WO2011108895A2 - Multicast and broadcast service resource management and method - Google Patents

Abstract

Provided is a method of managing an MBS resource in a multicast and broadcast service. The MBS resource management method comprises: forming a plurality of domains, which include at least one first domain and second domain, by dividing a downlink resource within at least a time domain; allocating said at least one first domain to at least one MBS zone; and allocating said second domain to a unicast domain.

Description

[Correction 13.05.2011 by Rule 26] Method and Apparatus for Multicast and Broadcast Service Resource Management

The present invention relates to a method and apparatus for managing a multicast and broadcast service (MBS) resource.

MBS is a point-to-multipoint transmission method that simultaneously transmits data packets from one source to a plurality of destinations. MBS is also called a multimedia broadcast multicast service (MBMS). In this case, the broadcast service refers to a service transmitted to all users, and the multicast service refers to a service transmitted to a user of a specific group.

In order to support MBS, downlink resources are divided into a unicast region and a multicast region for MBS. To this end, the base station divides the subbands and allocates an area and a unicast area of each MBS zone in the form of subband logical resource units (SLRUs).

In this way, when subbands are allocated to allocate unicast and MBS zones, the number of MBS zones that can be allocated is limited according to the number of subbands.

An object of the present invention is to provide an MBS resource management method and apparatus capable of allocating downlink resources to a large number of MBS zones.

According to one aspect of the present invention, there is provided an MBS resource management method at a base station. The MBS resource management method may include forming a plurality of areas including at least one first area and a second area by dividing downlink resources in at least a time domain, wherein the at least one first area is in at least one MBS zone. Allocating a region, and allocating the second region to a unicast region.

In the forming of the plurality of regions, the plurality of regions may be formed by dividing the downlink resources in the frequency domain in addition to the time domain.

The at least one first region may include a plurality of first regions divided in a time domain, and allocating the at least one first region may include assigning the plurality of first regions to a plurality of MBS zones, respectively. Assigning.

The downlink resource may include a frame including a plurality of subframes, and each of the plurality of first and second regions may include at least one subframe.

The downlink resource may include a superframe including a plurality of frames, and each of the plurality of first and second regions may include at least one frame.

The at least one first region may include a plurality of first regions divided in the time domain and the frequency domain. In this case, allocating the at least one first region may include allocating the plurality of first regions to a plurality of MBS zones, respectively.

The MBS resource management method may further include transmitting information of the plurality of areas to a terminal.

The MBS resource management method may further include transmitting information of the plurality of MBS zones respectively allocated to the plurality of first areas to the terminal.

According to another feature of the present invention, there is provided a MBS resource management method in a terminal. The MBS resource management method includes receiving a message from a base station, and from the message, a downlink resource is divided in at least a time domain and allocated to at least one first region and a unicast region allocated to at least one MBS zone. Identifying a plurality of areas including the second area.

The downlink resources may be divided in the frequency domain in addition to the time domain to form the plurality of regions.

The at least one first region may include a plurality of first regions divided in a time domain, and MBS zones may be allocated to the plurality of first regions, respectively.

The downlink resource may include a frame including a plurality of subframes, and each of the plurality of first and second regions may include at least one subframe.

The downlink resource may include a superframe including a plurality of frames, and each of the plurality of first and second regions may include at least one frame.

The at least one first region may include a plurality of first regions divided in the time domain and the frequency domain, and MBS zones may be allocated to the plurality of first regions, respectively.

The MBS resource management method may further include receiving information on the plurality of MBS zones respectively allocated to the plurality of first areas.

According to another feature of the present invention, there is provided an MBS resource management apparatus of a base station including a control unit and a transmitter. The controller divides a downlink resource in at least a time domain to form a plurality of regions including at least one first region and a second region, and allocates the at least one first region to at least one MBS zone. The second area is allocated to the unicast area. The transmitter transmits the information of the plurality of areas to the terminal.

The controller may divide the downlink resources in the frequency domain in addition to the time domain to form the plurality of regions.

The at least one first region may include a plurality of first regions divided in the time domain. In this case, the controller may allocate the plurality of first regions to a plurality of MBS zones, respectively.

According to another feature of the present invention, there is provided an MBS resource management apparatus of a terminal including a receiver and a controller. The receiver receives a message from a base station. The controller identifies, from the message, a plurality of regions including at least one first region allocated to at least one MBS zone and having a second region allocated to a unicast region by dividing a downlink resource in at least a time domain. .

