JP6223151B2 - Distribution server distribution system, distribution server management device, and reception device - Google Patents

Description

  The present invention relates to a distribution server distribution system, a distribution server management apparatus, and a receiving apparatus that simultaneously distribute IP (Internet Protocol) content from a plurality of distribution servers to a plurality of receiving apparatuses.

  2. Description of the Related Art Conventionally, a technology using push type information distribution in which information is directly delivered from a distribution server to a user receiving device is known. Examples of distribution information (IP content) include information related to TV broadcast programs, the latest information on weather according to individual user needs, the latest information on traffic, applications, or various data requested by users.

  In a push type information distribution service linked with a television broadcast program, information is distributed to a receiving device in real time as the program progresses. Such a service is particularly effective in increasing the added value of a television program.

  In a large-scale IP content push-type information distribution service, one content distribution server and each of a large number of receiving devices establish a communication session, and the content distribution server distributes IP content to each receiving device. Become. At that time, IP content distributed in real time is simultaneously distributed from the content distribution server to the receiving device.

  However, even if each receiving device that has established a communication session with the distribution server is connected to the same (one) content distribution server, the communication position of the receiving device (for example, the content distribution server is located in Tokyo). Since the installation locations of receiving devices in Tokyo, Osaka, Okinawa, etc. are different, the time required for communication with the content distribution server differs for each receiving device. That is, the round trip delay time (Round Trip Time: hereinafter referred to as RTT) of information is different. Therefore, the time when the IP content is actually received is different for each receiving device.

  In addition, when distributing IP content from a single content distribution server to a large number of receiving devices all at once, there is only one communication I / F (interface) of the server regardless of the number of receiving devices. The packets to be transmitted are multiplexed in time series (Time Division Multiplex (TDM)). That is, even when there are a plurality of receiving apparatuses that are desired to be distributed at the same timing, they cannot be distributed at the same time, and therefore the reception time of the distributed IP content differs for each receiving apparatus.

  For these reasons, there is a variation in the timing at which the IP content delivered simultaneously from the content delivery server arrives at each receiving device, and it has been difficult to simultaneously deliver the IP content to all receiving devices without any variation.

  In order to solve this problem, Non-Patent Document 1 discloses that IP content in the content distribution server is matched with the reception time of the IP content of the receiving device having the largest RTT among many receiving devices connected to the content distribution server. Has been disclosed that reduces variations in the reception time of IP content between receiving devices by adjusting the distribution time of.

  The technique described in Non-Patent Document 1 is effective when there is no bias in the RTT of each receiving apparatus (see FIG. 12A). However, when the bias of the RTT of each receiving device is large, for example, as shown in FIG. 12B, when the RTT of each receiving device is concentrated around a certain RTT value, the same in the content distribution server There is a problem that there are a large number of receiving devices that are desired to be distributed, and the number of receiving devices that cannot be distributed at a desired time increases due to a delay caused by time-series distribution in the communication I / F as described above. .

  In the technology described in Non-Patent Document 1, all receiving devices are connected to one content distribution server. Generally, the number of receiving devices that can be connected depending on the communication I / F speed and processing speed of the content distribution server. Has a limit. Therefore, in order to provide services to the majority (for example, several thousand or more) of receiving devices, a plurality of content distribution servers are installed and each receiving device is distributed to one of the content distribution servers. The distribution capability is being expanded.

  As described above, a technique disclosed in Patent Document 1 is disclosed as a technique for distributing each receiving device to a plurality of content distribution servers. The technology described in Patent Document 1 is a system in which a receiving device receives IP content from a content distribution server, and builds a distribution network so that the distribution delay is reduced by considering the installation location and connection environment of the receiving device. To do.

Takeshi Tanaka and 2 others, “Examination of delivery control method in push delivery server considering client RTT”, The Institute of Image Information and Television Engineers, 2013 Annual Conference of Image Information Media Society, 18-12, 2013 8 Moon

JP 2006-332825 A

  However, with the technique described in Patent Document 1, the distribution network is constructed so as to reduce the distribution delay, so that the RTTs of the receiving apparatuses connected to one content distribution server are concentrated in a certain range. It becomes a trend. At that time, since the packets that are actually distributed are multiplexed in time series, the communication data size and the delay (time) associated with the communication I / F are required, so that they cannot be distributed at the same time. There has been a problem that variations in the reception time of IP content in the receiving apparatus become large.

