JP4913785B2 - Management server - Google Patents

Description

  The present invention relates to a management server that performs management for distributing content to a base station and a repeater, and more particularly to distribution of content in a repeater.

WiMAX has a service called MCBCS (Multi Cast Broad Cast Service).
FIG. 13 is a system diagram showing a system configuration of a communication system for explaining MCBCS in WiMAX. MCBCS is a service for transmitting information to a predetermined zone, and the zone is associated with one or more base stations installed in the zone.

As illustrated in FIG. 13, the communication system includes an ASN-GW (Access Service Network-Gateway) server 400, base stations (BSs) 101 to 107, repeaters 201 to 204, and wireless terminals 301 to 101. 303. The number of base stations, repeaters, and wireless terminals shown here is an example, and the number is not limited to this number.
Each base station 101-107 is mutually connected via the network.

The repeater 201 is communicating with the base station 102 by establishing synchronization. The repeater 202 establishes communication with the base station 103 and communicates. The repeater 203 establishes synchronization with the base station 104 and communicates. The repeater 204 establishes synchronization with the base station 105 and communicates.
The wireless terminal 301 establishes communication with the base station 103 for communication. The wireless terminal 302 establishes synchronization with and communicates with the repeater 202. The wireless terminal 303 is communicating with the repeater 204 by establishing synchronization.

The ASN-GW server 400 maintains a BSID (Base Station IDentifier) list, and distributes content designated by the operator to each zone to each base station classified into each zone in the BSID list.
In the system diagram shown in FIG. 1, the zone to which the BSs 101 to 103 belong is Zone001, and the zone to which the BSs 104 to 107 belong is Zone002. For example, content A is distributed to Zone001, and content B is distributed to Zone002.

Zones are classified based on the BSID list stored in the ASN-GW server 400 that distributes information, and it is possible to realize distribution of different information to each zone.
Non-Patent Document 1 and Non-Patent Document 2 describe MCBCS.
Takeshi Hattori / Masayoshi Fujioka edited by Impress standard textbook series Revised wireless broadband textbook High-speed IP wireless edition, Japan, published by Impress R & D Co., Ltd. Edited by Takashi Shono, Impress Standard Textbook Series, WiMAX Textbook, Japan, Impress R & D Co., Ltd.

By the way, conventionally, since a zone can be specified only in units of radio base stations, there is a problem that information by MCBCS cannot be distributed to a radio terminal by specifying a more detailed zone.
Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a management server that manages a distribution destination of contents so that a zone can be set more finely when distributing information by MCBCS.

In order to solve the above problems, the present invention is a management server for managing a content distribution destination in a communication system including a management server, a plurality of base stations, a plurality of repeaters, and a wireless terminal. Each of the base stations is a repeater that manages the transmitted content data by its own base station, and a wireless terminal that is managed by the own base station when the transmitted content data is addressed to its own base station. When each of the repeaters is transmitted to the own device, the repeater transmits the content data to the wireless terminal managed by the own device, and changes the communication destination base station as it moves. is intended to perform a handover, the management server may be those that are referred to when distributing content data, define a region in which content is delivered Each over emissions, accepts a storage means for storing a distribution list that associates repeater that establishes synchronization with the base station and the base station, the execution information indicating that repeater from the base station has performed handover Update that updates the distribution list so that the repeater belongs to the same zone as the base station that has established synchronization with the receiver, and the receiver indicated by the execution information is deleted from the previous zone. Means .

  With the configuration as described above, the management server holds a distribution list including repeater information, so that the distribution list is referred to, for example, by a content distribution server that distributes content, so that the base station unit The content can be distributed more finely in units of base stations and repeaters.

Hereinafter, an ASN-GW server which is an embodiment of the management server of the present invention will be described with reference to the drawings.
<Embodiment>
<Configuration>
FIG. 1 is a system diagram showing a system configuration of a communication system.

