KR101073912B1 - method of transmitting and receiving control information for point-to-multipoint multimedia multicast service - Google Patents

Abstract

The present invention relates to a method for transmitting and receiving control information of a wireless mobile system, and more particularly, to a method for transmitting and receiving control information of a point-to-multimedia multimedia multicast service that efficiently uses radio resources and appropriately controls update of control information. In a wireless mobile communication system including a wireless network and at least one wireless mobile terminal, a plurality of point-to-multipoint multimedia multicast services that a wireless network provides in one cell are provided. A method of providing control information, the method comprising: grouping the control information in service group units; And transmitting each grouped service group control information to the at least one wireless mobile terminal. According to the present invention, it is possible to solve the problem that the wireless mobile system is inefficiently used as a radio resource or does not properly control update of control information.

Control information, transmission / reception, MBMS, change cycle, repetition cycle, control message

Description

Method of transmitting and receiving control information for point-to-multipoint multimedia multicast service}

1 is a diagram illustrating a network structure of a universal mobile telecommunications system (UMTS) mobile communication system according to the prior art.

2 is a diagram illustrating a structure of a radio interface protocol between a terminal and a UTRAN based on a radio access network standard of 3GPP according to the prior art.

3 is a diagram illustrating a channel configuration at a terminal side for a MBMS service according to the prior art.

4 is a view for explaining the transmission method of the MCCH information according to the prior art.

5 is a flowchart illustrating an operation of acquiring service information of a terminal according to an exemplary embodiment of the present invention.

6 is a block diagram of a wireless communication device such as a mobile terminal for performing the functions of the present invention.

The present invention relates to a method for transmitting and receiving control information of a wireless mobile system, and more particularly, to a method for transmitting and receiving control information of a point-to-multimedia multimedia multicast service that efficiently uses radio resources and appropriately controls update of control information.

1 is a diagram illustrating a network structure of a universal mobile telecommunications system (UMTS) mobile communication system according to the prior art.

The UMTS system is largely referred to as a user equipment (abbreviated as 'UE'), a UTMS radio access network (UMTS Terrestrial Radio Access Network (hereinafter abbreviated as 'UTRAN')) and a core network (hereinafter referred to as 'CN'). consist of. UTRAN is composed of one or more Radio Network Sub-systems (hereinafter, referred to as 'RNS'), and each RNS is referred to as one Radio Network Controller (hereinafter, referred to as 'RNC'). It consists of one or more base stations (hereinafter referred to as Node Bs) managed by the RNC. One or more cells exist in one Node B.

FIG. 2 illustrates a structure of a radio interface protocol between a terminal and a UTRAN (UMTS Terrestrial Radio Access Network) based on the 3GPP radio access network standard. The air interface protocol of FIG. 2 is composed of a physical layer, a data link layer, and a network layer horizontally, and a user plane for transmitting data information vertically. And a control plane for transmitting a control signal. The protocol layers of FIG. 2 are based on the lower three layers of the Open System Interconnection (OSI) reference model, which are well known in communication systems, based on L1 (first layer), L2 (second layer), and L3 ( Third layer).

Hereinafter, each layer of FIG. 2 will be described. The physical layer, which is the first layer, provides an information transfer service to an upper layer by using a physical channel. The physical layer is connected to the upper Media Access Control layer through a transport channel, and data between the media access control layer and the physical layer moves through this transport channel. Then, data moves between different physical layers, that is, between physical layers of a transmitter and a receiver.

The medium access control (MAC) layer of the second layer provides a service to a radio link control layer, which is a higher layer, through a logical channel. The radio link control layer (hereinafter referred to as 'RLC') layer of the second layer supports reliable data transmission, and is an RLC service data unit (hereinafter referred to as 'SDU') from the upper layer. Segmentation and Concatenation can be performed.

The radio resource control layer (hereinafter abbreviated as 'RRC') layer located at the bottom of the third layer is defined only in the control plane, and the configuration of radio bearers (abbreviated as 'RB') is configured. It is responsible for the control of logical channels, transport channels, and physical channels in connection with reconfiguration and release. In this case, the RB refers to a service provided by the second layer for data transmission between the UE and the UTRAN. In general, the RB is configured to define characteristics of a protocol layer and a channel necessary to provide a specific service. The process of setting specific parameters and operation methods.

