KR20060011638A - Method for informing user equipment of mich configuration of handover target cell in mbms system - Google Patents

Abstract

The present invention provides a multimedia broadcasting / broadcast service (MBMS) to a plurality of terminals in a mobile communication system using a code division multiple access scheme, and soft handover or hard configuration information of an MBMS paging channel (MICH). Inform the terminals of the CELL_DCH state in the handover area. As the terminal moves from the serving cell to the destination cell, the SRNC of the serving cell determines to establish a radio link with the terminal via the destination cell controlled by the DRNC of the destination cell, and Sends a radio link setup request message requesting radio resources to the DRNC. When MICH configuration information of the target cell is received from the DRNC, the SRNC transmits the MICH configuration information of the target cell to the terminal in a message indicating that the radio link has been added. When the terminal receives the MICH configuration information of the target cell from the SRNC, the terminal stores the MICH configuration information and starts the reception of the MICH in the target cell. The present invention enables the CELL_DCH terminal to receive MMS configuration information of the target cell at the time of handover and receive the MBMS service.

CDMA, MBMS (Multimedia Broadcast / Multicast Service), Soft Handover, Hard Handover, CELL_DCH, MICH, NI

Description

METHODS FOR INFORMING USER EQUIPMENT OF MICH CONFIGURATION OF HANDOVER TARGET CELL IN MBMS SYSTEM}             

1 is a diagram illustrating an MBMS service reception operation according to mobility of a CELL_DCH terminal.

2 is a message flow diagram illustrating a procedure for transmitting MICH configuration information of a target cell to a CELL_DCH terminal when moving a cell according to a preferred embodiment of the present invention.

3 is a flowchart illustrating the operation of a CELL_DCH terminal during soft handover according to a preferred embodiment of the present invention.

4 is a flowchart illustrating an operation of a CELL_DCH terminal during hard handover according to an exemplary embodiment of the present invention.

The present invention relates to a mobile communication system that supports a multimedia broadcast / multicast service (hereinafter, referred to as an 'MBMS service'), and particularly, MBMS paging of a target cell to a terminal in a CELL_DCH state located in a handover area. A method of informing channel configuration information (MBMS Specific Paging Indicator Channel: hereinafter referred to as 'MICH').

Today, due to the development of communication technology, the service provided by the mobile communication system has developed into not only a conventional voice service but also a packet service communication that transmits a large amount of data such as packet data, and a multimedia broadcasting / communication that can transmit a multimedia service. Is going out. Accordingly, in order to support the multimedia broadcast / communication, a multimedia broadcast / multicast service that provides a service from one or more multimedia data sources to a plurality of user equipments (hereinafter referred to as UEs) is provided. Service, hereinafter referred to as "MBMS" service.

The MBMS service refers to a service for transmitting the same multimedia data to multiple receivers through a wireless network. In this case, by allowing multiple receivers to share one radio channel, it is possible to save radio transmission resources. The MBMS service supports multimedia transmission forms such as real-time video, audio, still images, and text. The MBMS service is a service that can simultaneously provide audio data and video data according to the multimedia transmission format, and requires a large amount of transmission resources. In the case of the MBMS service, since the same data must be transmitted to a plurality of cells in which users are located, one-to-one (Point to Point: 'PtP') or one-to-many depending on the number of users located in each cell. (Hereinafter referred to as 'PtM') connection is made. That is, the PtP provides a desired MBMS service for each UE for each UE, and dedicated channels are allocated to provide a service. On the other hand, PtM provides a corresponding service by allocating a common channel for each MBMS service for UEs requesting the same MBMS service.

In order to provide the MBMS service, the system basically informs the start of the MBMS service or the start of a session of any MBMS service (Session, the basic unit of MBMS service transmission in CN), and the MBMS service is provided in a PtM manner. In this case, it informs channel information for receiving the PtM service, and transmits MBMS control information such as a change in a transmission form during transmission of the MBMS service, that is, indicating PtP or PtM. However, it is very unnecessary for the terminals to continuously monitor the control channel in order to receive the MBMS control information.

