JP2004236037A - System and method for mobile communication, base station device and radio controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent unwanted resources from being consumed by avoiding overlappingly transmitting one and the same piece of multicast data to one and the same base station in performing multicast communication. <P>SOLUTION: A mobile communication system for transmitting multicast data transferred from a core network 5 through a radio controller (RNC) 4 to a plurality of mobile stations (MS1 to MS3) existing within a sector governed by a base station (Node B) comprises a multicast data managing part 42 which holds sector information being information about the Node B for managing sectors and transferring the multicast data from the RNC 4 to the Node B according to the sector information, and a multicast control managing part 65 which reproduces the multicast data transferred from the multicast data managing part 42 for the number of sectors managed by a self-station and transmits the reproduced multicast data to each sector. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile communication system, a mobile communication method, a base station apparatus, and a radio control apparatus that transmit common information from a single or a plurality of base stations to a plurality of mobile stations.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a mobile communication system, a single or a plurality of radio base station devices belong to a certain group, and a broadcast (Broadcast) transmission for simultaneously transmitting common information to an unspecified number of mobile stations in an area. Multi-cast transmission for transmitting common information to a plurality of mobile stations.
[0003]
In multicast, if a mobile station belonging to a multicast group is present in each area, the mobile station wirelessly controls a multicast data request via a wireless base station device using control information before transmitting multicast data. Notify the device. Then, based on the information, the wireless control device transmits the multicast data to the corresponding area (for example, see Non-Patent Documents 1 and 2).
[0004]
In addition, there is a sectoring technique in which a cell is divided into a plurality of sectors by a plurality of directional antennas in one base station, and this technique has been adopted as an effective frequency utilization technique. In FDMA and TDMA, the number of cells can be reduced with the same number of base stations. On the other hand, in CDMA, since the same frequency is used in adjacent cells, an effect of increasing capacity almost in proportion to the number of sectors can be obtained (for example, , Non-Patent Document 3).
[0005]
[Non-patent document 1]
3rd Generation Partnership Project Project Technical Specification Group Terminals, 23.041, Technical realization of Cell Broadcast Service, October 2000 (CBS)
[0006]
[Non-patent document 2]
3rd Generation Partnership Project Project Technical Specification Group RadioAccess Network, 25.324 Broadcast / Multicast Control BMC, December 2000
[0007]
[Non-Patent Document 3]
"W-CDMA Mobile Communication System", supervised by Maruzen and Keiji Tachikawa, page 200-201
[0008]
[Problems to be solved by the invention]
However, among base stations that transmit multicast data, there is a base station that manages a plurality of sectors with one base station. However, the radio control apparatus regards each sector as an independent cell and, despite being managed by the same base station, transmits the same multicast data from the radio control apparatus to the base station apparatus by the number of sectors, Since the transmission is performed, the same data is transmitted to the same base station redundantly, which causes a problem that unnecessary resources are consumed.
[0009]
Therefore, the present invention has been made in view of the above points, when performing a multicast communication, when the radio control apparatus transmits to a base station that manages a plurality of sectors, the same base station for the same It is an object of the present invention to provide a mobile communication system, a mobile communication method, a base station device, and a radio control device that can avoid redundant transmission of multicast data and prevent unnecessary resources from being consumed. I do.
[0010]
[Means for Solving the Problems]
In order to solve the above problem, the present invention provides a method for transmitting multicast data transferred from a radio network controller to a plurality of mobile stations located in a sector under the control of a base station. From the control device to the base station, transfer one by one to each base station, and in the base station, copy the transferred multicast data for the number of sectors managed by the own station, and copy the copied multicast data to each sector. Send.
[0011]
According to the present invention as described above, even when the same base station (NodeB) manages a plurality of sectors, it is only necessary to transmit one piece of multicast data from the radio control apparatus to the base station. Resources can be saved.
[0012]
Another invention is a sector that is information about a base station that manages a sector when transmitting multicast data transferred from a radio network controller to a plurality of mobile stations located within a sector that is controlled by the base station. The information is held in the wireless control device, the multicast data is transferred from the wireless control device to the base station according to the sector information, and the transferred multicast data is copied by the number of sectors managed by the own station. Send data to each sector.