The downlink resources may be divided in the frequency domain in addition to the time domain to form the plurality of regions.

The at least one first region may include a plurality of first regions divided in a time domain, and a plurality of MBS zones may be allocated to the plurality of first regions, respectively.

According to an embodiment of the present invention, since downlink resources are divided in the time domain and allocated to the MBS zone or divided in the time and frequency domain, the downlink resources are allocated to the MBS zone, and thus, resources can be allocated to a large number of MBS zones.

1 is a flowchart of a method for supporting MBS according to an embodiment of the present invention.

2 to 4 are diagrams illustrating an example of area allocation of downlink resources according to an embodiment of the present invention.

5 is a block diagram of an MBS resource management apparatus of a base station according to an embodiment of the present invention, Figure 6 is a block diagram of an MBS resource management apparatus of a terminal according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, a terminal may be a mobile terminal (MT), a mobile station (MS), a subscriber station (SS), a portable subscriber station (PSS), an access terminal (access) terminal, AT, user equipment (UE), etc., and may include all or part of the functions of the MT, MS, SS, PSS, AT, UE, and the like.

In addition, the base station (BS) is a node B (eB), an evolved node B (eNodeB), an access point (AP), a radio access station (radio access station (RAS)), a base transceiver station may refer to a base transceiver station (BTS), a mobile multihop relay (MMR) -BS, and the like, and may include all or a part of functions of a NodeB, an eNodeB, an AP, a RAS, a BTS, an MMR-BS, and the like.

1 is a flowchart of a method for supporting MBS according to an embodiment of the present invention.

Referring to FIG. 1, the terminal transmits information on the MBS mode supported by the terminal to the base station, and the base station transmits information on the MBS mode supported by the terminal to the terminal (S110). Through this process, the base station and the terminal exchange for MBS capability (capability). In this case, the terminal may transmit the MBS mode information using a registration request (registration request, REQ-REQ) message for the registration request when the network enters or re-entry, the base station is a response message (registration response, REG-REQ message) MBS mode information can be transmitted using a REG-RSP) message. This MBS performance exchange process may be omitted.

Next, the base station transmits a connection establishment request message to the terminal for establishing the MBS connection, and the terminal transmits a response message to the base station (S120). In this case, a dynamic service addition request (DSA-REQ) message may be used as the connection establishment request message, and a dynamic service addition response (DSA-RSP) as a response message to the connection establishment request message. You can use messages. On the other hand, the UE may start the MBS connection establishment request, in this case, the terminal may transmit a DSA-REQ message to the base station, the base station may transmit a DSA-RSP message to the terminal.

The base station periodically transmits the MBS configuration (MBS configuration, MBS-CFG) message, the terminal receives the MBS-CFG message for MBS reception to obtain MBS configuration information (S130). The terminal acquires an MBS MAP having resource information corresponding to the MBS zone to which it belongs based on the MBS configuration information and the area allocation information (S140), and receives the MBS from the base station based on the information of the MBS MAP (S150).

In this case, the MBS-CFG message may be transmitted in a plurality of, for example, 32 superframe periods. The MBS-CFG message is MBS configuration information. MBS Zone ID for each MBS zone, resource information of MBS MAP applied to the MBS zone identifier, burst size information of MBS MAP, and neighbor MBS Zone identifier. ID), mapping information of a current MBS identifier (MBS ID) and a flow identifier (flow ID, FID) between a serving MBS zone and a neighboring MBS zone and a new MBS ID and FID. Here, the resource information of the MBS MAP may be a resource index (MBS MAP Resource Index) indicating the location and allocation size of the MBS MAP resource in the region allocated to the MBS zone, and the burst size information of the MBS MAP is the burst size of the MBS MAP. It may be an offset (MBS MAP I _SizeOffset ) used to calculate. The MBS ID is an identifier assigned to the terminal to receive the MBS, and the FID is an identifier assigned to the MBS connection and is present in pairs with the corresponding MBS ID.

2 and 3 are diagrams illustrating an example of area allocation of downlink resources according to an embodiment of the present invention.

2 and 3, the base station divides downlink resources in the time domain and allocates at least one divided region to the MBS zone. That is, the base station time division multiplexes the downlink resources, and allocates the divided regions to the plurality of MBS zones through time division multiplexing.

