JP5797566B2 - Multicast distribution method and system for distributing a plurality of band candidate data from distribution server to base station - Google Patents

Description

  The present invention relates to a technique for distributing data from a distribution server to a wireless terminal via a base station.

  In recent years, a communication environment in which multicast and unicast are mixed has been provided in a wireless network between a base station and a wireless terminal. “Multicast” means that the same data is transmitted by designating a plurality of destination devices. On the other hand, “unicast” means that data is transmitted only to a specific destination device by designating a single address. “Broadcast” refers to transmitting data to an unspecified number of devices. By realizing multicast distribution in a wireless network, it is possible to provide a broadcast service to a number of specific destination terminals with only a minimum bandwidth guarantee.

  Conventionally, there is a technique for selecting a multicast or unicast route (see, for example, Patent Document 1). According to this technique, a multicast route and a unicast route are selected so that a link cost is reduced for a communication network in which a multicast transmission device and a unicast transmission device are mixed.

  There is also a technique for aggregating a plurality of unicast traffic into one multicast traffic at an optimal timing in accordance with a dynamic change relating to the entire network (see, for example, Patent Document 2).

  Furthermore, there is a technique for distributing a specific channel separately using a broadcast infrastructure for broadcast (multicast distribution) and a unicast infrastructure for communication (unicast communication) without being aware of the user (for example, Patent Document 3). reference).

JP 2007-006228 A JP 2004080566 A WO2008 / 120374

  In any of the above-described conventional technologies, how to optimize the unicast bandwidth and the multicast bandwidth is not studied, and is a design item in the system. However, when the unicast communication usage band between the base station and the wireless terminal increases according to the usage conditions of many users, it is necessary to limit the multicast distribution usage band.

  In each of the above prior arts, the distribution server selectively controls multicast / unicast communication. However, when multicast distribution and unicast communication coexist in a wireless network between a base station and a wireless terminal, management costs are required for the distribution server to control it. In particular, it is difficult for the distribution server to adaptively control the multicast distribution bandwidth and the number of channels in real time.

  Therefore, the present invention provides a distribution method and system in which a base station can control according to a communication state of a wireless network with a wireless terminal without the distribution server controlling multicast / unicast communication. With the goal.

According to the present invention, in a data distribution method in a system having a distribution server that distributes data and a base station that wirelessly distributes data received from the distribution server to a plurality of wireless terminals,
The base station can distribute the multicast data and the unicast data to the wireless terminal in a mixed manner.
A first step in which a distribution server generates a plurality of band candidate data obtained by encoding data to be distributed to a wireless terminal using different encoders for each base station and / or for each wireless environment type;
A second step in which the distribution server distributes all of the plurality of band candidate data corresponding to the base station and / or the radio environment type to the base station;
A base station distributes, to a wireless terminal, any one of the plurality of band candidate data received from the distribution server according to the communication use band with the wireless terminal. and a step to Yes,
For the third step, the base station
Detect unicast communication bandwidth of unicast data to the wireless terminal,
Control is performed so that band candidate data is selected in accordance with a vacant band portion obtained by subtracting a unicast communication usage band from a total downlink communication band to a wireless terminal .

According to another embodiment of the data distribution method of the present invention,
About the first stage of the first step,
The wireless terminal sends a multicast entry message to the base station,
The base station further sends a multicast entry message to the distribution server,
For the second step,
The distribution server may distribute a plurality of band candidate data only to the base station that has received the multicast entry message.

According to another embodiment of the data distribution method of the present invention,
The base station transmits the value of the average bandwidth T of unit time in the downlink unicast communication usage bandwidth for a plurality of wireless terminals to the distribution server,
Distribution server
A combination of a plurality of band candidate data is selected on the basis of a multicast distributable band A obtained by subtracting the average band T of the unicast communication band from the entire downlink communication band P from the base station to the wireless terminal. May be.