The communication system includes base stations 101 to 107, repeaters 201 to 204, wireless terminals 301 to 303, and an ASN-GW server 400. The number of base stations, repeaters, and wireless terminals shown here is only an example, and in actuality, there may be thousands or tens of thousands.
Each base station 101 to 107 is connected to a network including the ASN-GW server 400. Further, the base stations 101 to 103 belong to Zone 001 which is a zone to which content is distributed by MCBCS, and the base stations 104 to 107 belong to Zone 002.

The repeater 201 is communicating with the base station 102 by establishing synchronization. The repeater 202 establishes communication with the base station 103 and communicates. The repeater 203 establishes synchronization with the base station 104 and communicates. The repeater 204 establishes synchronization with the base station 105 and communicates.
The wireless terminal 301 establishes communication with the base station 103 for communication. The wireless terminal 302 establishes synchronization with and communicates with the repeater 202. The wireless terminal 303 is communicating with the repeater 204 by establishing synchronization.

In the system diagram shown in FIG. 1, the base stations 101 to 103 belong to Zone 001. The base stations 104 to 107 belong to Zone 002.
In the following description, the base station may be described as BS, the repeater as RS, and the wireless terminal as MS. In addition, it is assumed that the base station, repeater, and wireless terminal have the conventional basic functions, and in this embodiment, features of the invention will be described mainly.

FIG. 2 is a functional block diagram showing the functional configuration of the base station. Each base station has the same functional configuration. Here, the base station 103 will be described as an example.
FIG. 2 is a functional block diagram showing a functional configuration of the base station 103. As shown in FIG. 2, the base station 103 includes an upper communication unit 110, a control unit 120, a lower communication unit 130, and a storage unit 140.

  The upper communication unit 110 is connected to a network and has a function of executing communication with other base stations. In addition, it has a function of transmitting a signal addressed to a wireless terminal registered in the base station received from another base station to the lower communication unit 130 and a function of outputting the signal transmitted from the lower communication unit 130 to the network. . Moreover, it has the function to receive the content data by MCBCS from the ASN-GW server 400 via a network. Further, the upper communication unit 110 has a function of transmitting the synchronization establishment information or the synchronization cancellation information to the ASN-GW server 400 when the synchronization establishment information or the synchronization cancellation information is received from the lower communication unit 130.

The control unit 120 has a function of controlling each unit of the base station 103.
The lower communication unit 130 includes an antenna 131 and has a function of executing communication with the wireless terminal and the repeater. The lower-level communication unit 130 is connected to the DL-MAP including information necessary for communication in the preamble and downlink directions for each frame in order to establish synchronization with the repeater and the wireless terminal via the antenna 131, and It transmits by including UL-MAP including information such as frequency necessary for communication in the link direction. In addition, the lower-level communication unit 310 determines that the signal transmitted from the higher-level communication unit 110 is content data by MCBCS from the ASN-GW server 400 and the received signal is addressed to the own station. Send to a wireless terminal communicating with the station. Moreover, even if it is not addressed to the own station, content data to be MCBCS is transmitted to a repeater communicating with the own station.

  Further, when establishing synchronization with a new repeater, the lower-level communication unit 130 has a function of transmitting synchronization establishment information including information on the repeater to the higher-level communication unit 110 indicating that new synchronization has been established. . In addition, when the synchronization with the communicating repeater is released, the lower-level communication unit 130 transmits the synchronization release information indicating that the synchronization has been released, including information on the repeater, to the higher-level communication unit 110. Also have.

  The storage unit 140 has a function of storing programs and data necessary for the operation of the base station 101 and stores a neighbor list 141. The neighbor list 141 is information indicating information on base stations and repeaters that are referred to as handover destination candidates when a wireless terminal or repeater with which the base station 101 has established synchronization performs handover to another base station. is there.

The above is the description of the base station 101.
FIG. 3 is a functional block diagram showing the functional configuration of the repeater. Each repeater has the same functional configuration. Here, the repeater 202 will be described as an example.
FIG. 3 is a functional block diagram showing a functional configuration of the repeater 202. As shown in FIG. 3, the repeater 202 includes a donor unit 210 and a remote unit 220. The donor unit 210 has a function of executing communication with the base station 103. The remote unit 220 has a function of executing communication with the wireless terminal 301. The donor unit 210 and the remote unit 220 operate with the same clock supplied.