  The present invention has been made in view of the problems as described above, and when distributing IP content simultaneously from a plurality of content distribution servers (hereinafter referred to as “distribution servers”) to a plurality of receiving devices, It is an object of the present invention to provide a distribution server distribution system, a distribution server management device, and a reception device that can reduce variations in arrival time of distribution information (IP content) in the reception device.

  In order to solve the above-described problem, a distribution server distribution system according to claim 1 includes a plurality of distribution servers that distribute IP content, and a plurality of receiving devices that are connected to any of the plurality of distribution servers and receive IP content. A distribution server management system that determines a distribution server to which a receiving device that requests distribution of IP content is connected, the distribution server management device including a storage unit and a distribution server information transmission unit A distribution server distribution processing unit, a connection destination distribution server information transmission unit, a reception device, a distribution participation request transmission unit, an RTT measurement unit, a distribution server RTT information transmission unit, a content reception control unit, Each of the distribution servers determines the distribution time of each receiving device in order from the receiving device with the largest RTT and sends the IP content. It was configured to.

In such a configuration, the distribution server management apparatus classifies the storage unit with distribution server information indicating addresses of the distribution servers and RTT between the reception apparatus and the distribution server at predetermined time intervals, and is included in each section. The distribution server processing device number information for storing the RTT receiving device number of each receiving device for each of a plurality of distribution servers is stored.
Then, when the distribution server management apparatus receives a distribution participation request for requesting distribution of IP content from the receiving apparatus by the distribution server information transmitting unit, the distribution server information is transmitted to the receiving apparatus that has transmitted the distribution participation request. Send.
In addition, the distribution server management apparatus receives the distribution server RTT information indicating the RTT measurement result between each distribution server from the reception apparatus by the distribution server distribution processing unit, and the number of distribution server processing apparatuses for each distribution server Refer to the information, identify the segment corresponding to the RTT measurement result between each distribution server, and connect the distribution server with the smallest number of receiving devices in the identified segment to the receiving device that has transmitted the distribution participation request Decide as a destination.
In addition, the distribution server management apparatus transmits connection destination distribution server information indicating the determined distribution server to the receiving apparatus that has transmitted the distribution participation request, by the connection destination distribution server information transmission unit.

Then, the receiving device transmits a distribution participation request by the distribution participation request transmission unit.
In addition, when the receiving device acquires the distribution server information from the distribution server management device, the receiving device measures the RTT with each of the distribution servers indicated in the distribution server information.
In addition, the receiving device transmits, to the distribution server management device, distribution server RTT information as a distribution server RTT information by the distribution server RTT information transmission unit.
In addition, when the content reception control unit receives the connection destination distribution server information, the reception device establishes a session with the determined distribution server indicated in the connection destination distribution server information, and receives the IP content.

Thus, in the distribution server distribution system, when the distribution server management apparatus receives a distribution participation request from the receiving apparatus, the distribution server management apparatus transmits distribution server information indicating connection destinations of the plurality of distribution servers to the receiving apparatus. The receiving device measures the RTT with each of the distribution servers and transmits it to the distribution server management device as distribution server RTT information. The distribution server management device determines a distribution server to be distributed to the receiving device that has transmitted the distribution participation request so that the RTT bias of the receiving device among the plurality of distribution servers that distribute the IP content is reduced.
Therefore, the distribution server distribution system can reduce variations in arrival times of IP contents in each receiving apparatus when distributing IP contents simultaneously from a plurality of distribution servers to a plurality of receiving apparatuses.

  According to the present invention, when distributing IP content simultaneously from a plurality of distribution servers to a plurality of receiving devices, a distribution server distribution system capable of reducing variation in arrival time of distribution information (IP content) in each receiving device, A distribution server management device and a receiving device can be provided.