According to another embodiment of the data distribution method of the present invention,
Distribution server
Using multicast distribution available bandwidth A and preset parameters P% and Q%,
(1) A ₁ = A + A × P
(2) A ₂ = A
(3) A ₃ = A−A × Q
Three band candidate data that allow each of the bands A ₁ , A _2, and A ₃ may be generated.

According to the present invention, in a data distribution system in a system having a distribution server that distributes data and a base station that distributes data received from the distribution server to a plurality of wireless terminals via radio,
Distribution server
Band candidate generation means for generating a plurality of band candidate data obtained by encoding data to be distributed to the radio terminal by different encoders for each base station and / or for each radio environment type;
Band candidate distribution means for distributing all of the plurality of band candidate data corresponding to the base station and / or the radio environment type to the base station,
The base station
Band candidate selection means for selecting any one band candidate data from a plurality of band candidate data received from the distribution server according to the communication state with the wireless terminal;
A multicast distribution means for distributing one selected band candidate data to the wireless terminal as multicast data;
To the wireless terminal, it possesses a unicast communication means for distributing the unicast data,
The base station
Unicast band detecting means for detecting a unicast communication use band of data for unicast downstream from the unicast communication means to the wireless terminal;
A distribution control means for controlling the multicast distribution means so as to select the band candidate data according to the vacant band portion obtained by subtracting the unicast communication usage band from the entire downlink communication band to the wireless terminal;
It is characterized by having .

According to another embodiment of the data distribution system of the present invention,
The base station
A multicast entry receiving means for receiving a multicast entry message from the wireless terminal;
A multicast entry transmitting means for transmitting a multicast entry message to the distribution server;
The bandwidth candidate distribution means in the distribution server may distribute the bandwidth candidate data only to the base station that has received the multicast entry message.

According to another embodiment of the data distribution system of the present invention,
The base station further includes a unicast bandwidth notification means for transmitting the value of the average bandwidth T of unit time in the downlink unicast communication utilization bandwidth for a plurality of wireless terminals to the distribution server,
The distribution server, based on the multicast distribution available band A obtained by subtracting the average band T of the unicast communication usage band from the total downlink communication band P from the base station to the wireless terminal. There may be further provided band candidate selection means for selecting a combination of band candidate data.

According to another embodiment of the data distribution system of the present invention,
The bandwidth candidate selection means of the distribution server uses the multicast distributable bandwidth A and preset parameters P% and Q%,
(1) A ₁ = A + A × P
(2) A ₂ = A
(3) A ₃ = A−A × Q
The three band candidate data that allow each of the bands A ₁ , A _2, and A ₃ may be selected.

  According to the distribution method and system of the present invention, the base station can control the base station according to the communication state of the wireless network with the wireless terminal without controlling the multicast / unicast communication. As a result, multicast distribution using different communication bandwidths efficiently for each base station becomes possible.

It is a system configuration diagram in the present invention. It is explanatory drawing showing the band candidate data transmitted to a base station from a delivery server. It is explanatory drawing showing the band candidate data transmitted to a radio | wireless terminal from a base station. It is a functional block diagram of the delivery server and base station in this invention. It is a sequence diagram in the present invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a system configuration diagram according to the present invention.

  According to FIG. 1, a distribution server 1 and a plurality of base stations 2 are connected via a communication carrier network. The distribution server 1 is usually a communication facility operated by a communication carrier. The distribution server 1 distributes data to the wireless terminal 3 via the base station 2 connected to the communication carrier network. This data includes, for example, both broadcast type content and communication type content. Therefore, multicast distribution and unicast communication are mixed in the wireless network between the base station 2 and the wireless terminal 3. When viewed from the base station 2, unicast communication between another server and the wireless terminal 3 is relayed.

  Also, according to FIG. 1, the wireless network between the base station 2 and the wireless terminal 3 may be based on various different wireless environments. For example, there are a mobile phone network, a WiMAX (Worldwide Interoperability for Microwave Access) network, a wireless LAN (Local Area Network), and the like.

