting fruit 2 bb special 0, then the 移 shifting force 2 shown in Table 3 is used. The value in the S shift is mapped to the high-ranking principle in the direction of the high mapping. In the direction of high

明。照原則的 S 仟移量力 2 2的 S 仟移量力 8。映射則 Bright. According to the principle of S 仟 shifting force 2 2 S 仟 shifting force 8. Mapping

2 2 所以的 P C 資源映射式中的 S 移參是的仟移量力 2 的移參 4 2的 P C 資源映射式中的 S 移參是 2 的仟移量力 8 的移參 5 表9所示)。在本中 4 2 即和 2 4 即至 4 則在此中用 2 bb特的 S 移分配4 S 移。果 2bb特 00 則表示的仟移量力 0 3 6 9) 表5所示)。 S 移內以照向高居映射的原則的仟移量力 0 2的仟移量力 3 3的仟移量力 6 4的仟移量力 9。 2 2 Therefore, the S shift parameter in the PC resource mapping is the shift amount of the shift 2, and the S shift parameter in the PC resource map of the 2 2 is the shift amount of the shift amount 8 of the shifting table 5 shown in Table 9) . In this case, 4 2 and 2 4 to 4 are assigned 4 S shifts by 2 bb special S shifts. If the 2bb special 00 shows the amount of turbulence 0 3 6 9) shown in Table 5). In the S shift, the shifting force of the shifting force of 0 2 is the shifting force of the shifting force of 3 3 .

映射則映射到 2 2映射到 3 4 所以比特的信令 0指示移映射 The mapping then maps to 2 2 mapping to 3 4 bits of signaling signaling 0 indicating the mapping

所在的 2所在的 3 的 P C 資源映射式中的解參考的移是的 S 移量力 0 的 S 移 0 2的 P C 資源映射式中的 S 移是 3的 S 移量力 6 的 S 移表9所示)。十在本中 4 2 即和 2 4 即至 4 則在此中用 3比特的 S 移分配4 S 移果 3比特 0 0 則表示的 S 移量力 3 6 9 0) 表8所。 S 移內以照向高居映射的原則的仟移量力 3 2的仟移量力 6 3的仟移量力 9 4的仟移量力 0。 The S-shift in the PC resource mapping of the 3 where the 2 is located is the S-shifting force 0 of the S-shift 0 2 in the PC resource mapping formula, the S-shift is 3, the S-shifting force 6 of the S shift table 9 Show). In this case, 4 2 and 2 4 to 4 are used here to allocate 4 S by 3 bits of S shifting 3 bits 0 0 to indicate the S shifting force 3 6 9 0) Table 8. In the S shift, the shifting force of the shifting force of 3 2 is the shifting force of the shifting force of 6 3 .

映射則映射到和 2 2映射到 3和 4 P C 資源映射所在的映射所在的 The mapping maps to and 2 2 maps to the mappings where the 3 and 4 P C resource maps are located.

2所在的 3 的 P C 資源映射式中的 S 移是的 S 移量力 3 的 S 移 2 2的 P C 資源映射式中的 S 移是 3的 S 移量力9 的 S 移 7 表9所示十多分量載波 1 只映射到 2 居和 2 每的 S 仟移 2 S in the PC resource mapping of 3 is S shifting force 3 S shifting 2 2 in the PC resource mapping formula S shifting is 3 S shifting force 9 S shifting 7 Table 9 Multi-component carrier 1 maps only to 2 and 2 per S shift

的 P C 資源映射式 " 十 Rs o P c P C resource mapping " 十 Rs o P c

U / R 中 W Rs 、的仟移在 9中的 S 移表9 所示十多分量載波 2 和 2 映射到 2映射到 2 P CC 的相令得出每的 S 仟移例的 S的仟移量力 2 2的 S的仟移量力 P C 資源映射式 U 十r P The shift of W Rs in U / R, the shift of S in 9 is shown in Table 9. The ten component carriers 2 and 2 are mapped to the phase 2 mapped to 2 P CC to obtain the S of each S shift example.仟 shifting force 2 2 S shifting force PC resource mapping U ten r P