Accordingly, the 3rd Generation Partnership Project (3GPP) standard uses an MBMS Specific Paging Indicator Channel (hereinafter referred to as 'MICH') to inform the call of control information according to the MBMS service. A notification indicator (hereinafter, referred to as 'NI') is information transmitted to the MICH to indicate that a call according to the MBMS service exists. The notification indicator informs UEs that have subscribed to a particular MBMS service that there is a start of the MBMS service or a session start of the MBMS service and related control information. If the MBMS NI received by the terminal through the MICH corresponds to the MBMS service that the terminal intends to receive, control information for the MBMS service is received by receiving an MBMS Control Channel (hereinafter referred to as MCCH). Radio bearer information, etc.) and receive the MBMS service based on the received control information.

The MICH is a physical channel, and configuration information necessary for receiving the MICH is transmitted to the terminal through system information of a broadcast control channel (hereinafter referred to as BCCH) mapped to a primary common control physical channel (PCCPCH). However, a terminal in a CELL_DCH state that already has a dedicated channel (hereinafter, referred to as DCH) for MBMS service or another service may not receive the system information according to a corresponding UE capability. The terminal that has not received the system information cannot know the MICH configuration information of the corresponding cell and, as a result, cannot receive the MICH.

1 is a diagram illustrating an MBMS service reception operation according to movement of a CELL_DCH terminal.

Referring to FIG. 1, reference numeral 111 denotes a CELL_DCH terminal located in cell A 101, and reference numeral 112 denotes the CELL_DCH terminal after moving to cell B 102. Reference numeral 110 denotes that the CELL_DCH terminal 111 of the cell A 101 moves to the cell B 102. Here, the cell A 101 is controlled by a Serving Radio Network Controller (hereinafter referred to as SRNC) (not shown) that controls the service of the CELL_DCH terminals 111 and 112, and the cell B 102 refers to It is controlled by a drift RNC different from SRNC (Drift RNC: hereinafter referred to as DRNC) (not shown).

As indicated by reference numeral 120, the DRNC of the cell B 212 determines that the CELL_DCH terminal 112 is configured from a Serving General Packet Radio Service (SGSN) Support Node (SGSN) that controls the MBMS service of the CELL_DCH terminal 112. Receive a session start message indicating that the session of the MBMS service to be received is started. The DRNC recognizes that the session of the MBMS service is started by receiving the session start message. The session start message includes information such as a service ID and a quality of service (QoS).

As indicated by reference numeral 130, the DRNC receiving the session start message transmits an MBMS NI through the MICH for the service received in the session start message to the terminal 112 to receive the MBMS service. However, if the CELL_DCH terminal 112 does not have the capability, the CELL_DCH terminal 112 does not receive the MICH as indicated by reference numeral 131.

As described above, the CELL_DCH terminal according to the prior art cannot receive the MICH by not knowing the MICH configuration information, and does not sense that the session has been started by not receiving the MICH. Therefore, since there is no attempt to receive control information related to the service through the MCCH, there is a problem that the desired MBMS service cannot be received eventually.

Accordingly, an object of the present invention, which was created to solve the problems of the prior art operating as described above, is to provide a method of notifying MICH configuration information, which is an MBMS paging channel of a target cell, to a CELL_DCH terminal among terminals joined to an MBMS service. .

Another object of the present invention is to provide a signaling method between SRNC and DRNC and signaling method between SRNC and terminal for informing CELL_DCH terminal of MICH configuration information, which is MBMS paging channel of a target cell.

In order to achieve the above object, an embodiment of the present invention provides a CELL_DCH terminal with MBMS paging channel (MICH) configuration information of a target cell in a mobile communication system for multimedia broadcasting / multicast (MBMS) service. In the method,

As the terminal moves from the serving cell to the destination cell, determining that a radio network controller (SRNC) of the serving cell establishes a radio link with the terminal through the destination cell controlled by the radio network controller (DRNC) of the destination cell; ,

Transmitting a radio link setup request message requesting a radio resource from the SRNC to the DRNC;

The DRNC receiving the radio link setup request message allocates resources for the terminal and MICH of the destination cell in a radio link setup response message indicating that the SRNC has successfully allocated the requested resources for the terminal. Including the configuration information and transmitting it to the SRNC;

 The SRNC comprises the step of transmitting to the terminal including the MICH configuration information of the target cell in the message indicating that the radio link has been added.