Hereinafter, a multimedia broadcast / multicast service (hereinafter, abbreviated as MBMS) will be described in detail. MBMS refers to a method of providing a streaming or background service to a plurality of terminals using a downlink-only MBMS bearer service. One MBMS service is composed of one or more sessions, and MBMS data is transmitted to the plurality of terminals through an MBMS bearer service only while a session is ongoing.

3 is a diagram illustrating a channel configuration at a terminal side for a MBMS service according to the prior art. As shown, the UTRAN provides the MBMS bearer service to the terminal using a radio bearer. Types of radio bearers used by UTRAN include point-to-point radio bearers and point-to-multipoint radio bearers. Here, the point-to-point radio bearer is a bi-directional RB, a logical channel dedicated traffic channel (DTCH) and transport channel dedicated channel (DCH), physical channel dedicated physical channel (DPCH), or physical channel SCCPCH (Secondary Common) Control Physical Channel). In addition, the point-to-multiple radio bearer is a uni-directional downlink RB, and as shown in FIG. 3, the logical channel MTCH (MBMS Traffic Channel), the transport channel FACH (Forward Access Channel), and the physical channel SCCPCH are illustrated in FIG. It is composed. The logical channel MTCH is configured for each MBMS service provided to one cell and used to transmit user plane data of a specific MBMS service to a plurality of terminals.

The logical channel MCMS (MBMS Control Channel) is a point-to-multipoint downlink channel and is used to transmit control information related to MBMS. The logical channel MCCH is mapped to a transport channel forward access channel (FACH), and the transport channel FACH is mapped to a physical channel secondary common control physical channel (SCCPCH). Only one MCCH exists in one cell.

4 shows a transmission scheme of MCCH information. The UTRAN providing the MBMS service transmits MCCH information to a plurality of terminals through the MCCH channel. MCCH information is periodically transmitted according to a modification period and a repetition period. MCCH information is classified into critical information and non-critical information. Among these, non-critical information can be freely changed and transmitted every change cycle and repetition cycle. However, the change of important information can be changed and transmitted only every change cycle. That is, the important information is repeatedly transmitted once per repetition period, and the transmission of the changed important information is possible only at the beginning of the change cycle.

The MCCH information refers to a control message related to MBMS, that is, an RRC message related to MBMS. MBMS Modified Services Information (MSI), MBMS Unmodified Services Information (USI), MBMS Point-To-Multipoint RB Information, Access Information, etc. Message corresponds to MCCH information. Among them, access information messages correspond to non-critical information, and all remaining MCCH information messages correspond to important information.

When the UTRAN transmits all the above messages, if the message transmits information on a specific service, the UTRAN includes the MBMS transmission identity in the message. In this case, the MBMS transmission identifier includes an MBMS session identifier and an MBMS service identifier. For example, when the MBMS change service information message is transmitted, the message includes the MBMS transmission identifier and information of a service corresponding to the transmission identifier.

The UTRAN periodically transmits a physical channel MICH (MBMS notification indicator channel) shown in FIG. 3 to inform whether MCCH information is updated during the change period. Thus, for example, a terminal that wants to receive only one specific MBMS service does not receive the MCCH or MTCH before the session of the service starts, and periodically receives the MICH (MBMS notification indicator channel). For reference, updating of MCCH information in the text refers to generation, addition, change, or removal of a specific item of MCCH information.

The UTRAN transmits an MSI message with the MICH to indicate whether the MCCH information is updated during the change cycle. The MSI message transmits identifier information of all service (s) updated during a corresponding change cycle in the current cell and operation information required for a terminal subscribing to the service. In this case, MBMS transmission identity is used as identifier information. Here, the MBMS transmission identifier may be configured only with an MBMS service identifier indicating a specific service, or an MBMS session identifier indicating a specific session of a specific service may be combined with the MBMS service identifier. Meanwhile, identifier information of service (s) which are not changed in the change cycle among the services currently provided in the corresponding cell is transmitted through a USI message. In this case, the MBMS transmission identity of the corresponding service is also used. The MSI message and the USI message correspond to the MCCH information described above.