The donor unit 210 includes a first communication unit 211 and an activation control unit 214.
The first communication unit 211 includes an antenna 212 and a first synchronization establishment unit 213. The first communication unit 211 has a function of communicating with a base station via the antenna 212. The first communication unit 211 has a function of transmitting a signal received from the base station via the antenna 212 to the remote unit 220. Further, it has a function of transmitting a signal transmitted from the remote unit 220 to the base station via the antenna 212. Also, the first communication unit 211 has a function of transmitting to the second communication unit 221 when the signal received from the base station is content data by MCBCS and includes information specifying the address of the own repeater. Have. If the received signal is content data by the MCBCS and does not include information specifying the address of the own repeater, the received signal is discarded. However, when communicating with another repeater, the data is transmitted to the second communication unit 221 in order to transmit content data based on MCBCS to the repeater. Further, the first communication unit 211 performs handover to the communicating base station when it becomes difficult to execute communication with the base station, that is, when the error occurrence rate in the communication is higher than a predetermined threshold. Has a function of executing a handover when a request for executing the request is received and a permission signal for the request is received.

  The first synchronization establishing unit 213 holds a reference signal of the preamble, and in a state where synchronization with the base station is not established, a signal that matches the reference signal held among the signals received by the first communication unit Based on the MAP information (including information such as downlink frequency band, downlink burst allocation, uplink frequency band, uplink burst allocation, etc.) following the preamble, by detecting and identifying the preamble Has the function of establishing synchronization with.

The activation control unit 214 establishes synchronization with the base station by the first synchronization establishment unit 213, converts the timing when the preamble arrives from the base station and its period into the timing and period in its own operation clock, and converts the timing and period The second synchronization establishment unit 223 is notified, and the transmission of a frame including a preamble necessary for synchronization is instructed.
The remote unit 220 includes a second communication unit 221.

  The second communication unit 221 includes an antenna 222 and a second synchronization establishment unit 223. The second communication unit 221 has a function of executing communication with a wireless terminal connected to the remote unit via the antenna 222. The second communication unit 221 has a function of transmitting the signal transmitted from the first communication unit 211 to a wireless terminal designated via the antenna 222. In addition, it has a function of transmitting a signal received via the antenna 222 to the first communication unit 211.

  The second synchronization establishing unit 223 generates a preamble and MAP information to be included in each frame by the second communication unit 221 so that the preamble is transmitted at the same timing as the timing instructed from the activation control unit 214. The second communication unit 221 transmits a signal including the generated information at a timing notified from the activation control unit 214. When the preamble and the MAP information are received by the wireless terminal, various synchronization procedures are started, and the second synchronization establishing unit 223 negotiates with the wireless terminal as necessary to establish synchronization.

The above is the description of the repeater 202.
FIG. 4 is a functional block diagram illustrating a functional configuration of the wireless terminal. Each wireless terminal has the same functional configuration, and here, the wireless terminal 301 will be described as an example.
As illustrated in FIG. 4, the wireless terminal 301 includes a communication unit 310, a display unit 320, an audio processing unit 330, an operation unit 340, a storage unit 350, and a control unit 360.

  The communication unit 310 has a function of demodulating the reception signal received from the antenna 311 into a reception voice signal and a reception data signal, and outputting the demodulated reception voice signal and reception data signal to the control unit 360. In addition, the communication unit 310 has a function of modulating the transmission voice signal A / D converted by the voice processing unit 330 and a transmission data signal such as an electronic mail given from the control unit 360 and outputting the modulated data signal from the communication antenna 311. Have. The communication unit 310 has a function of receiving a signal from a base station or a repeater and establishing synchronization with the base station or the repeater.

The display unit 320 includes a display realized by an LCD (Liquid Crystal Display) or the like, and has a function of displaying an image according to an instruction from the control unit 360 on the display.
The voice processing unit 330 performs D / A conversion on the received voice signal output from the communication unit 310 and outputs the received voice signal to the speaker 332, and A / D converts the transmission voice signal acquired from the microphone 331 to be converted. It has a function of outputting a signal to the control unit 360.