According to another embodiment of the present invention, in a mobile communication system for a multimedia broadcasting / multicast (MBMS) service, a method in which a CELL_DCH terminal obtains MBMS paging channel (MICH) configuration information of a target cell,

Receiving a message instructing to establish a radio link with the target cell from the SRNC of the serving cell as the terminal moves from the serving cell to the target cell;

Checking whether the message includes MICH configuration information of the target cell;

And if the MICH configuration information is included, storing the MICH configuration information and starting the reception of the MICH in the target cell.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating principle of the preferred embodiment of the present invention. Like reference numerals are used to designate like elements even though they are shown in different drawings, and detailed descriptions of related well-known functions or configurations are not required to describe the present invention. If it is determined that it can be blurred, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

According to the present invention described below, when a CELL_DCH terminal is handed over from a serving cell to a target cell, a MICH configuration of the target cell is included in a message indicating that the DRNC of the target cell has successfully allocated the SRNC of the serving cell to the requested cell for the terminal. Include information and send. Then, after establishing a data transmission bearer, the CELL_DCH terminal receives MICH configuration information of the target cell from the RNC of the serving cell.

In the following description of the present invention, one example of the mobile communication network will be described as an example of 3GPP (3GPP), which is a standard of a third generation asynchronous mobile communication network. The present invention can be applied to a communication network.

Referring to FIG. 2, an operation of informing MELL configuration information of a target cell to a CELL_DCH terminal during handover according to an embodiment of the present invention will be described in detail. Here, a case in which a radio link is added by soft handover as the CELL_DCH terminal moves from a serving cell to a target cell will be described.

Referring to FIG. 2, reference numeral 201 denotes a CELL_DCH terminal to receive an MBMS service, reference numeral 202 denotes a DRNC for controlling a target cell to which the terminal moves, and reference numeral 203 denotes an SRNC for controlling a serving cell.

In step 211, the SRNC 203 determines to establish a radio link to the terminal through the destination cell controlled by the DRNC 202. In step 221, the SRNC 203 requests a radio resource from the DRNC 202 by transmitting a Radio Link Setup Request RNSAP (Radio Network System Application Part) message to the DRNC 202. In this case, the Radio Link Setup Request RNSAP message includes a cell ID, a transport format set per DCH, a transport format combination set, frequency information, an uplink scrambling code, and the like. Parameters are included.

Upon receiving the Radio Link Setup Request RNSAP message, the DRNC 202 checks whether a resource for the terminal 201 is available, and if available, sends the Radio to the Node B controlling the target cell below the DRNC 202. Link Setup Request Pass the parameters included in the RNSAP message. The Node B then allocates the requested resources to the DRNC 202. The Node B then informs the DRNC 202 that it has successfully allocated the requested resources for the terminal 201. Since the procedure and message transmission between the DRNC 202 and the lower node B of the DRNC 202 are not related to the gist of the present invention, a detailed description thereof will be omitted.

In step 222, the DRNC 222 transmits a Radio Link Setup Response RNSAP message indicating that the SRNC 203 has successfully allocated the requested resource for the terminal 201. The Radio Link Setup Response RNSAP message includes parameters such as information about an address of a transport layer for a data transmission bearer (AAL2 (Asynchronous Transfer Mode) Adaptation Layer (AAL2) address, AAL2 binding identifier), information of an adjacent cell, and the like. In this case, the DRNC 222 includes the MICH configuration information of the target cell in the Radio Link Setup Response RNSAP message and transmits it to the SRNC 203.

Receiving the Radio Link Setup Response RNSAP message, the SRNC 203 starts setting up the Iur / Iub data transmission bearer using an access link control application part (ALCAP) in step 231. Where Iur is the interface between the RNCs and IuB is the interface between the RNC and Node B. That is, although not shown, the DRNC 202 not only sets up an Iur data transfer bearer with the SRNC 203 but also sets up an Iub data transfer bearer with the Node B. When the Iur data transmission bearer is set up, the Node B starts receiving downlink data from the SRNC 203 in synchronization with downlink and uplink synchronization between the Node B and the SRNC 203.