U / W U / W

中 Rs 的仟移 2在 9中的 S 移 4 f 9所示) 4 2的 2 的仟移 8在 9中的 S 移 W The shift of the Rs in Rs 2 is shifted by S in 4 f 9 f 9) The shift of 2 of 2 2 is shifted by S in 9

5 表9所示) Rs 5。十多分量載波 1 2 映射到和 2 2映射到 3和 4 P CC 的相令得出每一的 S 仟移流的 S的仟移量力 0 2的 S的仟移量力 3 3 的 S的仟移量力 6 4的 S的仟移量力 9 的 P C 資源映射式 X U 十 R 7cw5 Table 9 shows) Rs 5. The ten-component carrier 1 2 maps to and the 2 2 maps to the 3 and 4 P CCs. The sigma of the S of each S 仟仟得出 0 0 0 0 0 0 0 0 3 3 3 PC resource mapping of the shifting force 9 of the displacement force of S 4 XU ten R 7cw

r r

一 n x nouP 十 )mToM 2 cw One n x nouP ten) mToM 2 cw

W W

中的 Rs 的 Rs

W W

仟移 0在 2中的 S 移 Rs 2的在述式中的 R 3 的仟移 6在 9 中的 S 移表9所示) W Rs 。而2 仟 shift 0 in 2 S shift Rs 2 in the equation R 3 shift 6 in 9 S shift Table 9 shows) W Rs . And 2

映射到不同的 P C 十多分量載波 2 換 S ) 木的 P C 資源映射式 X " 十 R 7c Mapping to different P C ten component carriers 2 for S ) wood P C resource mapping X " ten R 7c

o U / + )mo W o U / + )mo W

中 Rs ．．居的仟移在 9中的 S 移。十五多分量載波 2 和 2 映射到 2映射到 2 P CC 的相令得出每的 S 仟移例的 S的仟移量力 2 2的 S的仟移量力 P C 資源映射式 X " 十 R 7c In Rs . . The shift of the residence is shifted by S in 9. The fifteen-component carrier 2 and 2 are mapped to the phase 2 mapped to 2 P CC to obtain the S-shifting force of each S-shifting example. The S-shifting force of the S is the amount of the PC resource mapping X "T R 7c

% o U / + )mod2V 7c % o U / + )mod2V 7c

中 W Rs W W Medium W Rs W W

的仟移 2 Rs 2 2的 Rs 2 的仟移 M s 所述通本的述解決了相木中存在各配置的 S 移相令比較大的而減少了令提高了率。外了在 -A 多下在用戶 P C 映射式中用 S 移的 S 移參。然本領域的木述的本的各或各步驟以用通用的裝置未它們以集中在羊的裝置或者分布在多裝置所成的它們以用裝置的程序未而以將它們存儲在存儲裝置中由裝置未 The shift of 2 Rs 2 2 Rs 2 shift M s The above description solves the problem that the S phase shifting order of each configuration exists in the phase tree is relatively large and decreases The order has increased the rate. In addition, the S shift in the user PC map with S shift is performed. However, each step or step of the present description of the art uses a general-purpose device to store them in a storage device without the devices that are concentrated in the sheep or distributed to the devices that are used by the devices. By device not

在某些情下以以不同于的順序所示或描述的步驟或者將它們分別制作成各集成或者將它們中的多或步驟制作成羊集成未。本不制于何特定的件和軟件結。 In some cases, steps are shown or described in a different order or they are separately made into integrations or multiple or steps of them are made into sheep integrations. This is not a specific piece of software and software.

以所述力本的而已不用于制本于本域的木未本以有各更和文。凡在本的精神和原則所作的何修、等同替換、等包含在本的保內。 The use of the above-mentioned force is not used to make the wood in this field. Any repairs, equivalent substitutions, etc. made in the spirit and principles of this book are included in this warranty.