In detail, referring to FIG. 2, a superframe consisting of a plurality of frames is divided in frame units in a downlink resource, and at least one frame is allocated to the MBS zone. For example, if one superframe includes four frames, the first to third frames are allocated to one MBS zone (MBS Zone # 1), and the fourth frame is the other MBS zone (MBS zone # 2). Can be assigned to In this case, the base station may transmit the MBS MAP indicating the resource information of the MBS zone through the first region of the resource region corresponding to each MBS zone.

The base station may transmit the information of the time-divided region of the downlink resource (hereinafter referred to as "time-division region information") and the MBS zone ID corresponding to each time-division region information to the terminal, and the time-division region information and the corresponding MBS zone ID are It may be included in the MBS-CFG message periodically broadcast to the terminal. Therefore, the terminal may distinguish the divided areas based on the information included in the previously received MBS-CFG until the new MBS-CFG message is received.

On the other hand, the base station may represent the time division region information in the form of a bitmap. For example, the base station sets the total number of bits of the bitmap of the time division region information to a value obtained by subtracting 1 from the total number of frames included in one superframe, and an area where the i th frame and the (i + 1) th frame are different from each other. If it belongs to, the corresponding bit may be set to "1", and if the i-th frame and the (i + 1) th frame belong to the same area, the corresponding bit may be set to "0". In this case, in the example of FIG. 2, a bitmap of time division region information in one superframe is given as "001".

Referring to FIG. 3, a frame consisting of a plurality of subframes in a downlink resource is divided into subframe units, and at least one subframe is allocated to the MBS zone. For example, if one frame contains eight subframes, the first to third subframes are assigned to one MBS Zone (MBS Zone # 1), and the fourth to sixth subframes are allocated to other MBS zones ( MBS Zone # 2), and the seventh and eighth subframes may be allocated to the unicast zone. The base station may transmit the MBS MAP indicating the resource information of the MBS zone through the first region of the resource region corresponding to each MBS zone.

The base station sets the total number of bits of the bitmap of the time division region information to a value obtained by subtracting 1 from the total number of subframes included in one frame, and the i th subframe and the (i + 1) th subframe are located in different regions. If it belongs, the corresponding bit may be set to "1", and if the i-th subframe and the (i + 1) th subframe belong to the same area, the corresponding bit may be set to "0". In this case, in the example of FIG. 3, a bitmap of time division area information in one frame is given by "0010010".

In this case, the base station may transmit information on the MBS zone corresponding to the combination of time division region information and time division region information to the terminal through an MBS-CFG message. For example, as illustrated in Table 1, the MBS-CFG message includes a bitmap (Zone_Allocation_Bit-MAP_Frame) of time division region information, and information on an MBS zone corresponding to each time division region information, for example, an MBS zone ID. . In Table 1, Num_MBS_Zones_Frame is the number of regions in which frames are divided by time division region information, which is 3 in the example of FIG. 3.

Table 1

Syntax

MBS-CFG_Message_Format () {

Zone_Allocation Bit-MAP_Frame

ZF

for (j = 0; j <Num_MBS_Zones_Frame; j ++) {

MBS Zone ID

MBS MAP Resource Index

MBS MAP I SizeOffset

}

}

In addition, the MBS-CFG message may further include a flag ZF indicating whether the last region is allocated to a service other than the MBS, for example, a unicast service according to the division of the time domain. Accordingly, the UE can know whether the last region is allocated to unicast or MBS zone using the value of this flag (ZF).

In addition, the MBS-CFG may further include information on the MBS MAP applied to each MBS zone ID, for example, resource information of the MBS MAP and burst size information of the MBS MAP. Here, the resource information of the MBS MAP may be a resource index (MBS MAP Resource Index) indicating the location and allocation size of the MBS MAP resource in the region allocated to the MBS zone, and the burst size information of the MBS MAP is the burst size of the MBS MAP. It may be an offset (MBS MAP I _SizeOffset ) used to calculate.

As described above, according to an embodiment of the present invention, since the base station allocates the MBS zone and the unicast region by dividing downlink resources in the time domain instead of the limited frequency domain, a larger number of MBSs are used than in the case of dividing the frequency domain. You can assign resources to zones.

4 is a diagram illustrating an example of area allocation of downlink resources according to an embodiment of the present invention.