[0013]
According to such an invention, even when the same base station (NodeB) manages a plurality of sectors, the radio network controller should transmit multicast data to the base station according to the sector information. Since multicast data need only be transferred to the base station that manages the sector, resources can be saved accordingly.
[0014]
Another aspect of the present invention provides a method for transmitting multicast data transferred from a radio network controller to a plurality of mobile stations located in a sector under the jurisdiction of a base station. Holding certain sector information, transferring multicast data from the radio network controller to the base station according to the sector information, acquiring control information requesting transmission of the multicast data from a mobile station located in the cell, , The target to which the multicast data is to be transmitted is determined, the transferred multicast data is copied by the determined number of targets, and the copied multicast data is transmitted to the corresponding sector.
[0015]
According to the present invention as described above, even when the same base station (NodeB) manages a plurality of sectors, it is only necessary to transmit one multicast data from the radio control apparatus to the base station. The resource can be saved correspondingly, and the multicast data is not transferred to the mobile station located in the sector or the sector where the multicast group does not exist. Therefore, the wireless resource can be saved more appropriately.
[0016]
Still another invention provides a mobile communication method for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station, the mobile station being located in a sector. Obtain control information for requesting transmission of multicast data from the mobile station, generate sector information that is information on a base station that manages the sector based on the control information, and transmit the multicast data from the wireless control device according to the sector information. The multicast data is transferred to the base station, sector information is obtained, and the multicast data is copied by the number of objects determined according to the sector information, and the copied multicast data is transmitted to the corresponding sector.
[0017]
According to the present invention as described above, even when the same base station (NodeB) manages a plurality of sectors, it is sufficient that the radio network controller transmits one multicast data to the base station. Since the multicast data is not transferred to the sector where the mobile station or the multicast group does not exist, the wireless resources can be saved more appropriately.
[0018]
In particular, in the present invention, before transferring the multicast data from the radio control apparatus to the base station, the radio control apparatus determines whether or not the mobile station or the multicast group is located in the sector based on the control information. , The multicast data is transferred from the radio network controller to only the base station that manages the sector that requires multicast transmission, so that resources can be more appropriately saved.
[0019]
Another invention is directed to transmitting multicast data transferred from a radio network controller to a plurality of mobile stations located in a sector controlled by a base station. Obtain control information requesting transmission, transfer the multicast data from the radio control device to the base station, one by one for each base station, based on this control information, the multicast transferred from the radio control device The data is copied for the corresponding sector, and the copied multicast data is transmitted to the corresponding sector.
[0020]
According to such an invention, even when the same base station (NodeB) manages a plurality of sectors, it is sufficient for the radio network controller to transmit one multicast data to the base station. In the station, the multicast data is copied and transmitted only for a necessary amount according to the mobile station located in the sector, so that the radio resources can be saved more appropriately.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
(System configuration)
A first embodiment of the present invention will be described. FIG. 1 is an explanatory diagram showing an overall view of the mobile communication system according to the present embodiment.
[0022]
As shown in FIG. 1, the mobile communication system according to the present embodiment includes a radio base station (NodeB) that controls the inside of the cell 10, mobile station devices (MS) 1 to 3 that are located in the cell 10, A control device (RNC: Radio Network Controller) 4.
[0023]
Note that there is a case where only one NodeB is arranged under one RNC and a case where a plurality of NodeBs are arranged. MS1 to 3 also have a case where only one exists under one NodeB, There may be more than one area. Here, it is assumed that one NodeB is arranged under one RNC, and a plurality of MSs 1 to 3 are located under the NodeB. In the present embodiment, it is assumed that all of the MSs 1 to 3 belong to the same multicast group.
[0024]
NodeB is, for example, a relay station such as a radio base station, and as shown in FIG. , And communicates with the mobile stations MS1 to MS3 located in the sectors # 1 to # 3 through the array antennas B1 to B3.