Claims

要求參考移參的理方法其特在于包基向用戶各下控制信息格式其中所述下控制信息格式中帶有參考 S 移參所述 S 移參于指示所述用戶各的分量載波配置的 S 移 The method for requesting reference parameter shifting is characterized in that the packet base has a control information format for each user, wherein the lower control information format has a reference S shift parameter, and the S shifts to the S component of the component carrier configuration indicating the user. Move

所述用戶各取所述 S 移參的 S 移。要求所述的方法其特在于所述 S 移參 2 bb特或3比特。要求2所述的方法其特在于所述 S 移參指示參考 S 移至少包以下 Each of the users takes an S shift of the S shift parameter. The method is claimed to be characterized in that the S shifts 2 bb or 3 bits. The method of claim 2 is characterized in that the S shift parameter indicates a reference S shift at least the package below

在 S 移包的 S 移量的量力 2的情下所述2bb特的 S 移參于指示4 S的移中的 In the case of the S-shift of the S-transfer, the Sbb of the 2bb is shifted to indicate the shift of 4S.

在 S 移包的 S的移量的量力 3的情下所述2 bb特的 S 移參于指示3 S的移中的 In the case of the amount of displacement of S of the S-transfer packet, the 2 bb-specific S shift is involved in the shift indicating the 3 S

在 S 移包的 S的移量的量力 4的情下所述2 bb特的 S 移參于指示2 S的移中的。要求3所述的方法其特在于在 S 移包的 S的移量的量力2的情下所述4 S 的移量力 0 6) 2 、 3 9) 4 0 要求3所述的方法其特在于在 S 移包的 S的移量的量力3的情下所述3 S 的移量力 0 4 、 2 6 0) 3 6 9). 6 要求3所述的方法其特在于在 S 移包的 S的移量的量力4的情下所述2 S 的移量力 0 3 6 9) 2 4 8 0 。 7 要求2所述的方法其特在于在所述 S 移參 3比特的情下以下式所述用戶各的 S 移 C C + x(2/ ) mod 2 In the case of the amount 4 of the shift of S of the S-shift packet, the 2 bb-specific S shift is indicated by the shift indicating 2 S . The method described in claim 3 is characterized in that the displacement force of the 4 S is in the case of the amount 2 of the shift of the S of the S-shifted packet. 6 6) 2, 3 9) 4 0 The method described in claim 3 is characterized in that In the case of the amount of force S of the S shifting packet, the displacement force of the 3 S is 0 4 , 2 6 0) 3 6 9). 6 The method described in claim 3 is characterized in that the displacement force of the 2 S is 0 3 6 9) 2 4 8 0 in the case of the amount 4 of the shift of the S of the S shifting packet. 7 The method of claim 2 is characterized in that, in the case of the S shifting 3 bits, the user's S shift CC + x(2/ ) mod 2

其中所述用戶各的 Where the users are

所述 S 移參 0… \ " 234 01234567 在9 01234567 q 次于0 6 3 4 2 8 0 9。要求2所述的方法其特在于在 S 移包的 S的移量的量力、 2、 3或4的情下所述3 bb特的 S 移參于指示 8 S的 The S shift parameter 0... \" 234 01234567 at 9 01234567 q times 0 6 3 4 2 8 0 9. The method described in claim 2 is characterized by the amount of displacement of S in the S-shifting package, 2, 3 Or in the case of 4, the 3 bb special S shifts to indicate the 8 S