Referring to FIG. 4, the base station divides a downlink resource in a time domain and a frequency domain, and allocates each divided region to a corresponding MBS zone. That is, the base station performs time division multiplexing and frequency division multiplexing on the downlink resources in order to allocate the downlink resources to the plurality of MBS zones.

In detail, the base station divides a frequency domain into a plurality of subband regions in a downlink resource and allocates at least one subband region to at least one MBS zone. And when resources for services other than MBS, for example, unicast resources are required, some subband areas are allocated to unicast. The base station also divides at least one subband region in the time domain, and allocates the divided region to the corresponding MBS zone.

For example, as shown in FIG. 4, the frequency domain is divided into 10 subbands, and the first to second subbands (that is, the first subband zone) are allocated to the first MBS zone (MBS Zone # 1). The third to fifth subbands (that is, the second subband zone) are assigned to the second and third MBS zones (MBS Zone # 2, MBS Zone # 3), and the sixth to seventh subbands (that is, third Subband zone) may be assigned to the fourth MBS Zone (MBS Zone # 4) and the eighth to tenth subband (ie, the fourth subband zone) may be assigned to unicast. The third to fifth subbands are divided in the time domain so that the first to third frames are allocated to the second MBS zone (MBS Zone # 2), and the fourth frame is the third MBS zone (MBS Zone # 3). ) Can be assigned.

The base station may transmit the frequency division region information, the time division region information, and the MBS zone information corresponding to the combination of the frequency division region and the time division region information to the terminal through the MBS-CFG message. For example, as exemplified in Table 2, the MBS-CFG message includes a bitmap (Zone_Allocation_Bit-MAP_Freq) of frequency partition information, a bitmap (Zone_Allocation_Bit-MAP_Frame) of time division information, and frequency partition information and time division information. The MBS Zone ID corresponding to the combination is included. In Table 2, Num_MBS_Zones_Freq is the number of areas allocated to the MBS among the areas divided by the frequency division information, and corresponds to three in the example of FIG. In each subband region, Num_MBS_Zones_Frame is the number of regions divided by time division region information, which is 1 in the first subband region, 2 in the second subband region, and 1 in the third subband region.

TABLE 2

Syntax

MBS-CFG_Message_Format () {

Zone_Allocation Bit-MAP_Freq

ZF

for (i = 0; i <Num_MBS_Zones_Freq; i ++) {

Zone_Allocation Bit-MAP_Frame

for (j = 0; j <Num_MBS_Zones_Frame; j ++) {

MBS Zone ID

MBS MAP Resource Index

MBS MAP I SizeOffset

MBS ID and FID Mappings List

}

}

}

In addition, the MBS-CFG message may further include a flag (ZF) indicating whether the last subband area is allocated to a service other than the MBS, for example, a unicast service according to the division of the frequency domain. Accordingly, the UE can know whether the last subband region is allocated to unicast or MBS zone using the value of this flag (ZF). In addition, the MBS-CFG may further include information on MBS MAP applied to each MBS zone ID.

As described above, according to the embodiment shown in FIG. 4, since the base station allocates the MBS zone and the unicast region by dividing downlink resources in the time domain and the frequency domain, a larger number of MBS zones are used than when the frequency domain is divided. You can allocate resources to

Next, an MBS resource management apparatus capable of performing the MBS resource management method according to an embodiment of the present invention will be described with reference to FIGS. 5 and 6.

5 is a block diagram of an MBS resource management apparatus of a base station according to an embodiment of the present invention, Figure 6 is a block diagram of an MBS resource management apparatus of a terminal according to an embodiment of the present invention.

Referring to FIG. 5, the MBS resource management apparatus 500 of the base station includes a controller 510 and a transmitter 520.

The controller 510 divides downlink resources in the time domain and / or the frequency domain, and allocates the divided regions to unicast and / or at least one MBS zone, respectively. The controller generates an MBS-CFG message including time division region information and / or frequency division region information, and MBS zone information corresponding to the divided region. The transmitter 520 transmits the MBS-CFG message to the terminal.

Referring to FIG. 6, the MBS resource management apparatus 600 of the terminal includes a receiver 610 and a controller 620.