It is a figure for demonstrating the delivery server distribution system which concerns on this embodiment. It is a functional block diagram which shows the structural example of the delivery server management apparatus which concerns on this embodiment. It is a figure which shows the data structural example of the delivery server information which concerns on this embodiment. It is a figure which shows the data structural example of the receiver RTT information which concerns on this embodiment. It is a figure which shows the data structural example of the delivery server processing device number information which concerns on this embodiment. It is a figure which shows the data structural example of the delivery destination receiver information which concerns on this embodiment. It is a functional block diagram which shows the structural example of the receiver which concerns on this embodiment. It is a figure which shows the data structural example of the delivery server RTT information which concerns on this embodiment. It is a flowchart which shows operation | movement of the delivery server management apparatus which concerns on this embodiment. It is a flowchart which shows the distribution server distribution process which the distribution server distribution process part of the distribution server management apparatus concerning this embodiment performs. It is a flowchart which shows operation | movement of the receiver 2 which concerns on this embodiment. It is a figure which shows the relationship between RTT of each receiver, and the number of receivers. FIG. 12A shows an example of a case where there is little bias in the RTT ratio of the receiving apparatus. FIG. 12B shows an example when the RTT ratio of the receiving apparatus is biased.

  Hereinafter, modes for carrying out the present invention (hereinafter referred to as “embodiments”) will be described with reference to the drawings.

<Outline of distribution server distribution system>
First, an overview of the distribution server distribution system 1000 according to the present embodiment will be described.
FIG. 1 is a diagram for explaining a distribution server distribution system 1000 according to the present embodiment. As shown in FIG. 1, a distribution server distribution system 1000 includes a plurality of distribution servers 3 (content distribution servers), a plurality of receiving devices 2 connected to the distribution server 3 via a network (IP network), And a distribution server management device 1 connected to the reception device 2 via a network.
In FIG. 1, three distribution servers “A”, “B”, and “C” are illustrated as the distribution servers 3, but two or more distribution servers 3 may be used. Further, in FIG. 1, a case will be described as an example where the receiving device 2 (2 a) of the receiving devices 2 receives provision of an IP content distribution service.

  As shown in FIG. 1, first, the receiving device 2 (2a) that intends to receive IP content distribution newly transmits a distribution participation request to the distribution server management device 1 (step S1).

  Subsequently, the distribution server management apparatus 1 has a plurality of distribution servers 3 (in FIG. 1, distribution servers “A” and “B”) that are candidates for distribution servers for distributing IP content to the receiving apparatus 2 (2a). , “C”), the distribution server information 110 (refer to FIG. 3 to be described later for details), which is information indicating the connection destination (address) of the connection destination, is transmitted to the receiving device 2 (2a) (step S2).

  Next, the receiving device 2 (2a) performs, for example, ICMP (Internet Control Message Protocol) for each of the distribution servers 3 (distribution servers “A”, “B”, and “C”) indicated in the received distribution server information 110. ), The RTT (round trip time) is measured (step S3). The receiving device 2 (2a) stores the measured RTT measurement results with the respective distribution servers 3 as its distribution unit RTT information 210 (see FIG. 8 described later) in its own storage unit (storage unit 22 in FIG. 7 described later). ).

Subsequently, the receiving device 2 (2a) transmits the distribution server RTT information 210 to the distribution server management device 1 (step S4).
Then, the distribution server management device 1 determines the distribution server 3 to be distributed to the receiving device 2 (2a) so that the RTT bias of the receiving device 2 in the plurality of distribution servers 3 that distribute the IP content is reduced (distribution). Server distribution process: Step S5). The distribution server management device 1 transmits information indicating the determined distribution server 3 as the connection destination to the reception device 2 (2a) as connection destination distribution server information (step S6).

  The receiving device 2 (2a) establishes a session with the distribution server 3 indicated by the connection destination distribution server information, and receives IP content from the distribution server 3 (step S7).

  In this way, according to the distribution server distribution system 1000 according to the present embodiment, when distributing IP content from a plurality of distribution servers 3 to a plurality of receiving devices 2 at the same time, the IP content in each receiving device 2 The variation in arrival time can be reduced.

