WO2010145502A1 - Data transmitting method and apparatus for multicast channel - Google Patents

Abstract

A data transmitting method and apparatus for a multicast channel are disclosed. The data transmitting method for a multicast channel comprises: a transport block is respectively carried in each sub-frame of the multicast channel to transmit the data for broadcast and multicast service, wherein, the data in each transport block is composed of data on one logic channel individually, or data on a plurality of different logic channels collectively. The logic channel comprises: a Multimedia Broadcast and Multicast Service (MBMS) control channel and an MBMS traffic channel. According to the solution, data in a transport block can be corresponding to a specific logic channel, so that the data transmitting efficiency of Multicast Channel (MCH) is increased.

Description

 The multi-word square wood domain is particularly involved in the communication wood field. Background Wood At present, there are not many examples of frequency, frequency, education, etc.

 Each of the multi-media suspensions requires the same number of users to have the same size, the same, and the sense of each other. The land use of the first generation partner of the same resources 3 de ea o P e oec 3 PP) proposed a multi-media eda oadcas ad cas SeVce S) each is a lot of wood and package sharing) Utilization of resources, especially air resources. In the medium S, the carrier mode is the smallest sheep used by the same carrier in each cas) and multiple S). At present, the system is not configured to carry the configuration of the S and S sub-bearing S. The following equation is satisfied. S od ado a eA o o o Penod ado a eA o o o OEse where S se a e be S )

 0 to 023 ado a oc o Pe od means more

 The period of S is expressed in { 2 4 8 6 32}. Ado a eA oca o OfEse indicates the offset of S which is less than or equal to S. o means S ado a eA oca o Pe od or remainder. Configuration hosting S

S. The method of using the b in the first bearer S in the sub-bearing S is determined by the method eec so e

 ) mode #0 #4 #5 #9 can not carry S each mode under the child #0 # #5 #6 can not carry S each so use 6 bb special b

 Which of the remaining 6 mesons carry S. The sub-configurations of the load S in S are the same. Because the configuration signaling is under control

 The oadcas Co o C a e CC ) terminal cannot be supported by the sub-configuration in S during the CC repair cycle. The S in the S carries the sub-sub-submultiples of S. At present, the control information of the sca o Co 1 C a e P CC is controlled by the control information of the sca o Co 1 C a e P CC in the middle of the S sub- or the 2 ogo a e e c so e O). The resources in the nucleus are not S or each. The method of the method described in S is configured as the S sub-subsequence to become the physical resource of each S, that is, the physical multi-sc cas C a e P C . C bears more cas C a e C C is more

The series S subconfigured by the configured configuration method. In the step, the S is divided into multiple Cs. For example, some of the S sub-subsequences of the S sub-force are used to work for C. The S-sub-forces of the pre-phase C 2 a s o oc

) What are the wooden schemes of those made. The content is provided by the method device of the present invention C to solve the problem that the existing wood has a C. This aspect of the introduction of the C method. This C method packs a lot of mesons Carrying in each of the various mediators or

Into the package S control channel and S each. The other aspect of this article mentions the device of C. This C's device packs sheep and sheep. Among them, each of the sheep's mesons carried by each of the C memes or the different ones of the packets S and the S sheep are carried by the respective mesons of the sheep. The at least medium scheme of this book is respectively carried in each meson of C.

 S of each of S is controlled by s Co o C a e CC ) or S S a cC a e C ) or by multi-package CC and C)

 Of the C

 And increase the rate of C. The other special features of this book will be explained in the Chinese section. The purpose of this and its

In the Ming, the requirements, and the special points pointed out in the book. The steps that are not mentioned in this paragraph are understood to be part of the original one. In the schematic diagram of each of the intermediates in the middle of the medium C, the schematic diagram of the device of the C which is carried by the P basic sheep is carried out. The way in the existing wood is determined by those of the C method of the present C. In this

 In the C in , C is P C , P C is the physical of C , and the mesons are respectively

 The C of each of S's C is different from the other, which means CC channel and / or C. In the absence of love, the special ones in this book. The following definitions of the understanding of the description of the Ming and Qing are not used in this book. This first mentions the C method. The C method package of this C carries the medium S in each meson of C. In this book, Cs are carried by each of C's mesons or by many different ones. In this