[0025]
Further, NodeB includes a wireless base station device 6. FIG. 3 is a block diagram illustrating functions of the wireless base station device 6 according to the present embodiment. As shown in FIG. 3, the wireless base station device 6 includes a wireless transceiver 61, a wireless transceiver 62, and a wireless transceiver 63 as wireless transceivers corresponding to the sectors # 1 to # 3, respectively. And a data receiving unit 64 and a multicast control managing unit 65.
[0026]
The wireless transmission / reception units 61 to 63 are modules for transmitting / receiving data to / from the MSs 1 to 3 located in each sector via directional beam transmission / reception by the array antennas B1 to B3. Transmits and receives data to and from the RNC 4 through the data receiving unit 64. The data receiving unit 64 is a module that transmits and receives various data including multicast data to and from the RNC 4, and is connected to the multicast control management unit 65. The multicast control management unit 65 is a module that copies the multicast data received from the RNC 4 by the number of sectors and transfers the data to the sectors # 1 to # 3 via the wireless transmission / reception units 61 to 63.
[0027]
The RNC 4 is connected to a plurality of wireless base stations via a wired or wireless transmission path, and is also connected to another network via the core network 5. The RNC 4 includes a data transmission / reception unit 41 and a multicast data management unit 42, as shown in FIG. The data transmission / reception unit 41 is a module that transmits and receives data to and from NodeB. The multicast data management unit 42 is a module that receives multicast data from the core network 5 and transmits only one multicast data to each connected NodeB.
[0028]
(System operation)
The operation of the mobile communication system according to the present embodiment having the above configuration will be described. FIG. 4 is a sequence diagram illustrating an operation of the mobile communication system according to the first embodiment.
[0029]
As shown in FIG. 4, first, when multicast data is transferred from the core network 5 (S101 and S102), one multicast data is transferred to each NodeB via the data transmitting / receiving unit 41 by the multicast data management unit 42 in the RNC 4. (S103).
[0030]
Next, the NodeB that has received the multicast data by the data receiving unit 64 (S104) uses the multicast control management unit 65 to copy the multicast data to the number of sectors (here, three sectors) managed by the NodeB (here, three sectors). (S105), the copied multicast data is transferred to each sector via each wireless transmission / reception unit 61 (S106).
[0031]
According to such a mobile communication system according to the present embodiment, even when the same base station (NodeB) manages a plurality of sectors # 1 to # 3, the RNC 4 sends the information to the radio base station device 6. Since only one multicast data needs to be transmitted, resources can be saved correspondingly.
[0032]
[Second embodiment]
(System configuration)
Next, a second embodiment of the present invention will be described. FIG. 5 is a block diagram illustrating functions of the radio base station device 6 and the RNC 4 according to the present embodiment. As in the first embodiment described above, the mobile communication system according to the present embodiment includes a radio base station (NodeB) that controls the inside of the cell 10 and mobile station devices (MS) 1 to 3 that are located in the cell 10. , RNC 4 connected to the core network. In particular, the second embodiment is characterized in that, as shown in FIG. 5, a sector management unit 66 is provided in the wireless base station device 6 provided in the NodeB.
[0033]
The sector management unit 66 has information on sectors # 1 to # 3 managed by the NodeB, and is a module that determines a sector to which multicast data should be transferred based on the sector information. The decision made by the sector management unit 66 is output to the multicast control management unit 65. In the present embodiment, the multicast control management unit 65 copies the multicast data received from the RNC 4 and transfers it to each sector according to the determination by the sector management unit 66.
[0034]
(System operation)
The operation of the mobile communication system according to the present embodiment having the above configuration will be described. FIG. 6 is a sequence diagram illustrating an operation of the mobile communication system according to the second embodiment.
[0035]
As shown in FIG. 6, first, when multicast data is transferred from the core network 5 (S201), the multicast data is received by the multicast data management unit 42 in the RNC 4 (S202), and the multicast data management unit 42 One multicast data is transferred to the NodeB (S203).