In step 241, the SRNC transmits an Active Set Update Radio Resource Control (RRC) message to the terminal 201 through a dedicated control channel (DCCH) to inform the terminal 301 that a radio link has been added. The Active Set Update RRC message is used to add, remove, or change a radio link, and includes an update type, a cell ID, a downlink scrambling code, power control information, and neighbor cell information. In addition, the Active Set Update RRC message includes MICH configuration information of the target cell received through the Radio Link Setup Response message. Upon successful receipt of the Active Set Update RRC message, the terminal 201 transmits an Active Set Update Complete RRC message to the SRNC to inform the end of the radio link addition process in step 242. At this time, the terminal 201 acquires destination cell MICH information of the radio link to be added.

In FIG. 2, the radio link addition operation in the case where the soft handover is performed is described. However, the same applies to the hard handover. Similarly to the hard handover, in step 222, the DRNC 202 transmits the MICH information of the target cell to the SRNC 203 by transmitting the MNC information of the target cell in the Radio Link Setup Response RNSAP message to the SRNC 203. Inform. In step 241 to step 242, the SRNC 203 uses the physical channel reconfiguration and physical channel reconfiguration complete messages instead of the active set update RRC message and the active set update complete message, to the terminal 201. Notify

Hereinafter, the operation of the CELL_DCH terminal during handover according to an embodiment of the present invention will be described in detail with reference to FIGS. 3 to 4.

3 is a flowchart illustrating an operation of a CELL_DCH terminal during soft handover according to an embodiment of the present invention.

Referring to FIG. 3, in step 301, a CELL_DCH terminal receives an Active Set Update RRC message. In step 311, the terminal checks whether the Active Set Update message includes an instruction to remove the existing radio link. If the radio link removal instruction is included, the terminal removes the indicated radio link in step 321 and proceeds to step 322.

 In step 322, the terminal maintains MICH configuration information of the serving cell to which the removed radio link is connected, and checks whether there is a radio link connected to the serving cell. If there is no more radio link connected, the terminal stops the MICH reception operation on the radio link in step 331 and deletes MICH configuration information of the radio link. If there is a radio link that is no longer connected in step 322, the flow proceeds to step 313. In step 313, the UE does not perform any operation for the MBMS service.

On the other hand, if the radio link removal instruction is not included in step 311, the flow proceeds to step 312. In step 312, the terminal determines whether the radio link addition instruction is included in the Active Set Update message. If the radio link addition instruction is included, the terminal adds the indicated radio link in step 341, and if there is no radio link addition instruction, the terminal goes to step 313.

In step 342, the UE checks whether MICH configuration information is included in the Active Set Update message. If there is MICH configuration information, in step 351, the MICH configuration information is stored, and reception of the NI through the MICH is started in the target cell. If the MICH configuration information is not included in step 342, the process proceeds to step 313.

4 is a diagram illustrating an operation of a CELL_DCH terminal during hard handover according to an embodiment of the present invention.

4, in step 401, a CELL_DCH terminal receives a physical channel reconfiguration message. In step 411, the terminal reconfigures the physical channel as instructed through the Physical Channel Reconfiguration message. In step 421, the terminal checks whether the MICH configuration information is included in the Phyaical Channel Reconfiguration message. If the MICH configuration information is included, the terminal proceeds to step 431. In step 431, the terminal stores MICH configuration information, updates MICH information such as deleting previously held MICH information, and then starts receiving the NI through the MICH in a target cell. If the MICH configuration information is not included in step 421, the terminal proceeds to step 441 and the terminal does not perform any operation for receiving the MBMS service.

As described above with reference to FIGS. 2 to 4, the present invention transmits MICH configuration information through signaling of RNCs between a target cell and a serving cell when the CELL_DCH terminal moves, thereby providing MICH configuration information of a target cell to the CELL_DCH terminal. . Accordingly, the terminal that cannot receive system information can also receive the MICH through the MICH configuration information.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

In the present invention operating as described in detail above, the effects obtained by the representative ones of the disclosed inventions will be briefly described as follows.                     