  In addition, it is preferable that the communication apparatus is arranged in a tree structure in the network corresponding to the multicast. According to FIG. 1, the distribution server, the base station, and the wireless terminal are configured in a hierarchy of parent-child-grandchild. The That is, the content (or stream) is transmitted from the higher layer distribution server to the lower layer wireless terminal (hierarchical multicast).

  FIG. 2 is an explanatory diagram showing band candidate data transmitted from the distribution server to the base station.

According to FIG. 2, the distribution server 1 prepares a plurality of band candidate data in which data to be distributed to the wireless terminal 3 is encoded by different encoders (see FIG. 2A). The plurality of band candidate data is generated for each base station and / or for each radio environment type. For example, nine types of band candidate data are simply generated as follows.
Communication bandwidth when the wireless environment is a mobile phone network Large / Medium / Small Communication bandwidth when the wireless environment is a WiMAX network Large / Medium / Small Communication bandwidth when the wireless environment is a wireless LAN Large / Medium ·small

  The distribution server 1 transmits all such a plurality of band candidate data to the base station 2 in which multicast entry has been made (see FIG. 2B). Which band candidate data is used is based on the control of the base station 2.

  FIG. 3 is an explanatory diagram showing band candidate data transmitted from the base station to the wireless terminal.

  According to FIG. 3A, a plurality of band candidate data in multicast distribution transmitted from the distribution server 1 is represented.

  According to FIG. 3B, the downlink unicast communication usage band from the base station 2 to the wireless terminal 3 is represented. The unicast communication use band is a use band of existing general communication, and is not limited to unicast communication with the distribution server 1, but includes all unicast communication with other servers and terminals. . The downlink unicast communication usage band changes with the passage of time in response to requests from a large number of user terminals. Here, it can be understood that a vacant band portion obtained by subtracting the unicast communication use band from the total transmission capacity that can be distributed from the base station 2 is a band that can be used for multicast distribution.

  According to FIG.3 (c), either of the zone | band candidate data received from the delivery server 1 can be matched and delivered to the empty zone | band part in FIG.3 (b). According to FIG. 3 (c), it is depicted that one band candidate data is accommodated in the vacant band portion, but of course, it is controlled to accommodate a plurality of band candidate data. May be.

According to FIG.3 (c), the following band candidate data are accommodated for every time range.
Time range 1: Band candidate data 1
Time range 2: Band candidate data 2
(Here, it is assumed that there is no wireless terminal receiving channel 3)
Time range 3: Band candidate data 1 (only channels 1 and 2)
Time range 4: Band candidate data 3 (only channels 1 and 2)
In this way, the base station 2 detects the unicast communication use band for each time range, and selects multicast band candidate data according to the free band portion obtained by subtracting the unicast communication use band from the total transmission capacity. Further, the base station 2 does not distribute a channel that is no longer required to be distributed to the wireless terminal 3 in response to the multicast entry message.

  FIG. 4 is a functional configuration diagram of the distribution server and the base station in the present invention.

  According to FIG. 4, the distribution server 1 includes a content storage unit 101, a carrier network interface 102, a band candidate generation unit 111, a band candidate selection unit 112, a band candidate distribution unit 113, and a unicast communication unit 114. And have. These functional components can be realized by executing a program that causes a computer mounted on the server to function.

  The content storage unit 101 stores content to be distributed to the wireless terminal 3.

  The carrier network interface 102 is connected to the telecommunications carrier network and distributes content to a plurality of base stations 2. The carrier network interface 102 includes a physical layer unit connected to the carrier network, an IP (Internet Protocol) processing unit, and a transport protocol processing unit.