[0036]
Next, the NodeB receiving the multicast data by the data receiving unit 64 (S204) recognizes the sector managed by the NodeB by referring to the sector information held in the sector management unit 66 (S205). Then, a sector to which multicast data is to be transmitted is determined (S206). Here, it is determined that sectors # 1 to # 3 should transmit to NodeB. Then, the multicast control management unit 65 copies the multicast data for the number of sectors (here, three sectors) managed by the NodeB (S207), and transmits the copied multicast data through the respective wireless transmission / reception units 61. Is transferred to each sector (S208).
[0037]
According to such a mobile communication system according to the present embodiment, even when the same base station (NodeB) manages a plurality of sectors # 1 to # 3, the RNC 4 sends the information to the radio base station device 6. Since only one multicast data needs to be transmitted, resources can be saved correspondingly. In particular, in the present embodiment, the sector managed by the own station can be quickly recognized according to the sector information, and the processing can be speeded up.
[0038]
[Third embodiment]
(System configuration)
Next, a third embodiment of the present invention will be described. 7 and 8 are block diagrams illustrating functions of the radio base station device 6 and the RNC 4 according to the present embodiment.
[0039]
The mobile communication system according to the present embodiment includes a radio base station (NodeB) that controls the inside of the cell 10 and a mobile station device (MS) located in the cell 10 as in the first and second embodiments described above. ) 1-3 and an RNC 4 connected to the core network.
[0040]
In the present embodiment, the wireless transmission / reception units 61 to 63 are modules for transmitting / receiving data to / from the MSs 1 to 3 located in each sector via directional beam transmission / reception by the array antennas B1 to B3. The transmission / reception units 61 to 63 transmit / receive data to / from the RNC 4 via the data reception unit 64. The data receiving unit 64 is a module that transmits and receives various data including multicast data to and from the RNC 4, and is connected to a multicast control management unit 65 '. The multicast control management unit 65 'is a module for copying the multicast data received from the RNC 4 and transferring the data to each of the sectors # 1 to # 3 via the wireless transmission / reception units 61 to 63.
[0041]
The RNC 4 is connected to a plurality of wireless base stations via a wired or wireless transmission path, and is also connected to another network via the core network 5. FIG. 8 is a block diagram illustrating functions of the RNC 4 of the mobile communication system according to the present embodiment.
[0042]
As shown in FIG. 8, the RNC 4 includes a data transmission / reception unit 41 and a multicast data management unit 42 '. The data transmission / reception unit 41 is a module that transmits and receives data to and from NodeB. The multicast data management unit 42 'receives the multicast data from the core network 5, holds the sector information of the sector managed by the connected NodeB, and performs one multicast for each NodeB according to the sector information. A module for transmitting data.
[0043]
(System operation)
The operation of the mobile communication system according to the present embodiment having the above configuration will be described. FIG. 9 is a sequence diagram illustrating an operation of the mobile communication system according to the third embodiment.
[0044]
As shown in FIG. 9, first, when multicast data is transferred from the core network 5 (S301), the multicast data is received by the multicast data management unit 42 'in the RNC 4 (S302), and the multicast data management unit 42' By referring to the sector information stored in the RNC 4 (S303), a sector managed by the NodeB connected to the RNC 4 is recognized (S304). Here, it is recognized that sectors # 1 to # 3 are managed by NodeB. Then, one multicast data is transferred to the NodeB for the recognized sector through the data transmitting / receiving unit 41 (S305).
[0045]
Next, the NodeB receiving the multicast data by the data receiving unit 64 (S306) copies the multicast data to the number of sectors (here, three sectors) managed by the NodeB by the multicast control management unit 65 '. (S307), the copied multicast data is transferred to each sector via each wireless transmission / reception unit 61 (S308).
[0046]
According to such a mobile communication system according to the present embodiment, even when the same base station (NodeB) manages a plurality of sectors # 1 to # 3, the RNC 4 sends the information to the radio base station device 6. Since only one multicast data needs to be transmitted, resources can be saved correspondingly.
[0047]
[Fourth embodiment]
Next, a fourth embodiment of the present invention will be described. In this embodiment, as shown in FIG. 10, MS1 is located in sector # 1, MS2 and 3 are located in sector # 2, and MS2 and 3 located in sector # 2 are multicast. It is assumed that a multicast group for receiving a service is formed, and no multicast group exists in sector # 3.