Package S controls CC) S each C). C packs more C to divide C quadrant CC 2 etc. in this C channel with the same CC 2 is different and has its own Daolin. In this book, the information of the packet S is a cSc egoo ) where the information of S is used to describe which S sub-C is used in the C-cycle. In addition, in the middle of this, the information is indicated by the packet S. In the case of the syllabus of the syllabus, The way into each of the CCs carried by C in CC is 2) is carried by C in C. Or in the present embodiment, the S information is carried in the medium to carry the S-pass indication information in the mediation according to the following manners. 3) The information of the S information carried in the C is formed in the S information. The S-pass indication information at C is attributed to the S-pass indication information. And in the case of a plurality of different ones according to the following manner), the multi-C carried in C is 2) and is composed of a medium or a plurality C of Cs carried in C. The resulting packet S information is obtained in the following manner: 3) by the information of the CC and S carried in C, 4) by the information of the S carried in C, or by the C of 5) by the CC carried in C , or more than C, with S information. In the process of each of C, the physical resources P sca eso ce oc P ), or O-fu, or sub-carrier, or sub-carrier sheep The child that carries C is in multiple children. Step by step, the wood scheme mentioned in the following is to introduce the current CC C CC and C mapping to C. In addition, in the middle of the information, the information of each S can be mapped to the C information, and the S information can be introduced. The general information is mapped to C. The following information has been cited in S and S.

In the middle of this C, the sub-C is carried by the CC of the C, and the sub-C of the C is carried by C. The principle of this C is that CC or more of a medium or multiple CCs cannot contain C or its in the inclusion of CC. The principle must be followed in the process of physical residence in the system. In the break, control ed Access Co

 AC) AC, sheep ooco a P) is interposed with AC AC containing interstitial or multi-AC sheep Se ce a S ) AC. Because in this book, I have included

Package CC S information, C, etc. C package, multiple C cases C and C 2, in this case, the requirements of C and C 2 C sub-) are not included in the AC S included in the AC. Due to the inclusion in the ACS

In the indication that the ACS is due to the inclusion of the CC in the AC, the CC of the CC will be The CC's medium or multi-ACS is integrated into the AC, and the AC contains the CC, which will eventually include the CC. This is shown in the middle of

 ) only contains CC's. Yu Jie C is carried by a C in C

 The situation of C is the same as that of CC. C contains C. C has many different C sub-cases C C 2 , etc. to separate the ACS of each C to contain C-subs. The same is true for the inclusion of CC. The information in the S is the same as the operation of the CC to describe the beneficial effects of the S information. S has C contains 3 different C

 C C 2 C 3. There is an inclusion CC. The formation of this CC is formed by the respective CCs of CC

 - C - C 2 - C 3. Then map 4 to the pre-allocated sub-memory carriers of C. In this case, each resource of C has been pre-assigned to the terminal. Then, the terminal receives the information of the pre-resource allocation. If the terminal needs CC and C2, the terminal needs to receive the sub-packets CC and C2 of the resource allocation information. Subparse parsing package

 The existing wood phase is no longer described in this book). The second is the sub-parse containing C 2 . Because the end of the terminal contains all the factors required in the terminal, all the terminals are resolved, and there are more rabbits.

Including the unneeded terminal in the terminal resolution Wasted.

In the middle of C, the sub-C of C is carried in the C of C, and the C is carried in the C and the C or C.

AC mapping of CC and C in CC and C

 The waste of resources is caused by the inability to fill the full meson. The waste of filling the meridian rabbit resources is guaranteed by the ground in the medium. The difference between this is that there are many different examples of CC and C. The CC and C contain many different Cs contained in the media. Examples C and C 2 are included. In this book, the CC or multi-C

 In the context of the need for CC and C, the ACS in CC and C in the AC below CC and C in the ACS in the AC is in the AC to include CC and C. The 2 shown in Hugh is different from the C in the case where C 2 and C 3 are in the same operation as CC C in the medium. Each of the formed will be mapped to a pre-allocated sub-message carrier of C. In this

 The resources have been pre-assigned to the terminal. Receive the pre-resource allocation information. If the terminal needs to receive CC and C 2, then the terminal needs to receive the resource allocation information.