  The band candidate generation unit 111 acquires content to be distributed to the wireless terminal 3 from the content storage unit 101. A plurality of band candidate data in which these are encoded by different encoders are generated from the content to be transmitted as the multicast distribution. That is, encoding is performed at a plurality of different bit rates. Here, the plurality of band candidate data is generated for each base station and / or for each radio environment type. That is, a plurality of band candidate data is generated for each cell between the base station and the wireless terminal. At this time, it is also preferable that the number of multicast channels is optimized. The generated plurality of band candidate data is output to the band candidate selection unit 112.

  The band candidate selection unit 112 inputs a plurality of band candidate data from the band candidate generation unit 111 and also inputs the unicast communication usage band received from the base station 2 via the carrier network interface 102. The band candidate selection unit 112 calculates a multicast distributable band A by subtracting the average band T of the unicast communication band from the entire downlink communication band P from the base station to the wireless terminal. Then, the band candidate selection unit 112 selects a combination of a plurality of band candidate data based on the multicast distributable band A with respect to the band candidate distribution unit 113.

As another embodiment, the band candidate selection unit 112 allows, for example, the following bands A ₁ , A _2, and A ₃ using the multicast distributable band A and preset parameters P% and Q%. It is also preferable to select three band candidate data.
(1) A ₁ = A + A × P
(2) A ₂ = A
(3) A ₃ = A−A × Q
P% and Q% can correspond to an increase or decrease change in the unicast communicable band with respect to the average band T of the unicast communicable band.

  Then, the band candidate distribution unit 113 distributes all of the plurality of band candidate data corresponding to the base station and / or the radio environment type to the base station.

  Moreover, it is preferable that the band candidate selection unit 112 distributes the band candidate data only to the base station that has received the multicast entry message from the base station 2. Although the present invention is configured on the assumption that the communication band of the carrier network has a margin, it is preferable to reduce the transmission of useless band candidate data.

  The unicast communication unit 114 acquires content from the content storage unit 101 and transmits the content to one wireless terminal 3 via the base station 2. Perform general unicast communication between server and client.

  Further, according to FIG. 3, the base station 2 includes the wireless interface 201, the carrier network interface 202, the band candidate selection unit 211, the multicast distribution unit 212, the unicast communication unit 213, and the unicast band detection unit. 214, a unicast bandwidth notification unit 215, a distribution control unit 216, a multicast entry reception unit 217, and a multicast entry transmission unit 218. These functional components are also realized by executing a program that causes a computer installed in the base station to function.

  The wireless interface 201 transmits data to the wireless terminal 3 via wireless. The carrier network interface 202 receives data from the distribution server 1 via the communication carrier network. Both interfaces have a physical layer unit, an IP processing unit, and a transport protocol processing unit.

  The band candidate selection unit 211 selects any one of the band candidate data from the plurality of band candidate data received from the distribution server 1 according to the communication state with the wireless terminal. The communication state here refers to the state of the unicast communication band. The band candidate selection unit 211 outputs the selected band candidate data to the multicast distribution unit 212.

  The multicast distribution unit 212 distributes the selected band candidate data to the wireless terminal 3 as multicast data. The multicast data is transmitted from the wireless interface 201 to the wireless terminal 3 via wireless. The multicast distribution unit 212 distributes only the channels required by the multicast entry message in the band candidate data.

  The unicast communication unit 213 distributes the unicast data received from the distribution server 1 to the wireless terminal 3. The unicast data is transmitted from the wireless interface 201 to the wireless terminal 3 via wireless. The unicast data is not limited to the unicast data from the distribution server 1, but includes all data between other servers and terminals.

  The unicast band detection unit 214 detects the unicast communication use band of the unicast data for downlink to the wireless terminal from the unicast communication unit 213. The detected unicast communication usage band is output to the band candidate selection unit 211, the unicast band notification unit 215, and the distribution control unit 216.

  The unicast bandwidth notification unit 215 transmits the value of the average bandwidth T of the unit time of the downlink unicast communication usage bandwidth for a plurality of wireless terminals to the distribution server 1.