The receiver 610 receives an MBS-CFG message transmitted from the base station. The controller 620 decodes the MBS-CFG message to confirm time division region information and / or frequency division region information included in the MBS-CFG message, and MBS zone information corresponding to the divided region, and based on the checked information, Check the information of the MBS zone to which it belongs.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (21)

1. A method for managing a multicast and broadcast service (MBS) resource at a base station,

   Dividing a downlink resource in at least a time domain to form a plurality of regions including at least one first region and a second region,

   Allocating said at least one first region to at least one MBS zone, and

   Allocating the second region to a unicast region

   MBS resource management method comprising a.
2. In claim 1,

   The forming of the plurality of regions may include forming the plurality of regions by dividing the downlink resources in a frequency domain in addition to the time domain.
3. In claim 1,

   The at least one first region includes a plurality of first regions divided in a time domain.

   Allocating the at least one first region comprises allocating the plurality of first regions to a plurality of MBS zones, respectively.

   How to manage MBS resources.
4. In claim 3,

   The downlink resource includes a frame including a plurality of subframes,

   Each of the plurality of first and second regions includes at least one subframe.

   How to manage MBS resources.
5. In claim 3,

   The downlink resource includes a superframe including a plurality of frames,

   Each of the plurality of first and second regions includes at least one frame.

   How to manage MBS resources.
6. In claim 3,

   The at least one first region includes a plurality of first regions divided in the time domain and the frequency domain,

   Allocating the at least one first region comprises allocating the plurality of first regions to a plurality of MBS zones, respectively.

   How to manage MBS resources.
7. In claim 3,

   MBS resource management method further comprising the step of transmitting the information of the plurality of areas to the terminal.
8. In claim 7,

   And transmitting the information of the plurality of MBS zones respectively allocated to the plurality of first areas to the terminal.
9. A method for managing a multicast and broadcast service (MBS) resource in a terminal,

   Receiving a message from a base station, and

   Identifying, from the message, a plurality of regions including at least one first region allocated to at least one MBS zone and having a second region allocated to at least one MBS zone by dividing a downlink resource in at least a time domain;

   MBS resource management method comprising a.
10. In claim 9,

    And the downlink resources are divided in a frequency domain in addition to the time domain to form the plurality of regions.
11. In claim 9,

    The at least one first region includes a plurality of first regions divided in a time domain.

    MBS zones are assigned to the plurality of first regions, respectively.

    How to manage MBS resources.
12. In claim 11,

    The downlink resource includes a frame including a plurality of subframes,

    Each of the plurality of first and second regions includes at least one subframe.

    How to manage MBS resources.
13. In claim 11,

    The downlink resource includes a superframe including a plurality of frames,

    Each of the plurality of first and second regions includes at least one frame.

    How to manage MBS resources.
14. In claim 11,

    The at least one first region includes a plurality of first regions divided in the time domain and the frequency domain,

    MBS zones are assigned to the plurality of first regions, respectively.

    How to manage MBS resources.
15. In claim 11,

    And receiving information on the plurality of MBS zones respectively allocated to the plurality of first areas.
16. An apparatus for managing a multicast and broadcast service (MBS) resource of a base station,

    A downlink resource is divided in at least a time domain to form a plurality of regions including at least one first region and a second region, the at least one first region is allocated to at least one MBS zone, and a unicast region A control unit for allocating the second area to

    Transmitter for transmitting the information of the plurality of areas to the terminal

    MBS resource management device comprising a.
17. The method of claim 16,

    The control unit divides the downlink resources in the frequency domain in addition to the time domain to form the plurality of areas.
18. The method of claim 16,

    The at least one first region includes a plurality of first regions divided in a time domain.

    The control unit allocates each of the plurality of first regions to a plurality of MBS zones.

    MBS Resource Management Device.
19. An apparatus for managing a multicast and broadcast service (MBS) resource of a terminal,

    A receiving unit for receiving a message from the base station, and

    From the message, a control unit for identifying a plurality of areas including at least one first area allocated to at least one MBS zone and a second area allocated to the unicast area by dividing a downlink resource in at least a time domain

    MBS resource management device comprising a.
20. The method of claim 19,

    And the downlink resources are divided in a frequency domain in addition to the time domain to form the plurality of regions.
21. The method of claim 19,

    The at least one first region includes a plurality of first regions divided in a time domain.

    A plurality of MBS zones are respectively assigned to the plurality of first areas.

    MBS Resource Management Device.

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