  Next, each device (distribution server management device 1, receiving device 2, and distribution server 3) constituting the distribution server distribution system 1000 will be specifically described.

<< Distribution Server Management Device 1 >>
First, the distribution server management apparatus 1 according to the present embodiment will be described.
FIG. 2 is a functional block diagram illustrating a configuration example of the distribution server management apparatus 1 according to the present embodiment. The distribution server management device 1 receives the distribution participation request from the receiving device 2 and distributes IP content from the plurality of distribution servers 3 to the receiving device 2 that has transmitted the distribution participation request so as to reduce the bias. This is a device for determining the distribution server 3 to be used. The distribution server management apparatus 1 includes a control unit 10, a communication unit 11, an input / output unit (not shown), and a storage unit 12.

  The communication unit 11 receives a distribution participation request or the like from the receiving device 2 via the network (IP network), or sends the distribution server information 110 (FIG. 3) or the connection destination distribution server information to the receiving device 2. It consists of a communication interface that transmits data. The input / output unit (not shown) is configured by an input / output interface for inputting / outputting information to / from an input unit such as a keyboard or an output unit such as a monitor, which is not shown.

  The control unit 10 controls the distribution server management apparatus 1 as a whole, and includes a distribution participation request reception unit 101, a distribution server information transmission unit 102, a distribution server RTT information reception unit 103, a distribution server distribution processing unit 104, and connection destination distribution server information. A transmission unit 105 is provided.

  The distribution participation request reception unit 101 receives a distribution participation request from the receiving device 2 via the communication unit 11 and outputs the distribution participation request to the distribution server information transmission unit 102.

  When the distribution server information transmitting unit 102 receives the distribution participation request from the distribution participation request receiving unit 101, the distribution server information transmitting unit 102 refers to the distribution server information 110 (FIG. 3) in the storage unit 12 to the receiving device 2 that has transmitted the distribution participation request. The distribution server information 110 indicating the connection destination (address) of each distribution server 3 is transmitted.

FIG. 3 is a diagram illustrating a data configuration example of the distribution server information 110 according to the present embodiment.
As illustrated in FIG. 3, the distribution server information 110 stores a connection destination (address) for each distribution server ID that is a unique identifier of the distribution server 3. In this connection destination, for example, an IP address, a URL, or the like is stored.

  Returning to FIG. 2, distribution server RTT information receiving section 103 receives distribution server RTT information 210 (FIG. 8) from receiving apparatus 2 and stores it in receiving apparatus RTT information 120 (FIG. 4) in storage section 12. The distribution server RTT information 210 is information indicating a result of measuring the RTT between the receiving device 2 and each distribution server 3 as described later.

FIG. 4 is a diagram illustrating a data configuration example of the receiving device RTT information 120 according to the present embodiment.
As illustrated in FIG. 4, the reception device RTT information 120 stores, for each reception device ID of the reception device 2, an RTT value (measurement result) with each distribution server 3 measured by the reception device 2. .
The distribution server RTT information receiving unit 103 associates the receiving device ID of the receiving device 2 that has transmitted the distribution server RTT information 210 with the RTT value between each distribution server 3 indicated in the distribution server RTT information 210. Store in the receiver RTT information 120.
For example, based on the distribution server RTT information 210 received from the receiving device 2 with the receiving device ID “6”, the distribution server RTT information receiving unit 103 distributes as shown in the sixth line of the receiving device RTT information 120 in FIG. The RTT value “12 ms” with the server “A”, the RTT value “18 ms” with the distribution server “B”, and the RTT value “25 ms” with the distribution server “C” are stored.

  Returning to FIG. 2, the distribution server distribution processing unit 104 performs distribution server distribution processing based on the receiving device RTT information 120 (FIG. 4) and the distribution server processing device number information 130 (FIG. 5) stored in the storage unit 12. By executing, the distribution server 3 to which the receiving device 2 is connected is determined. Here, in the distribution server distribution process executed by the distribution server distribution processing unit 104, the bias is reduced with respect to the RTT ratio (the number of reception devices in a category divided by a predetermined time interval) of the reception devices 2 that each distribution server 3 is in charge of. Specifically, the distribution server 3 to be connected is determined in order from the distribution server 3 having the smallest number of receiving devices in the corresponding category. Details will be described with reference to FIG.