  The distribution control unit 216 controls the multicast distribution unit 212 not to transmit the band candidate data when the ratio of the unicast communication usage band to the total communication band for the downlink to the wireless terminal is equal to or greater than a predetermined threshold. To do.

  The multicast entry reception unit 217 receives a multicast entry message from the wireless terminal 3. The fact that multicast distribution is possible is output to the multicast distribution unit 212.

  The multicast entry transmission unit 218 transmits a multicast entry message to the distribution server 1.

  FIG. 5 is a sequence diagram in the present invention.

(S501) The distribution server 1 and other servers or terminals are communicating unicast data with the base station 2 (similar to the unicast communication unit 114 in FIG. 4).
(S502) The base station 2 distributes the unicast data to the plurality of wireless terminals 3 (similar to the unicast communication unit 213 in FIG. 4). At this time, the base station 2 detects the average band T of the downlink unicast communication usage band (similar to the unicast band detection unit 214 in FIG. 4).
(S503) The base station 2 transmits the average band T of the unicast communication usage band to the distribution server 1 (similar to the unicast band notification unit 215 in FIG. 4).
(S504) The wireless terminal 3 transmits a multicast entry message to the base station 2 based on a user operation (similar to the multicast entry receiving unit 217 in FIG. 4). On the other hand, the base station 2 transmits a multicast entry message to the distribution server 1 (similar to the multicast entry transmission unit 218 in FIG. 4).
(S505) The distribution server 1 generates a plurality of band candidate data in which data to be distributed to the wireless terminal 3 is encoded by different encoders for each base station and / or for each radio environment type (band candidates in FIG. 4). The same as the generation unit 111).
(S506) The distribution server 1 uses a plurality of band candidate data based on the multicast distributable band A obtained by subtracting the average band T of the unicast communication band from the entire downlink communication band P from the base station to the wireless terminal. (Similar to the band candidate selection unit 112 in FIG. 4).
(S507) The distribution server 1 distributes all the selected plurality of band candidate data to the base station 2 (similar to the band candidate distribution unit 113 in FIG. 4).
(S508) The base station 2 selects one of the plurality of band candidate data received from the distribution server 1 according to the communication use band with the wireless terminal 3 (FIG. 4). Similar to the band candidate selection unit 211).
(S509) The base station 2 transmits the selected band candidate data to the wireless terminal 3 (similar to the multicast distribution unit 212 in FIG. 4).

(S514) The other wireless terminal 3 also transmits a multicast entry message to the base station 2. Further, the base station 2 transmits a multicast entry message to the distribution server 1.
(S518) On the other hand, the base station 2 distributes the band candidate data to the wireless terminal 3.

  As described above in detail, according to the distribution method and system of the present invention, the base station responds to the communication state of the wireless network with the wireless terminal without controlling the multicast / unicast communication. Can be controlled. As a result, multicast distribution using different communication bandwidths efficiently for each base station becomes possible.

  Various changes, modifications, and omissions of the above-described various embodiments of the present invention can be easily made by those skilled in the art. The above description is merely an example, and is not intended to be restrictive. The invention is limited only as defined in the following claims and the equivalents thereto.

DESCRIPTION OF SYMBOLS 1 Distribution server 101 Content storage part 102 Provider network interface 111 Band candidate generation part 112 Band candidate selection part 113 Band candidate distribution part 114 Unicast communication part 2 Base station 201 Wireless interface 202 Provider network interface 211 Band candidate selection part 212 Multicast Distribution unit 213 Unicast communication unit 214 Unicast band detection unit 215 Unicast band notification unit 216 Distribution control unit 217 Multicast entry reception unit 218 Multicast entry transmission unit 3 Wireless terminal

Claims (8)