[0048]
As in the first embodiment described above, the mobile communication system according to the present embodiment includes a radio base station (NodeB) that controls the inside of the cell 10 and mobile station devices (MS) 1 to 3 that are located in the cell 10. , RNC 4 connected to the core network. In particular, in the fourth embodiment, as shown in FIG. 11, the wireless base station device 6 provided in the NodeB is characterized in that the sector management unit 66 is provided.
[0049]
The sector management unit 66 obtains the control information of the multicast data request from the MSs 1 to 3 located in the sectors # 1 to # 3 managed by the NodeB, and determines the sector to which the multicast data is to be transferred from the control information. This is the module to be determined. The decision made by the sector management unit 66 is output to the multicast control management unit 65. In the present embodiment, the multicast control management unit 65 copies the multicast data received from the RNC 4 and transfers it to each sector according to the determination by the sector management unit 66.
[0050]
(motion)
The operation of the mobile communication system according to the fourth embodiment having the above configuration will be described. FIG. 12 is a sequence diagram illustrating an operation of the mobile communication system according to the fourth embodiment.
[0051]
As shown in FIG. 12, first, when multicast data is transferred from the core network 5 (S401), the multicast data is received by the multicast data management unit 42 in the RNC 4 (S402), and held in the multicast data management unit 42. The sector managed by the NodeB connected to the RNC 4 is recognized by referring to the sector information (S403). Here, it is recognized that sectors # 1 to # 3 are managed by NodeB. Then, one multicast data is transferred to the NodeB for the recognized sector through the data transmitting / receiving unit 41 (S405).
[0052]
Next, in the NodeB receiving the multicast data by the data receiving unit 64 (S406), the sector management unit 66 should transfer the multicast data based on the data request control information acquired by one of the wireless transmitting / receiving units 61 to 63. The sector is determined (S407 and S408). Here, MS1 is located in sector # 1, and MS2 and MS3 located in sector # 2 form multicast group G1, so that radio transmission / reception units 61 and 62 receive control information of the data request. The control information of the data request is not received by the wireless transmitting / receiving unit 63, and based on this, the sector managing unit 66 transfers the multicast data from the wireless transmitting / receiving unit 61 and the wireless transmitting / receiving unit 62 to the sectors # 1 and # 2. To decide.
[0053]
Then, the multicast control management unit 65 copies the multicast data for the required number of sectors (here, two sectors) in accordance with the determination of the sector management unit 66 (S409), and copies the data through the wireless transmission / reception units 61 and 62. The transmitted multicast data is transferred to the respective sectors # 1 and # 2 (S410).
[0054]
According to such a mobile communication system according to the present embodiment, even when the same base station (NodeB) manages a plurality of sectors # 1 to # 3, the RNC 4 sends the information to the radio base station device 6. Since only one multicast data needs to be transmitted, resources can be saved by that much, and furthermore, the multicast data is not transferred to the sector where the multicast group does not exist, so that the radio resources can be saved more appropriately. Can be.
[0055]
[Fifth Embodiment]
Next, a fifth embodiment of the present invention will be described. In this embodiment, similarly to the above-described fourth embodiment, MS1 is located in sector # 1, MS2 and 3 are located in sector # 2, and MS2 and 3 are located in sector # 2. Form a multicast group for receiving the multicast service, and there is no multicast group in sector # 3.
[0056]
As in the first to fourth embodiments, the mobile communication system according to the present embodiment includes a radio base station (NodeB) that has jurisdiction over the cell 10 and mobile station devices (MS) 1 to 1 that are located within the cell 10. 3 and an RNC 4 connected to the core network.