Receive sub-analytic parsing packages containing CC and C )among them. Next, the sub-parsing containing C 2 and C 3 is included. In Hugh, there is a tie-up in the method of making and mentioning, so that the mediation of the mediation can not be filled into the mediation. That is to reduce the waste of the terminal to waste rabbit resources. If the AC is made of AC, the AC) packets C and CC of the CC and C of the respective ACS) are in the AC) CC

 It is CC's AC S) placed before C is AC's AC S). CC is the control order in which S is more important. It is preceded by a faster resolution and a lesser degree of C. In the CC repair cycle, the respective ACs of CC and C appear in the intermediate AC). The AC S of C is placed in front of the AC S of the CC because the CC information is not allowed to be updated during the CC repair cycle. Each of the fast C's has a definite disadvantage due to the fast CC information in the CC repair cycle due to the CC repair cycle CC information update so the CC ACS is placed in the C ACS before the CC information is facilitated. The following is a reminder of CC's respective ACS in CC CC. The CC communication message CC f o C a ge o c o and energy 3633 g20 , ) CC information update is in the next CC repair cycle

The ACS of the CC is placed before the ACS of the C in the AC. Otherwise, the CC of the CC is repaired in the CC of the ACS in the AC of the AC in the AC. It is because the CC communication message is updated with the CC information that is not indicated by the upcoming network. The CC of the CC is placed before the AC S of C. The CC appears before C in the AC.

In the sub-C of the intermediary C, the S-information information of the S-information of the S-information of the S-information of the S-information of the S-information of the S-information The formation of each information of the general manager S does not include C or its. The introduction of Hugh CC is the same and will not be repeated. It is the same as its beneficial results. In addition, the operation of the S information is the same as the operation of the S information.

In the sub-C of this mediation C is carried by the CC S of each information of the CC and the information of the sub-C of the information of the sub-C of the C-bearing information contained in C, C or C into C mediation C The difference between the CC, the mediation, or the multi-CS information carried in C is different in the present process.

 CC S information, or C S information, or CC C S information sharing

 The CC and C described in the description are shared. Hugh

 The average is that the AC channel will need to be shared with the AC S to form the dielectric AC and then the AC will form the inclusion phase of the CC C and S information appear in the same

Sorted by the following principles In the AC), the information of S is placed at the forefront, and the way of CC C is as follows. The following description is based on the AC of 5 AC). The C and CC CC and C are respectively

 ACS) is in the middle of AC) CC

 It is CC's AC S) placed before C is AC's AC S). CC is the control order. S is more important. It is preceded by a faster resolution, and less than a certain degree of C. In the CC repair cycle, the respective ACs of CC and C appear in the intermediate AC). The AC S of C is placed in front of the AC S of the CC because the CC information is not allowed to be updated during the CC repair cycle. Each

5 fast C is for each S

 There is a certain disadvantage. Because of the fast CC information, the CC information is updated in the CC repair cycle. The CC information is updated before the CC ACS is placed in the C ACS to facilitate fast CC information. Recall that CC's respective AC S in CC CC is in the AC method. CC communication message CC o C a ge o fc o and energy 3633 g20 , ) CC information update is in the next CC repair cycle

 The ACS of the CC is placed in the AC5 before the ACS of the C. Otherwise, the CC of the CC is repaired.

 The ACS placed in C is in the AC. It is because the CC communication message is updated with the CC information that is not indicated to be coming. The AC S of the CC is placed before the AC S of C. The CC appears before C in the AC. 0 in the CC, C, and S

The flow of information together is the schematic of the process of 3 . In the case of the rest, the amount of information in the CC S is small, especially in the case of the S information, and the full meson cannot be filled in order to waste the maximum rabbit resources by integrating the information CC and/or C of the S.