In a data distribution method in a system including a distribution server that distributes data and a base station that distributes the data received from the distribution server to a plurality of wireless terminals via radio,
The base station can deliver a mixture of multicast data and unicast data to the wireless terminal,
A first step in which the distribution server generates a plurality of band candidate data encoded by different encoders for data to be distributed to the wireless terminal for each base station and / or for each wireless environment type;
A second step in which the distribution server distributes all of the plurality of band candidate data corresponding to the base station and / or the radio environment type to the base station;
The base station distributes, to the wireless terminal, any one of the plurality of band candidate data received from the distribution server, according to the communication usage band with the wireless terminal. possess a third step,
For the third step, the base station
Detecting a unicast communication usage band of data for downlink unicast to the wireless terminal,
The data distribution method comprising: controlling to select the band candidate data according to a free band portion obtained by subtracting the unicast communication use band from the entire downlink communication band to the wireless terminal . About the first stage of the first step,
The wireless terminal sends a multicast entry message to the base station;
The base station further transmits a multicast entry message to the distribution server;
For the second step,
The data distribution method according to claim 1, wherein the distribution server distributes the plurality of band candidate data only to the base station that has received the multicast entry message. The base station transmits a value of an average bandwidth T of unit time in a downlink unicast communication usage band for a plurality of wireless terminals to the distribution server,
The distribution server
Selecting a combination of a plurality of band candidate data based on a multicast distributable band A obtained by subtracting an average band T of the unicast communication use band from the entire downlink communication band P from the base station to the wireless terminal. data distribution method according to any one of claims 1 or 2, characterized. The distribution server
Using the multicast distributable band A and preset parameters P% and Q%,
(1) A ₁ = A + A × P
(2) A ₂ = A
(3) A ₃ = A−A × Q
Data distribution method according to claim 3, characterized in that to generate a three bands candidate data that allows each band A _1, A ₂ and A ₃ in. In a data distribution system in a system having a distribution server that distributes data and a base station that distributes the data received from the distribution server to a plurality of wireless terminals via radio,
The distribution server
Band candidate generation means for generating a plurality of band candidate data obtained by encoding data to be distributed to the wireless terminal by different encoders for each base station and / or for each radio environment type;
Band candidate distribution means for distributing all of the plurality of band candidate data corresponding to the base station and / or the radio environment type to the base station,
The base station
Band candidate selection means for selecting any one band candidate data according to a communication state with the wireless terminal from among a plurality of band candidate data received from the distribution server;
Multicast distribution means for distributing the selected one of the band candidate data as multicast data to the wireless terminal;
To the wireless terminal, it possesses a unicast communication means for distributing the unicast data,
The base station
From the unicast communication means, unicast band detection means for detecting a unicast communication usage band of downlink unicast data to the wireless terminal,
Distribution control means for controlling the multicast distribution means so as to select the band candidate data in accordance with a free band portion obtained by subtracting the unicast communication use band from all communication bands downstream to the wireless terminal;
Data distribution system, comprising a. The base station
Multicast entry receiving means for receiving a multicast entry message from the wireless terminal;
Multicast entry transmitting means for transmitting a multicast entry message to the distribution server,
6. The data distribution system according to claim 5 , wherein the band candidate distribution unit in the distribution server distributes the band candidate data only to the base station that has received the multicast entry message. The base station further has a unicast bandwidth notification means for transmitting a value of an average bandwidth T of unit time in a downlink unicast communication utilization bandwidth for a plurality of wireless terminals to the distribution server,
The distribution server is based on a multicast distributable band A obtained by subtracting an average band T of the unicast communication use band from the entire downlink communication band P from the base station to the wireless terminal to the band candidate distribution unit. The data distribution system according to claim 5 or 6 , further comprising band candidate selection means for selecting a combination of a plurality of band candidate data. The band candidate selection means of the distribution server uses the multicast distributable band A and preset parameters P% and Q%,
(1) A ₁ = A + A × P
(2) A ₂ = A
(3) A ₃ = A−A × Q
The data distribution system according to claim 7 , wherein three band candidate data that allow each of the bands A ₁ , A _2, and A ₃ are selected.

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