移中的。 9 要求8所述的方法其特在于在 S 移包的 S的移量的量力的情下所述8 S 的移量力 0、 2、 3、 4、 6、 8、 9、 0 0 要求8所述的方法其特在于在 S 移包的 S的移量的量力2的情下所述8 S 的移量力 0 6) 2 、 3 9) 4 0) 6 0)、 2) 9 3 、 0 4 。要求8所述的方法其特在于在 S的移包的 S 的移量的量力 3 的情下所述 8 S的移量力 0 4 、 2 6 0) 3 6 9) 4 8 0) 6 0 2) 8 0 4) 9 3 6) 0 2 6 。 2 要求8所述的方法其特在于在 S的移包的 S 的移量的量力 4的情下所述 8 S的移量力 0 3 6 9) 2 4 8 0) 3 6 9 0) 4 8 0 2) 6 9 0 3) 0 2 4) 9 0 3 6) Moved in. 9 The method of claim 8 is characterized in that the 8 S shifting force 0, 2, 3, 4, 6, 8, 9, 0 0 requires 8 in the case of the amount of S shifting of the S shifting packet. The method described is characterized in that the displacement force of the 8 S is 0 6) 2, 3 9) 4 0) 6 0), 2) 9 3 , 0 4 in the case of the amount 2 of the shift of the S of the S-shifting packet. . The method of claim 8 is characterized in that the displacement force of the 8 S is 0 4 , 2 6 0) 3 6 9) 4 8 0) 6 0 2 in the case of the amount 3 of the shift of the S of the shifting of the S. ) 8 0 4) 9 3 6) 0 2 6 . 2 The method of claim 8 is characterized in that the displacement force of the 8 S is 0 3 6 9) 2 4 8 0) 3 6 9 0) 4 8 in the case of the amount 4 of the shift of the S of the shifting of the S. 0 2) 6 9 0 3) 0 2 4) 9 0 3 6)

2 0 2 4 。要求9至 2中項的方法其特在于 8 S 移照順序分別次的 3 bb特的令 000 00 0 0 0 00 0 0 要求的方法其特在于在所用戶各到2 0 2 4 . The method of claim 9 to 2 is characterized in that the 8 S shifting order is respectively 3 bb special order 000 00 0 0 0 00 0 0 The method is required to be

S 移量方法包 S shift method package

在所 S 移中包的 S 移量的用戶各的相等的情下將 S In the S shift, the S shift of the user in the S shift is equal to each other.

移中的 S 移量的值次用戶各的向高居映射或者次高居向映射。要求的方法其特在于在所下控制信息格式中帶有用于指示 S 是否的第指示信息。要求 5 的方法其特在于于指示 S 是否的第指示信息比特。要求 5 的方法其特在于在所用戶各到 S 移的 S 移量用理方式其中理方式包 The value of the S shift in the shift is mapped to the highest or the second highest. The method required is characterized by having the first indication information indicating whether S is in the control information format. The method of claim 5 is characterized by indicating the first indication information bit of S. The method of requirement 5 is characterized in that the S-transfer mode of the user moves to the S-transfer mode.

在所 S 的情下相同所在的用相同的 S 移用四分所相同所在的不同居同不同的用不同的移將 In the case of S, the same S is moved by the same S, and the same difference is used.

S 移中的 S 移量的值次用戶各的向高居映射或者次高居向 The value of the S shift in the S shift is the highest or the second highest

映射。要求 5 的方法其特在于在所用戶各到 S 移的 S 移量在所 S 的情下用理方式其中理方式包 Mapping. The method of claim 5 is characterized in that the S shift of the user to each S shift is used in the S mode.

在所用戶各的 3 4 S 移包的 S的移量的量力 2的情下 In the case of the amount of shift 2 of the S 4 of the user's respective 3 4 S shifting packets

介移的用相同的 S 移用四分所述相同所在的不同居同 Mediation with the same S Shifting the same difference in the same four points

其中果介只則所述的參考的 ) 果介所述的參考的力分別 ) - ) 在所述用戶各的 2 所述 S 移參中包的 S的移量的量力的情下 Wherein, the reference is only referred to as the reference force, and the reference force is respectively -) in the case where the amount of S of the S-shift parameter of the user is 2