The operation unit 340 includes a numeric keypad group, an on-hook key, an off-hook key, a direction key, a determination key, a mail key, a side key, and the like, and has a function of receiving a user operation and outputting the received operation content to the control unit 360.
The storage unit 350 includes a ROM (Read Only Memory) and a RAM (Random Access Memory), and is realized by a small hard disk, a nonvolatile memory, or the like. The storage unit 350 has a function of storing music data, image data, and the like in addition to various data and programs necessary for the operation of the wireless terminal 301. The storage unit 350 stores a neighbor list received from a base station or a repeater that has established synchronization. The neighbor list is referred to by the communication unit 310 when the wireless terminal 301 executes a handover.

  The control unit 360 is realized by, for example, a CPU (Central Processing Unit) and has a function of controlling each unit of the wireless terminal 301. When the content by MCBCS received by the communication unit 310 is received and the content is audio data, the control unit 360 causes the audio processing unit 330 to output the audio data, and the character data or image data is received. If it is displayed, it is displayed on the display unit 320.

FIG. 5 is a functional block diagram showing a functional configuration of the ASN-GW server 400.
As illustrated in FIG. 5, the ASN-GW server 400 includes a communication unit 410, a BSID update unit 420, a control unit 430, and a storage unit 440.
The communication unit 410 has a function of communicating with a base station or a repeater connected to the network. The communication unit 410 has a signal to be instructed by the control unit 430, for example, a content distributed by MCBCS. In addition, the communication unit 410 has a function of transmitting the synchronization establishment information to the BSID update unit 420 when receiving synchronization establishment information indicating that synchronization with a new repeater has been established from the base station. The communication unit 410 also has a function of transmitting the synchronization cancellation information to the BSID updating unit 420 when receiving the synchronization cancellation information indicating that the synchronization with the repeater is canceled from the base station.

  The BSID update unit 420 has a function of updating the BSID list 441 in the storage unit 440. Specifically, when the synchronization establishment information is transmitted from the communication unit 410, the repeater information indicated by the synchronization establishment information is added to the zone of the BSID list 441 to which the base station that has transmitted the synchronization establishment information belongs. Register additional. Further, when the synchronization cancellation information is transmitted from the communication unit 410, the repeater information indicated by the synchronization cancellation information is deleted from the zone to which the base station that has transmitted the synchronization cancellation information belongs in the BSID list 441. .

The control unit 430 has a function of controlling each unit of the ASN-GW server 400, and particularly has the following functions. The control unit 430 has a function of causing the communication unit 410 to transmit content based on MCBCS by designating a base station and a repeater to which the content is to be transmitted using respective addresses.
The storage unit 440 has a function of holding programs and data necessary for operation of the ASN-GW server 400, and particularly stores a BSID list 441, content 442, and a content distribution table 443.

The BSID list 441 is information in which zones are associated with base stations and repeaters belonging to the zones.
The content 442 is a content data group to be distributed.
The content distribution table 443 is information that determines which content is to be transmitted to which zone, and is information that associates information indicating a zone with information indicating a content.

The above is description of each part of the ASN-GW server 400.
<Data>
FIG. 6 is a data conceptual diagram showing an example of the data configuration of the BSID list 441 held by the ASN-GW server 400.
As shown in FIG. 6, the BSID list 441 has a configuration in which a base station and a repeater are registered corresponding to each zone.

According to FIG. 6, in the BSID list 441, Zone 101 is associated with BS 101, BS 102, BS 103, RS 201, and RS 202.
In addition, BS 104, BS 105, BS 106, BS 107, RS 203, and RS 204 are associated with Zone 002.
Thereby, the zone shown in the system diagram of FIG. 1 can be set, and the repeater is also registered in the BSID list 441, so that the content by MCBCS is distributed to the wireless terminals under the repeater.