When a session of a specific MBMS service is started, the UTRAN transmits a notification indicator (NI), which is an indicator for notifying the terminal that wants to receive the specific MBMS service, to receive the MCCH channel through the MICH. The UE that receives the indicator NI corresponding to the change of the service through the MICH receives the MCCH during a specific change period indicated by the MICH. While receiving the MCCH, the terminal receives the MSI message and first determines whether the MBMS service intended to be received during the change period is changed, and if changed, obtains the changed MCCH information. Meanwhile, the terminal may receive an MSI message and a USI message transmitted during one change cycle, and grasp a list of all services currently provided in the cell during the change cycle.

A terminal that wants to receive a specific MBMS service using a point-to-multiple radio bearer receives MCCH information including radio bearer information through an MCCH channel, and sets the point-to-multiple radio bearer in the terminal using the information. After configuring the point-to-multipoint radio bearer, the terminal continuously receives the physical channel SCCPCH to which the MTCH is mapped to acquire data of a specific MBMS service transmitted through the MTCH.

The UTRAN may transmit MBMS data discontinuously over the MTCH. In this case, the UTRAN periodically transmits a scheduling message to the UE through an MMS (MBMS Scheduling Channel) of the SCCPCH to which the MTCH is mapped as shown in FIG. 3. Here, the scheduling message informs the transmission start time point and transmission period of the MBMS data transmitted during one scheduling period. To this end, the UTRAN should inform the UE in advance of the transmission period (scheduling period) of the scheduling information.

The conventional method described above has the following problems.

In the prior art, when the UTRAN intends to transmit a large amount of MCCH information during one change period, a method of increasing the MCCH transmission speed or increasing the change period may be used. However, if the MCCH transmission speed is increased, the base station power needs to be consumed more. If the change cycle is increased, the update of the MCCH information is delayed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an information transmission / reception method capable of appropriately controlling update of control information while efficiently using radio resources in a wireless mobile system.

Another object of the present invention is to provide an information transmitting / receiving method capable of transmitting a large amount of MCCH information in one change period without increasing the MCCH transmission speed or increasing the change period.

In the method for transmitting / receiving control information of a point-to-multimedia multicast service according to the present invention, a transmitting side of a wireless mobile system periodically transmits control information, a receiving side periodically receives the control information, and a transmitting side transmits specific control information to two or more messages. The divided messages are transmitted in different periods, and the receiving side periodically receives each message and uses the divided messages together to receive the service.

In the method for transmitting / receiving control information of a point-to-multimedia multimedia multicast service according to the present invention, one particular service information is divided into two or more control messages, each of the control messages includes information on the division, and then each other at different periods. The other control message is repeatedly transmitted, and the mobile terminal receives the at least two control messages according to the split information included in the control message. The period is a change period, the control message is repeated every repetition period, the control message is a USI message, the message is periodically transmitted through the MCCH channel, the information on the partition to obtain a complete service information It is preferable that it is the total number of control messages required.

In a method for transmitting and receiving control information of a point-to-multipoint multimedia multicast service according to the present invention, in a wireless mobile communication system including a wireless network and at least one wireless mobile terminal, the point-to-multipoint multimedia provided by a wireless network in one cell is provided. A method of providing control information for a point-to-multipoint multimedia multicast service, the method comprising: grouping the control information by a service group; And transmitting each grouped service group control information to the at least one wireless mobile terminal.

In the method for transmitting / receiving control information of a point-to-multipoint multimedia multicast service according to the present invention, a wireless mobile terminal in a cell in which a point-to-multipoint multimedia multicast service is provided in a wireless mobile communication system controls information on the plurality of services. In the receiving method, Obtaining partition information from the control information; And receiving the service group control information formed by grouping the control information for the plurality of services in service group units through the split information.

Another feature of the method for transmitting and receiving control information of a point-to-multimedia multimedia multicast service according to the present invention is that the total control information for the plurality of services is transmitted at every control transmission period.

Another feature of the method for transmitting and receiving control information of a point-to-multimedia multimedia multicast service according to the present invention is that each grouped service group control information is sequentially transmitted at every modification period (MP) within the entire control transmission period. Will be.

Another feature of the method for transmitting and receiving control information of a point-to-multimedia multimedia multicast service according to the present invention is that each service group control information is repeated at each repetition period within the modification period.

Another feature of the method for transmitting / receiving control information of a point-to-multimedia multimedia multicast service according to the present invention is that the control information includes period length information indicating the number of modification periods within one total control transmission period. It is.

Another feature of the method for transmitting and receiving control information of a point-to-multimedia multimedia multicast service according to the present invention is that the control information includes period length information indicating the number of modification periods within one total control transmission period. .