[0057]
In particular, in the fifth embodiment, as shown in FIG. 13, the sector management unit 66 provided in the radio base station apparatus 6 in the fourth embodiment described above is provided as a sector management unit 43 on the RNC 4 side. The multicast control management unit 65 has a function of transferring the control information of the data request to the RNC 4 and sector information for notifying the sector to which the multicast data is to be transferred from the RNC 4. And a function of transferring multicast data only to
[0058]
That is, the sector management unit 43 of the RNC 4 according to the present embodiment receives, via the data transmission / reception unit 41, data request control information including the content of whether or not a multicast group exists from each NodeB, and includes the information in the information. It has a function of determining a sector to which multicast data is to be transferred based on the data and transferring the determined data to the NodeB as sector information.
[0059]
(motion)
An operation of the mobile communication system according to the fifth embodiment having the above configuration will be described. FIG. 14 is a sequence diagram illustrating an operation of the mobile communication system according to the fifth embodiment.
[0060]
First, when multicast data is transferred from the core network (S501), the multicast data is received by the multicast data management unit 42 in the RNC 4 (S502), and the sector management unit 43 acquires sector information from NodeB (S504). ). Prior to this step S504, the NodeB receives the control information of the data request from the mobile station located in each sector and transfers it to the RNC 4 (S503). Here, MS1 is located in sector # 1, and MS2 and MS3 located in sector # 2 form multicast group G1, so that radio transmission / reception units 61 and 62 receive control information of the data request. The control information of the data request is not received by the wireless transmission / reception unit 63, and the multicast control management unit 65 transfers the received data request control information to the RNC 4 based on this.
[0061]
Then, the sector management unit 43 of the RNC 4 determines the sectors # 1 and # 2 to which the multicast data is to be transferred based on the transferred data request control information, and transfers the sector information to the NodeB (S505 to S507). ).
[0062]
Further, the RNC 4 refers to the sector information (S508) to recognize the sector managed by the NodeB connected to the RNC 4 (S509). Here, it is recognized that sectors # 1 to # 3 are managed by NodeB. Then, one multicast data is transferred to the NodeB for the recognized sector through the data transmitting / receiving unit 41 (S510).
[0063]
Next, in the NodeB receiving the multicast data by the data receiving unit 64 (S511), based on the sector information received in step S507, the multicast control management unit 65 copies the multicast data by the required number of sectors (S512). ). Here, the MS1 is located in the sector # 1, and the MSs 2 and 3 located in the sector # 2 form the multicast group G1. Based on this, the multicast control management unit 65 transmits the multicast data wirelessly. Duplication for two sectors is performed so that the transmission / reception unit 61 and the radio transmission / reception unit 62 transfer the data to the sectors # 1 and # 2.
[0064]
Then, the copied multicast data is transferred to the respective sectors # 1 and # 2 through the respective wireless transmission / reception units 61 and 62 (S513).
[0065]
According to such a mobile communication system according to the present embodiment, even when the same base station (NodeB) manages a plurality of sectors # 1 to # 3, the RNC 4 sends the information to the radio base station device 6. Since only one piece of multicast data needs to be transmitted, and the multicast data is not transferred to a sector in which no multicast group exists, wireless resources can be saved more appropriately.
[0066]
In particular, in the fifth embodiment, before the multicast data is transferred from the RNC 4 to the NodeB, the RNC 4 determines whether or not the MS or the multicast group G1 is located in the sector based on the control information, based on the control information. As a result, the multicast data is transferred from the RNC 4 only to the NodeB that manages the sector requiring the multicast transmission, so that the resources can be more appropriately saved.
[0067]
【The invention's effect】
As described above, according to the mobile communication system, the mobile communication method, the base station device, and the radio control device of the present invention, when performing multicast communication, the radio control device transmits to the base station that manages a plurality of sectors. In this case, one multicast data is transmitted to one base station, and the same multicast data is redundantly transmitted to the same base station by copying and transferring the data to each sector on the base station side. Can be avoided, and unnecessary resources can be prevented from being consumed.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an overall view of a mobile communication system according to a first embodiment.
FIG. 2 is an explanatory diagram showing a sector configuration of the mobile communication system according to the first embodiment.
FIG. 3 is a block diagram illustrating functions of a radio base station device and an RNC of the mobile communication system according to the first embodiment.
FIG. 4 is a sequence diagram showing an operation of the mobile communication system in the first embodiment.