In the description of this article, the description of C in the S sub-PR or O-fu temple, or sub-carrier, or sub-carrier basic sheep is carried in the sub-sub. In the middle of the force, the P-basic sheep are carried in the sub-bearing diagram 2, and the resources common to the same direction and the frequency direction in the P are described in the pre-PR C ef ef of the size of the H. PR 7 O Fu Temple, 2 meson carrier pre-e dedC cc ef PR 6 O Fu Temple, 2 meson carrier. In addition, the other first pre-ea C cc ef PR 4 O Fu Temple, 2 meson carrier pre-e dedC cc P e6) PR 2 O Fu Temple, 2 meson carrier. In this paper, the PR does not carry the resources whose bearer resources need to be subtracted from the important information such as bearer information. The PR used in this article is described in the former case. In the sum of the O-fuji in the local subcarrier, the 2 subcarriers are subcarriers within the meson carrier to be at or above the frequency. The subcarriers of the same subcarrier are the different subcarriers of 24 0, 8, 6 and so on. In the S-series core four, the physical resources that are not carrying C are allocated in the present S sub-bearing C. The physical PR, or O-fu, or subcarrier, or subcarrier sheep are carried in the S subphase of the phase. Phase C carries the same operation in the sheep. In the PR, or O-fu, or sub-carrier, or sub-carrier of the mapping, the important information is occupied by some PR, or O-fu, or sub-carrier, or part of the sub-carriers. The need to consider the resources occupied by the information. 1 This mentions the device of C. 3 instructions for the device of C

The device of C shown in Figure 3 mainly consists of sheep 3 and sheep 33. Wherein the sheep 3 are carried by each of the mesons of each of the C memes or the different ones of the packets are controlled by the S control CC and the S C sheep 33 are each carried by the respective mesons of the C 3 . All of the factors required by the terminal including the terminal CC and C) are all available in the terminal, and the terminal analysis is performed by the rabbit. Contains wasted terminals with unwanted terminals. The different utilization factors of the medium are used to improve the utilization of resources in the way of each of the C in this way to maximize the utilization of resources and reduce the waste of the terminal. 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

The method that requires multiple Cs is characterized by

 Each meson in C carries the mediation of each of the S

 The method of controlling the CC and the S of each of the packets S is the same as the method described in the C.

 The roots of the rest control AC sheep S from the AC S into the AC sheep P

 The AC is included to include the described. The method described in claim 2 or 2 is characterized by the following

 The carrier controlled by the S in the C is carried in the C of the C

 to make. The method of claim 3, characterized in that the method of forming the package is carried out by the information of the S carried in the C and/or

It is formed by the S-pass indication information carried in the C. The method described is characterized in that it consists of many different packages. Each AC S will be AC-based AC AC

 The AC is included to include the respective ones. 6 Requirements The method described is characterized by a number of different

 In the way of the package

 The majority of the Cs carried in the C are carried in the C and the C or C of the C. 7 Requirements The method described is characterized by a number of different

 The resulting package of the following

 By the information of the CC and S carried in the C

 By the information of the S carried in the C, the content of the medium or multiple C

 It is composed of information of S carried by the CC of the C, medium or multiple C.

The method of claim 5, wherein the method of the CC and the C of the C is placed before the C in the AC. 9 The method of claim 5, wherein the method of placing the packets CC and C before placing the C in the CC repair cycle in the AC P in the CC repair cycle will be The CC is placed in the AC before the C. 0, the method described in the items 5 to 7 is characterized in that the CC CC message of the packets CC and C indicates that the CC repair cycle CC update will be the CC Before the C is placed in the AC, the CC is instructed to CC. The CC is not updated, and the CC is placed in the AC where C is located. The required method is characterized by carrying each sub-multiple. The requirements of the 2, 5, and middle items are characterized by the fact that each meson in C carries a packet.

 The children that map each to C

 It is carried in the meson. The method of requirement 2 is characterized in that it is carried in a meson

 The following resources are carried in the physical resources, using the temple, subcarriers, and subcarriers. The device of C is characterized by

 The sheep are placed in each of the C mesons, each of which is composed of a medium or a different one of them. S and CC are controlled.

 The sheep carry each of the sheep in each of the C mesons.