  Here, the mechanism of content distribution will be briefly described. The ASN-GW server 400 sets the addresses of the base station and repeater corresponding to the zone to which the content is to be distributed in the header of the content data for each content by MCBCS. Broadcast in the header. The broadcasted content data is received by each base station and repeater, and only when the addresses included in the header match, each base station and repeater establish synchronization and communicate with all wireless terminals that are communicating. To deliver.

FIG. 7 is a data conceptual diagram showing an example of the data configuration of the content distribution table 443 held by the ASN-GW server 400.
As shown in FIG. 7, the content distribution table 443 has a configuration in which zones and content to be distributed are associated with each other.
According to FIG. 7, content A is distributed to Zone001, and content B is distributed to Zone002.
<Operation>
From here, operation | movement of this Embodiment is demonstrated using the flowchart shown to FIG.

First, content distribution will be described with reference to FIG. FIG. 8 is a flowchart showing an operation when the ASN-GW server 400 distributes content.
Assume that the ASN-GW server 400 is instructed to execute content distribution by an operator, for example.
Then, the control unit 430 reads the BSID list 441 from the storage unit 440 (step S801).

In addition, the control unit 430 reads the content distribution table 442 from the storage unit 440 (step S802).
Then, the control unit 430 executes the following processes from step S803 to S805 for each of the zones described in the content distribution table 442.
The control unit 430 acquires the content corresponding to the zone described in the content distribution table 442 and not yet distributed from the storage unit 440 (step S803).

For the zone for which content is to be distributed in step S803, the base station and repeater information corresponding to the zone is acquired with reference to the BSID list 441 (step S804).
Then, the control unit 430 notifies the communication unit 410 of the content and the addresses of the base station and repeater that distributes the content. Then, the communication unit 410 delivers the notified content to the notified address (step S805).

  Each base station or repeater specifies whether the signal is addressed to itself by an address included in the signal, and if it is a signal addressed to itself, the received content is transmitted to the wireless terminal with which it is communicating. The user of the wireless terminal obtains information by viewing and listening to the content by MSBCS. This is a flow of content distribution by MCBCS of the ASN-GW server 400.

By the way, a repeater may be mounted on a train or the like. In this case, it is considered that the repeater moves across zones. As a result, the BSID list 441 needs to be updated because the content cannot be correctly distributed in the BSID list 441 so far.
Hereinafter, the operation of the communication system related to the update of the BSID list 441 will be described with reference to FIG. 9, and then the operation related to the update of the BSID list 441 in the ASN-GW server 400 will be described with reference to FIG.

FIG. 9 is a timing chart showing an operation related to the update of the BSID list 441 of the communication system.
As shown in FIG. 9, the repeater 202 establishes synchronization with the base station 103 and executes communication (step S901).
Here, it is assumed that the repeater 202 is moving, for example, as a repeater mounted on a train. Then, when it becomes difficult for the repeater 202 to perform communication with the base station 103, the repeater 202 requests the base station 103 for a handover (step S902).

The base station 103 gives permission to the repeater 202 that the handover may be executed in response to the handover request (step S903).
Upon receiving the handover permission, the repeater 202 executes the handover with reference to the neighbor list that is held and held by itself (step S904). Here, it is assumed that the base station 107 is handed over.

The repeater 202 receives the preamble signal from the base station 107, and establishes synchronization with the base station 107 by following a predetermined procedure (step S905).
The base station 103 detects that the synchronization with the repeater 202 has been released, and the repeater 202 performs a handover, and notifies the ASN-GW server 400 of information indicating that the synchronization with the own station has been released. (Step S906).

On the other hand, when the synchronization with the repeater 202 is established, the base station 107 notifies the ASN-GW server 400 of information indicating that the synchronization with the repeater 202 is newly established (step S907).
Then, the ASN-GW server 400 receives the handover execution information and the synchronization establishment information with the new repeater, and updates the stored BSID list 441 (step S908).

Now, how the BSID is updated in the ASN-GW server 400 will be described with reference to the flowchart shown in FIG.
As shown in FIG. 10, when the ASN-GW server 400 receives a signal from the base station, the signal is synchronization establishment information indicating that synchronization with the new repeater is established from the base station. Is determined (step S1001). This determination is made based on whether there is an identifier indicating synchronization establishment information in the received signal.