FIG. 5 is a block diagram showing functions of a radio base station device and an RNC of a mobile communication system according to a second embodiment.
FIG. 6 is a sequence diagram showing an operation of the mobile communication system in the second embodiment.
FIG. 7 is a block diagram illustrating functions of a wireless base station device according to a third embodiment.
FIG. 8 is a block diagram showing functions of an RNC of the mobile communication system according to the third embodiment.
FIG. 9 is a sequence diagram showing an operation of the mobile communication system in the third embodiment.
FIG. 10 is an explanatory diagram showing a sector configuration of a mobile communication system according to a fourth embodiment.
FIG. 11 is a block diagram illustrating functions of a wireless base station device according to a fourth embodiment.
FIG. 12 is a sequence diagram showing an operation of the mobile communication system according to the fourth embodiment.
FIG. 13 is a block diagram showing functions of a radio base station device and an RNC of a mobile communication system according to a fifth embodiment.
FIG. 14 is a sequence diagram showing an operation of the mobile communication system according to the fifth embodiment.
[Explanation of symbols]
# 1 to # 3 ... sectors
B1 to B3: Array antenna
G1: Multicast group
1-3 ... MS (mobile station)
4: RNC (Radio controller)
5 ... Core network
6 ... Wireless base station device
10 ... cell
41: Data transmission / reception unit
42 ... Multicast data management unit
43 ... Sector management unit
61 to 63: wireless transmission / reception unit
64: Data receiving unit
65 Multicast control management unit
66 ... Sector management unit

Claims (17)

A mobile communication system for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
A multicast data management unit for transferring the multicast data from the radio network controller to the base station, one for each base station,
Mobile communication, comprising: a multicast control management unit for copying the multicast data transferred from the multicast data management unit for the number of sectors managed by the own station and transmitting the copied multicast data to each sector. system. A mobile communication system for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
A sector management unit that holds sector information that is information on a base station that manages the sector, and determines a target to which multicast data is to be transmitted based on the sector information;
A multicast control management unit for copying the multicast data transferred from the multicast data management unit for the number of objects determined by the sector management unit, and transmitting the copied multicast data to a corresponding sector. Mobile communication system. A mobile communication system for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
A multicast data management unit that holds sector information that is information about a base station that manages the sector, and transfers the multicast data according to the sector information from the wireless control device to the base station.
Sector management unit that obtains control information requesting transmission of multicast data from a mobile station located in the sector, and determines a target to transmit multicast data based on the control information;
A multicast control management unit for copying the multicast data transferred from the multicast data management unit for the number of objects determined by the sector management unit, and transmitting the copied multicast data to a corresponding sector. Mobile communication system. A mobile communication system for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
A sector management unit that obtains control information requesting transmission of multicast data from a mobile station located in the sector, and generates sector information that is information on a base station that manages the sector based on the control information; ,
According to the sector information, a multicast data management unit that transfers the multicast data from the wireless control device to a base station,
Multicast control management for acquiring the sector information, copying the multicast data transferred from the multicast data management unit for the number of objects determined according to the sector information, and transmitting the copied multicast data to a corresponding sector. And a mobile communication system. A mobile communication system for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
A multicast data management unit for transferring the multicast data from the radio network controller to the base station, one for each base station,
Obtain control information requesting transmission of multicast data from a mobile station located in the sector, and based on this control information, copy the multicast data transferred from the multicast data management unit for the corresponding sector. And a multicast control management unit for transmitting the copied multicast data to a corresponding sector. A mobile communication method for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
(1) transferring the multicast data from the radio network controller to the base station one by one for each base station;
Copying the transferred multicast data by the number of sectors managed by the own station, and transmitting the copied multicast data to each sector (2). A mobile communication method for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
(1) holding sector information that is information on a base station that manages the sector, and transferring the multicast data from the radio network controller to the base station according to the sector information;
Copying the transferred multicast data by the number of sectors managed by the own station, and transmitting the copied multicast data to each sector (2). A mobile communication method for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
(1) holding sector information that is information on a base station that manages the sector, and transferring the multicast data from the radio network controller to the base station according to the sector information;