相同的移用不同的四分 Same transfer with different four points

的解。要求3至6中項或9至 2中項或 5至 8中項所述的方法其特在于在所述用戶各到所述 S 移參的 S 移量用理方式 Solution. The method of claim 3 to 6 or 9 to 2 or 5 to 8 is characterized in that the S-shifting method of the user to the S-shift parameter

其中所述理方式包 Wherein the method package

所述用戶各的的解不同的 R S 移其中所述的解用的 S 移和 S 移參在所述參考 S 的情下奇索引的解參考的 - ) 索引的解參考的 ) 或者奇索引的解參考的 ) 索引的解參考的 - ) 要求 9所述的方法其特在于在所述下控制信息格式中第指示信息其中所述第指示信息于指示照所述理方式或所述理方式或者第指示信息用戶指示照所述理方式或所述理方式。要求20所述的方法其特在于所述第指示信息和所述第指示信息是的比特令或者所述第指示信息和所述第指示信息共用比特令在所述第指示信息和所述第指示信息于所述 S 移參的情下所述 S The different solutions of the users are different from the RS shifts in which the de-asserted S-shifts and S-shifts are referenced in the reference S-information index of the de-referenced index of the -) index or the odd-indexed The method of claim 9 is characterized in that the method of claim 9 is characterized in that the first indication information is in the lower control information format, wherein the first indication information is in the indication of the manner or the manner or The first indication information user indicates the manner of the management or the manner of the management. The method of claim 20, wherein the first indication information and the bit indication of the first indication information or the first indication information and the first indication information share a bit order in the first indication information and the first indication Information in the case of the S shifting said S

參 3比特、 4 bb特或 5比特。要求3至6中項或 9至 2中項或 5所述的方法其特在于在所述參考 S 不的情下所述的解參考的 ) 要求所述的方法其特在于在所述用戶各到所述 S 移量所述方法包 Refer to 3 bits, 4 bb or 5 bits. The method of claim 3 or 6 or the method of 5 or 2 or 5 is The method described in the context of the reference S does not include the method package in which the user each goes to the S shift amount

將所述分量載波的所在居中的最或最高居的 S 移直作力的物理指示 P C 映射式中 W A physical indication of the most or highest S of the center of the component carrier being shifted. P C mapping

的 Rs 所述的 P C 映射。 The P C mapping described by Rs.

要求所述的方法其特在于 S 移中的每介 S 移介 3 bb特的 S The method described is characterized in that each S in the S shift is shifted by 3 bb.

移參其中 S 移和 S 移參的下控制信息格式 0 中配置的 S 移和 S 移參的相同。 The S shift and the S shift parameter configured in the lower control information format 0 of the S shift and the S shift argument are the same.

要求24所述的方法其特在于在所述用戶各到所述 S 移量所述方法包 The method of claim 24, wherein the method includes the method in the user

將所述分量載波的所在居中的最或最高居的 S 移的 S 移參作力的物理指示 P C 映射式中 W The S of the most or highest S of the center of the component carrier is shifted by the physical indication of the force P C mapping

的 Rs 所述的 P C 映射。 The P C map described by Rs.

在所述分量載波有用換的情下將所述分量載波的所在的所有居中的最或最高居的指示 P C 映射式中 W In the case where the component carrier is used, the most or highest indication of all the centers in which the component carrier is located is in the P C mapping formula.

的 Rs 所述的 P C 映射。 The P C mapping described by Rs.

要求23或25或26所述的方法其特在于所述下控制信息格式中帶有用于指示信息其中所述指示信息于指示用最或最高居的 S 移的 S 移參。 The method of claim 23 or 25 or 26, wherein the lower control information format has an S shift parameter for indicating information, wherein the indication information is used to indicate the most or highest S shift.

要求23或 25所述的方法其特在于所述下控制信息式中帶有信息其中所述指示信息于指示所述分量載波的是否共享 P C 資源。 The method of claim 23 or 25 is characterized by the lower control information The information is accompanied by the indication information indicating whether the component carrier shares the PC resource.