If the received signal is synchronization establishment information (YES in step S1001), the BSID update unit adds a new base station included in the synchronization establishment information to the zone to which the base station that transmitted the synchronization establishment information belongs. The information of the repeater that has established synchronization is registered to update the BSID list 441 (step S1002).
If the received signal is not synchronization establishment information (NO in step S1001), the communication unit indicates synchronization indicating that the received signal has released synchronization with the repeater that the base station has been communicating with until now. It is determined whether it is release information (step S1003). This determination is made based on whether or not there is an identifier indicating synchronization release information in the received signal.

If the received signal is not the synchronization cancellation information (NO in step S1003), the received signal is a signal other than the synchronization establishment information and the synchronization cancellation information, so the process according to the received signal is executed. .
If the received signal is synchronization cancellation information (YES in step S1003), the BSID update unit releases the synchronization included in the synchronization cancellation information from the zone to which the base station that transmitted the synchronization cancellation information belongs. The repeater information is deleted and the BSID list 441 is updated (step S1004).

The above is the flow of updating the BSID list 441. Since the handover always occurs when the repeater moves between zones, the BSID list 441 is updated using this.
Now, the update of the BSID list 441 will be described with a specific example.
11 shows that the repeater 202 has moved from the state of the system diagram shown in FIG. 1 and the repeater 202 has been handed over to the base station 107, assuming that the repeater is a repeater mounted on a train, for example. FIG.

As shown in FIG. 11, the repeater 202 establishes synchronization with the base station 107 and belongs to Zone 002.
Then, the ASN-GW server 400 updates the BSID list 441 shown in FIG. 6 to the BSID list 441 shown in FIG.
As can be seen by comparing FIG. 6 with FIG. 12, the RS 202 associated with Zone001 in FIG. 6 is deleted from the Zone001 in FIG. Further, the RS 202 that is not associated with Zone 002 in FIG. 6 is associated with Zone 002 in FIG.

By updating the BSID list 441 as shown in the change from FIG. 6 to FIG. 12, even if the repeater performs a handover, the ASN-GW server 400 can appropriately distribute the content by MCBCS.
As described above, the repeater information is included in the BSID list 441, so that content distribution by MCBCS can be executed by specifying a zone in more detail. Thus, conventionally, only the same content could be distributed to repeaters belonging to the same base station, but different contents can be distributed by assigning repeaters belonging to the same base station to different zones. You can also do it.

If the repeater moves, the zone is moved. Therefore, by updating the BSID list 441, even if the zone is moved, the content suitable for the zone is made a repeater. Can be delivered.
<Supplement>
In the above embodiment, the method of implementing the present invention has been described, but it is needless to say that the embodiment of the present invention is not limited to this. Hereinafter, various modified examples included in the concept of the present invention other than the above embodiment will be described.
(1) In the above embodiment, the zone is composed of base stations and repeaters that are adjacent to each other. However, the zone is only for specifying a base station and a group of repeaters that deliver content. For example, in the system diagram of FIG. 1, the base station 102 may be included in the Zone002.
(2) In the above embodiment, the base station and the repeater belong to one zone, but may belong to two or more zones at a time. However, this is not the case for moving repeaters.
(3) In the above embodiment, the update of the BSID list 441 has been executed in response to a handover with the base station. However, in the case of a repeater mounted on a train, basically, Predicting the time zone that passes through each zone from the schedule. Therefore, the ASN-GW server 400 holds operation information indicating the timing of passing through each zone and the BSID list 441 used at each timing. And you may make it the structure which switches the BSID list | wrist 441 used according to operation information.
(4) In the above embodiment, the ASN-GW server 400 also has a function of distributing content. However, the ASN-GW server 400 may be a server that manages the BSID list 441, and distributes content. The server to perform may be configured to exist separately. That is, the content distribution server that distributes content accesses the ASN-GW server 400 to acquire the BSID list 441 and specifies the acquired BSID list 441 in order to specify the zone to be distributed when distributing the content. Accordingly, the content distribution server may distribute the content held by itself.