Table 1 below shows the configuration of MSI and USI messages when there is no service change according to an embodiment of the present invention.

In the present invention, the USI message may be changed at every USI period (hereinafter, abbreviated as 'UP'), and the MSI message may be changed at every modification period (hereinafter, abbreviated as 'MP'). The UP length is S times the MP length. In the example of the figure, the UP length is three times the MP length, S is 3, and one MP includes three MPs. As shown in the figure, information of unmodified services transmitted during one UP is divided and transmitted for each MP constituting the UP. That is, as in the prior art, the USI message transmitted during one MP does not transmit information of all services that are not changed during one MP, but the USI message transmitted during one MP does not transmit information of services that are not changed during one MP. Send only part of it. To this end, as shown in the figure, the system divides all MBMS services in session in the cell into S service groups (G1, G2, G3 groups) and allocates different groups to different MPs in one UP. For example, services 1 to 5 belong to G1, services 6 to 10 belong to G2, and services 11 to 14 belong to G3. In the figure, services 1 to 5 are allocated to the first MP (MP # 1) in UP # 1, services 2 to 10 are allocated to the second MP in UP # 1, and the remaining services are the third MP in UP # 1. Is assigned to. If a particular service is assigned to one particular MP in the UP, that assignment is then applied equally for the UP. The assignment is maintained until the session of the service ends.

Table 1 shows a case where no service is changed during the first to sixth MPs. Since no service is changed, service information is included only in the USI.

Table 2 describes a case where there is service information changed in the remaining MPs except for MP # 5 when allocated as shown in Table 1.

As in the prior art, when an MSI message transmitted to a specific MP is changed in the MP, the MSI message includes identifier information of the service regardless of the service group G1, G2, or G3 to which the service belongs. However, the USI message transmitted to a specific MP includes the information of the service only when the information of the service is not changed to the MP and the service belongs to the service group assigned to the MP.

In the example of the figure, the information of service 2 and service 8 is changed in MP # 1, the information of service 2, service 3 and service 5 is changed in MP # 2, and the information of service 11 and service 14 is changed in MP # 3. do. In MP # 1, Service2 is originally assigned to MP # 1, so it is not included in the USI, but only in the MSI. Since service 8 is assigned to MP # 2, it is included in the MSI of MP # 1 and also in the USI of MP # 2. In MP # 2, Service2 is included in the MSI because it has changed in MP # 2. Service 2 was assigned to MP # 1, but it was also changed in MP # 1 and was not included in USI of MP # 1. In MP # 3, since services 11 and 12 are assigned to MP # 3, they are included in the MSI, and the remaining services 12 and 13 are not included in the USI.

In UP # 2, it is assumed that services 10 and 12 are changed in MP # 4, service information is not changed in MP # 5, and services 8 and 12 are changed in MP # 6. At this time, since service 10 has been changed to MP # 4, it is included in MSI of MP # 4 and transmitted to USI of MP # 5 according to the assignment. Service 12 is included in the MSI in the MP, because it has changed in MP # 4 and MP # 6, and is not included in the USI because it is included in the MSI in the assigned MP # 6. Since service 8 is changed in MP # 6, it is included in the MSI of MP # 6, and according to assignment, it is also included in MP # 5.

In the present invention, the MCCH information transmitted during each change period transmits only information of services included in MSI and USI messages during the change period. For example, in Table 2, MCCH messages (MBMS point-to-multiple radio bearer information, MBMS general information, and MBMS access information) transmitted to MP # 6 are transmitted to MSI and USI of MP # 6. Only MCCH information for 12, 13, 14 is transmitted. Meanwhile, as another embodiment, the MCCH information transmitted during each change period may transmit MCCH information about all services in the UP to which the MCCH information is transmitted.

Table 3 describes how specific service information is transmitted when a session of a specific service is started or terminated according to an exemplary embodiment of the present invention.

In the present invention, when a session of a specific service is started, the UTRAN first assigns the service to a specific service group, and includes the identifier information of the service in the MSI message of the specific MP, and also in the USI message of the MP assigned to the service group. Contains identifier information of the service. If the MP of the MSI message and the MP of the USI message are the same, the identifier information of the service is included only in the MSI message of the MP.