(2) obtaining control information for requesting transmission of multicast data from a mobile station located in the cell, and determining a target to which the multicast data is to be transmitted based on the control information;
Copying the transferred multicast data for the number of objects determined in step (2) and transmitting the copied multicast data to a corresponding sector (3). . A mobile communication method for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
Acquiring control information requesting transmission of the multicast data from a mobile station located in the sector, and generating sector information, which is information on a base station managing the sector, based on the control information (1) )When,
(2) transferring the multicast data from the radio network controller to a base station according to the sector information;
Acquiring the sector information, copying the multicast data transferred in the step (2) by the number of objects determined according to the sector information, and transmitting the copied multicast data to a corresponding sector (3). A) a mobile communication method comprising: A mobile communication method for transmitting multicast data transferred from a wireless control device to a plurality of mobile stations located in a sector controlled by a base station,
(1) in the base station acquiring control information requesting transmission of multicast data from a mobile station located in the sector;
(2) transferring the multicast data from the radio network controller to the base station one by one for each base station;
(3) copying the multicast data transferred from the wireless control device for a corresponding sector based on the control information, and transmitting the copied multicast data to a corresponding sector. Mobile communication method. A base station device that transmits the multicast data transferred from the wireless control device to a plurality of mobile stations located in a sector under the control of the own station,
A base station apparatus, comprising: a multicast control management unit that copies the multicast data transferred from the wireless control apparatus for the number of sectors managed by the own station and transmits the copied multicast data to each sector. A base station device that transmits the multicast data transferred from the wireless control device to a plurality of mobile stations located in a sector under the control of the own station,
A data receiving unit that receives the multicast data transferred from the wireless control device according to sector information that is information about a base station that manages the sector,
A base station, comprising: a multicast control manager for copying the multicast data transferred from the multicast data manager for the number of sectors managed by the own station, and transmitting the copied multicast data to each sector. apparatus. A base station device that transmits the multicast data transferred from the wireless control device to a plurality of mobile stations located in a sector under the control of the own station,
According to the sector information that is information about the base station that manages the sector, a data receiving unit that receives the multicast data transferred from the wireless control device,
Acquiring control information requesting transmission of multicast data from a mobile station located in the sector, based on the control information, a sector management unit that determines a target to transmit the multicast data,
A multicast control management unit for copying the multicast data transferred from the multicast data management unit for the number of objects determined by the sector management unit and transmitting the copied multicast data to each corresponding sector. Base station device. A base station device that transmits the multicast data transferred from the wireless control device to a plurality of mobile stations located in a sector under the control of the own station,
According to control information requesting transmission of the multicast data from a mobile station located in the sector, and the sector information which is information on a base station managing the sector, the multicast data transferred from the radio control device, A data receiving unit for receiving,
A multicast control management unit that acquires the sector information from the wireless control device, duplicates the multicast data for the number of objects determined according to the sector information, and transmits the duplicated multicast data to a corresponding sector. A base station device comprising: A wireless control device for controlling a base station that transmits multicast data to a plurality of mobile stations located in a sector,
A wireless control apparatus, comprising: a multicast data management unit that transfers the multicast data to each base station one by one to a base station that manages a sector to which the multicast data is to be transmitted. A wireless control device for controlling a base station that transmits multicast data to a plurality of mobile stations located in a sector,
It has a multicast data management unit that holds sector information that is information on a base station that manages the sector, and transfers the multicast data to a base station that manages a sector to which the multicast data is to be transmitted according to the sector information. A wireless control device characterized by the following. A wireless control device for controlling a base station that transmits multicast data to a plurality of mobile stations located in a sector,
Acquire control information requesting transmission of multicast data from a mobile station located in the sector, based on this control information, generate and hold sector information that is information about the base station that manages the sector, A sector management unit for transmitting the generated sector information to the base station;
A wireless control device, comprising: a multicast data management unit that transfers the multicast data to a base station that manages a sector to which the multicast data is to be transmitted according to the sector information.

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