Further, the ASN-GW server 400 may receive not only the content held by the server itself but also content input from a recording medium or the like by an operator and distribute the content.
(5) Although the repeater information included in the synchronization establishment information and the synchronization release information has not been described in detail in the above embodiment, the repeater information included in these information is the ASN-GW server. 400 is information that can uniquely identify a repeater, an ID unique to the repeater, and information that does not overlap with the ID of the base station.

If the base station and the repeater ID may overlap due to system specifications, the repeater information includes the repeater ID and the information indicating the repeater ID.
(6) In the above embodiment, tunneling may be performed from the ASN-GW server 400 to the repeater when content is distributed by MCBCS.
(7) From the program code for causing a processor such as a repeater and various circuits connected to the processor to execute the operation related to the communication shown in the above-described embodiment, the update processing of the BSID list 441 and the like (see FIG. 10). The control program can be recorded on a recording medium, or can be distributed and distributed via various communication paths. Such recording media include IC cards, hard disks, optical disks, flexible disks, ROMs, and the like. The distributed and distributed control program is used by being stored in a memory or the like that can be read by the processor, and the processor executes the control program, thereby realizing various functions as shown in the embodiment. Will come to be.

  The management server according to the present invention can be utilized as a management server that manages the distribution destination of content when performing communication according to the WiMAX communication standard and distributing content by MCBCS.

1 is a system diagram showing a system configuration of a communication system. It is the functional block diagram which showed the function structure of the base station. It is the functional block diagram which showed the function structure of the repeater. It is the functional block diagram which showed the function structure of the radio | wireless terminal. It is the functional block diagram which showed the function structure of the ASN-GW server. 5 is a data conceptual diagram showing an example data structure of a BSID list 441. FIG. It is the data conceptual diagram which showed the data structural example of the content delivery table 443. 10 is a flowchart illustrating an operation in which the management server distributes content data by BCMCS based on a BSID list 441. 6 is a timing chart showing the operation of the communication system in updating the BSID list 441. 10 is a flowchart showing an operation of updating a BSID list 441 by the management server. It is a system diagram which shows the system state after the repeater 202 moves. It is the updated BSID list 441. It is a system diagram for demonstrating BCMCS in the past.

Explanation of symbols

101-107 Base station 110 Upper communication unit 120 Control unit 130 Lower communication unit 131 Antenna 140 Storage unit 141 Neighbor list 201-204 Repeater 210 Donor unit 211 First communication unit 212 Antenna 213 First synchronization establishment unit 214 Activation control unit 220 Remote Unit 221 second communication unit 222 antenna 223 second synchronization establishment unit 301 to 303 wireless terminal 310 communication unit 311 antenna 320 display unit 330 audio processing unit 331 microphone 332 speaker 340 operation unit 350 storage unit 351 neighbor list 360 control unit 400 ASN- GW server 410 communication unit 420 BSID update unit 430 control unit 440 storage unit 441 BSID list 442 content 443 content distribution table

Claims (2)

A management server for managing a distribution destination of content in a communication system including a management server, a plurality of base stations, a plurality of repeaters, and a wireless terminal,
Each of the base stations transmits a transmitted content data to a repeater managed by the own base station and a wireless terminal managed by the own base station when the transmitted content data is addressed to the own base station. And
Each of the repeaters, when the transmitted content data is addressed to its own device, transmits it to a wireless terminal managed by the own device, and executes a handover for changing the communication destination base station as it moves And
The management server
A distribution list that is referred to when distributing content data and that associates a base station and a repeater that establishes synchronization with the base station is stored for each zone that defines an area where the content is distributed. Storage means ;
Receiving means for receiving execution information indicating that the repeater has executed handover from the base station;
Update means for updating the distribution list so that the repeater indicated by the execution information belongs to the same zone as the base station that has established synchronization with the handover destination, and is deleted from the previous zone A management server characterized by that. The management server further includes:
Content storage means for storing content;
The management server according to claim 1, further comprising: a distribution unit configured to distribute to each base station and each repeater corresponding to a zone to which the content is distributed with reference to the distribution list.

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