As shown in Table 3, if it informs the beginning of a session of service 15 from MP # 2, UTRAN will include service15 in the MSI message of MP # 2, and the first group assigned to service15 within one UP ( Identifier information of the service 15 is transmitted to the USI message (assigned to MP # 1, etc.). At this time, since the session of the service 15 starts from the MP # 2, the service 15 is not included in the MP # 1, and the service 15 is included in the USI message from the MP # 4. In the case of the session of service 17 starting from MP # 2, the MSI of MP # 2 includes service 17, and since UTRAN assigned service 17 to the second group (assigned to MP # 2,5), Service 17 should be included in the USI message. In the case of sessions of service 16 starting with MP # 4, the MSI of MP # 4 contains service 16, and since UTRAN assigns service 16 to the third group (assigned to MP # 3), the USI message of MP # 6 follows. Should include service 16.

In the example of the figure, if MP # 2 is notified of the end of the session of Service3, UTRAN includes Service3 in the MSI message of MP # 2 and removes Service3 from the first group to which Service3 is assigned. Therefore, service information for service 3 is not transmitted in MP afterwards. However, since service 3 is assigned to the first group, the identifier information of service 3 is included in the USI message in MP # 1. If MP # 3 is notified of the end of service 11's session, UTRAN will include service 11 in the MP # 3's MSI message and remove service 11 from the third group to which service 11 is assigned. Therefore, the service information of the service 11 is not transmitted later in the MP. If it informs MP # 4 of the end of the session of service 10, UTRAN includes service 10 in the MSI message of MP # 4 and removes service 10 from the second group to which service 10 is assigned. Therefore, the service information of the service 10 is not transmitted in the MP later.

5 is a flowchart illustrating an operation of acquiring service information of a terminal according to an exemplary embodiment of the present invention. Hereinafter, an operation of acquiring service information of a terminal according to an exemplary embodiment of the present invention will be described with reference to FIG. 5. In the present invention, in order for the terminal to completely acquire the service information of a specific cell, the terminal should receive the MSI message and the USI message by the length of the USI period (UP). When the UE moves to a new cell or starts an MBMS service for the first time, there is an error in service information management. After the service information is completed, the terminal checks the state of the service information by receiving only an MSI message every change cycle. As a result, if there is no movement between cells, there is no need to perform such an operation.

For the present invention, the UTRAN transmits the length of the USI period (UP), which is a period in which the USI message can be changed, to the UE through a BCCH (Broadcast Control Channel) or MCCH. When transmitting over the MCCH, the UTRAN may transmit the length of the USI cycle using an MSI or USI message. The UTRAN transmits the length of the USI cycle to the UE in the MSI or USI message transmitted every repetition cycle. Preferably, the length information of the USI period is included in the USI message, and if the length of the USI period is changed, the length information of the USI period is included in the MSI message and transmitted.

Detailed operations of the terminal according to the drawings are as follows.

In order to completely acquire service information in a specific cell, the terminal receives the MCCH channel and receives an MSI message and a USI message in a certain change cycle. The terminal stores the contents of the MSI message and the USI message. At this time, USI cycle length information included in the MSI or USI message is obtained. In this case, the USI period length information may be represented by S1, and S1 corresponds to a multiple of the change period length. The terminal stores S1 and sets m to S1 (S10).

The terminal receives the MSI message and the USI message in the next change cycle. The terminal stores the contents of the MSI message and the USI message. At this time, USI cycle length information included in the MSI or USI message is obtained. In this case, the USI period length information may be represented by S2, and S2 corresponds to a multiple of the change period length. The terminal sets m to m -1 (S20).

The terminal determines whether the received S2 value is the same as the stored S1 (S30).

If the received S2 value is not the same as the stored S1, the terminal sets S1 to S2, stores S1 again, and resets m to S1. The terminal removes the previously stored MSI message and USI message except the recently stored MSI message and USI message (that is, the MSI message and the USI message of the current change cycle). And, the terminal performs the step S20 again (S40).

When the received S2 value is the same as the stored S1, whether the current m is 0 is determined. If m is not 0, the terminal performs step S20 again (S50).

If m is 0, the terminal completely acquires the current service information from the cell through the stored MSI message and the USI message (S60).