According to the present invention, the CELL_DCH terminal transmits MICH configuration information of the target cell to the serving cell through signaling between the serving cell and the target cell during handover and receives the MICH configuration information to the terminal, thereby providing system information on the corresponding service. There is an effect that the CELL_DCH terminal that can not receive the MBMS service.

Claims (11)

In a mobile communication system for a multimedia broadcasting / multicast (MBMS) service, a method of informing MBMS paging channel (MICH) configuration information of a target cell to a CELL_DCH terminal located in a soft handover region, As the terminal moves from the serving cell to the destination cell, determining that a radio network controller (SRNC) of the serving cell establishes a radio link with the terminal through the destination cell controlled by the radio network controller (DRNC) of the destination cell; , Transmitting a radio link setup request message requesting a radio resource from the SRNC to the DRNC; The DRNC receiving the radio link setup request message allocates resources for the terminal and MICH of the destination cell in a radio link setup response message indicating that the SRNC has successfully allocated the requested resources for the terminal. Including the configuration information and transmitting it to the SRNC;  And the SRNC including the MICH configuration information of the target cell in an active set update message indicating that the radio link has been added to the terminal. The method of claim 1, wherein the radio link setup request message, And a cell ID, a transmission format set for each DCH, a transmission format combination set, frequency information, and an uplink scrambling code. The method of claim 1, wherein the radio link setup response message, And information on an address of a transport layer for a data transport bearer and information on an adjacent cell. The method of claim 1, wherein the active set update message, And further comprising an update type, a cell ID, a downlink scrambling code, power control information, information of neighbor cells, and the like. In a mobile communication system for a multimedia broadcasting / multicast (MBMS) service, a method in which a CELL_DCH terminal located in a soft handover area obtains MBMS paging channel (MICH) configuration information of a target cell. Receiving an active set update message instructing to establish a radio link with the target cell from the serving cell radio network controller (SRNC) as the terminal moves from the serving cell to the target cell; Checking whether the active set update message includes MICH configuration information of the target cell; If the MICH configuration information is included, storing the MICH configuration information and initiating reception of the MICH in the destination cell. 6. The method of claim 5, further comprising: checking whether the active set update message includes an additional indication for a new radio link of the destination cell; And if the active set update message includes a radio link addition instruction, adding the indicated radio link. The method of claim 5, further comprising: checking whether the active set update message includes a delete instruction for an existing radio link; If the active set update message includes a radio link removal instruction, removing the indicated radio link; And deleting the MICH configuration information of the serving cell when there is no radio link connected to the serving cell anymore. In a mobile communication system for a multimedia broadcasting / multicast (MBMS) service, a method of informing MBMS paging channel (MICH) configuration information of a target cell to a CELL_DCH terminal located in a hard handover area, As the terminal moves from the serving cell to the destination cell, determining that a radio network controller (SRNC) of the serving cell establishes a radio link with the terminal through the destination cell controlled by the radio network controller (DRNC) of the destination cell; , Transmitting a radio link setup request message requesting a radio resource from the SRNC to the DRNC; The DRNC receiving the radio link setup request message allocates resources for the terminal and MICH of the destination cell in a radio link setup response message indicating that the SRNC has successfully allocated the requested resources for the terminal. Including the configuration information and transmitting it to the SRNC; And sending the SRNC to the terminal by including MICH configuration information of the target cell in a physical channel reconfiguration message indicating that the SRNC establishes the radio link with the target cell. The method of claim 8, wherein the radio link setup request message, And a cell ID, a transmission format set for each DCH, a transmission format combination set, frequency information, and an uplink scrambling code. The method of claim 8, wherein the radio link setup response message, And information on an address of a transport layer for a data transport bearer and information on an adjacent cell. In a mobile communication system for a multimedia broadcasting / multicast (MBMS) service, a CELL_DCH terminal located in a hard handover area acquires MBMS paging channel (MICH) configuration information of a target cell. Receiving a physical channel reconfiguration message indicating that the terminal establishes a radio link with the target cell from the serving cell radio network controller (SRNC) as the terminal moves from the serving cell to the target cell; Checking whether MICH configuration information of the target cell is included in the physical channel reconfiguration message; If the MICH configuration information is included, storing the MICH configuration information and starting the MICH reception in the destination cell.

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