6 is a block diagram of a wireless communication device 100 such as a mobile terminal for performing the functions of the present invention. The wireless communication device 100 may include a processing unit module 110 such as a microprocessor or a digital processor, an RF module 135, a power control module 106, an antenna 140, a battery 155, and a display module 115. , A keypad 120, a ROM, an SRAM, a storage module 130 such as a flash memory, a speaker 145, and a microphone 150.

The user inputs command information such as a telephone number by pressing a button of the keypad 120 or activates a voice using the microphone 145. The processing unit module 110 receives and processes the command information to perform a function required by a user. In addition, the storage module 130 retrieves and uses the data necessary to perform the function, and the processing unit module 110 uses the user's command information and the data retrieved from the storage module 130 to the user's convenience. To show in the display module 115 for.

The processing unit module 110 transmits the indication information to the RF module 135 to transmit a radio signal including voice communication data. The RF module 135 includes a transmitter and a receiver for transmitting and receiving a radio signal, and the radio signal is finally transmitted and received using an antenna. When the RF module 135 receives the radio signal, the RF module 135 converts the radio signal into a baseband frequency so that the processing unit module 110 can process the radio signal. The converted signal is transmitted through the speaker 145 or as readable information. The RF module 135 is used to receive data from a network, or to transmit information measured or generated by a wireless communication device to a network. . The storage module 130 is used to store information measured or generated in the wireless communication device, and the processing unit module 110 receives data from the wireless communication device, processes the received data, or processes the data. It is suitably used for transmitting.

The wireless communication apparatus 100, which receives a point-to-multipoint multimedia or multicast service from a wireless network and the wireless network, is formed by grouping control information for the plurality of services in service group units through the RF module 135. Receives a plurality of service group control information, and obtains the control information for the service being received by the wireless communication device 100 from the plurality of service group control information which is always received through the processing unit module 110. In addition, the RF module 135 may be controlled through the processing unit module 110 to repeatedly receive the control information grouped by the service group.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

In the information transmission and reception method of the communication system according to the present invention as described above, the transmitting side of the wireless mobile system divides the specific control information into two or more messages, the divided messages are transmitted at different periods, the receiving side periodically each message To provide a wireless mobile system characterized in that receiving the service by using the received and the divided messages together, to solve the problem that the wireless mobile system is inefficient use as a radio resource or does not properly control the update of control information Can be.

Claims (26)

A method for receiving control information from a network in a wireless communication system, Receiving information about a particular number of point-to-multipoint services; Receiving a plurality of multimedia broadcast / multicast service control channel (MCCH) related messages according to the specific number of point-to-multipoint service information; And Obtaining the control information from the received plurality of MCCH related messages; And each of said specific number of point-to-multipoint services is assigned to a period independent of each other. The method of claim 1, The length of the period is the same as the control information receiving method. The method of claim 1, The control information receiving method, characterized in that the length of the period is different. The method of claim 1, And the control information relates to the point-to-many service. The method of claim 1, The plurality of MCCH-related messages are received over a control channel. delete The method of claim 5, The control channel is a control information receiving method characterized in that the MCCH (Multimedia Broadcast / Multicast Service Control Channel). The method of claim 1, Each of the plurality of MCCH-related messages includes at least one of change information (MSI) and non-change information (USI). The method of claim 8, And at least one of the period of the change information and the unaltered information is updated during each period. The method of claim 8, And the period of the unaltered information is longer than the period of the changed information. In the wireless communication system, a network for transmitting control information to a terminal, Assigning each specific number of point-to-multipoint services to periods independent of each other; Transmitting information about the specific number of point-to-multipoint services; And And transmitting a plurality of multimedia broadcast / multicast service control channel (MCCH) related messages in the allocated independent periods according to the specific number of point-to-multipoint service information. The method of claim 11, The length of the period is the control information transmission method, characterized in that the same. The method of claim 11, The length of the period is different control information transmission method, characterized in that. The method of claim 11, And the control information relates to the point-to-many service. The method of claim 11, The plurality of MCCH related messages are transmitted through a control channel. delete The method of claim 15, The control channel is a control information transmission method, characterized in that the MCCH (Multimedia Broadcast / Multicast Service Control Channel). The method of claim 11, Each of the plurality of MCCH-related messages includes at least one of change information (MSI) and non-change information (USI). The method of claim 18, And at least one of the change information and the unaltered information is updated during each period. The method of claim 18, And the period of the unaltered information is longer than the period of the changed information. delete delete delete delete delete delete

Images