  FIG. 5 is a diagram illustrating a data configuration example of the distribution server processing device number information 130 according to the present embodiment. The distribution server processing device number information 130 stores, for each distribution server 3, the RTT ratio (the number of receiving devices in a category divided by a predetermined time interval) of the receiving device 2 that the distribution server 3 is responsible for distributing IP contents. The Here, FIG. 5A shows the distribution server processing device number information 130 (130A) of the distribution server “A”. FIG. 5B shows distribution server processing device number information 130 (130B) of the distribution server “B”. FIG. 5C shows distribution server processing device number information 130 (130C) of the distribution server “C”.

As shown in FIGS. 5A to 5C, the distribution server processing device number information 130 is associated with the category 132 obtained by dividing the distribution server ID 131 and the RTT at predetermined time intervals, and information on the number of reception devices 133 is provided. Stored.
Specifically, referring to FIG. 5A, the distribution server ID 131 stores “A” (denoted as (distribution server “A”) in FIG. 5A) as the ID of the distribution server 3. The The category 132 classifies the RTT value of the receiving device 2 distributed by the distribution server 3 at a predetermined time interval. For example, the category 132 shown in the first line “0 ms-5 ms” indicates that the RTT value is 0 ms or more and less than 5 ms. Similarly, the category 132 shown in the second line “5 ms-10 ms” indicates that the RTT value is 5 ms or more and less than 10 ms. The same applies to the RTT classification of the subsequent category 132.

  The number of receiving devices 133 stores the number of receiving devices 2 included in the range of the RTT according to the division indicated by the category 132. For example, in the first line of FIG. 5A, the value of RTT is included in “0 ms-5 ms” (0 ms to less than 5 ms) in the receiving device 2 in which the distribution server “A” is in charge of IP content distribution. This indicates that the number of receiving devices 2 (the number of receiving devices 133) is “10”, and in the second line of FIG. 5A, the value of RTT is included in “5 ms-10 ms” (5 ms to less than 10 ms). This indicates that the number of receiving apparatuses 2 (the number of receiving apparatuses 133) is “9”.

  In this embodiment, the category 132 is divided into 5 ms units as a predetermined time interval. However, the 5 ms unit is an example, and can be arbitrarily set by a network administrator or the like. Further, reference numerals 134A, 134B, and 134C shown in FIGS. 5A to 5C are necessary for detailed description of the distribution server distribution process (FIG. 10 described later), and will be described later.

When the distribution server distribution processing unit 104 determines the distribution server 3 connected to the reception device 2 (2a) by the distribution server distribution processing, the distribution server distribution processing unit 104 stores the determined distribution in the distribution destination reception device information 140 (FIG. 6) in the storage unit 12. The receiving device 2 (2a) that has transmitted the distribution participation request is registered as a distribution destination of the IP content by the server 3.
Further, the distribution server distribution processing unit 104 determines the number of receiving devices of the category 132 including the RTT value of the receiving device 2 to be distributed this time for the distribution server processing device number information 130 (FIG. 5) of the determined distribution server 3. “1” is added to 133.

FIG. 6 is a diagram illustrating a data configuration example of the distribution destination receiving device information 140 according to the present embodiment.
As shown in FIG. 6, the distribution destination receiving device information 140 is information indicating the receiving device 2 that each distribution server 3 is responsible for distributing IP contents. In the distribution destination receiving device information 140, a receiving device (connection destination) 142 and an RTT 143, which are distribution destinations of IP contents, are stored in association with the distribution server ID 141 of the distribution server 3.

  For example, taking the first line in FIG. 6 as an example, the distribution server ID 141 stores “A” (denoted as (distribution server “A”) in FIG. 6) as the ID of the distribution server 3. In the receiving apparatus (connection destination) 142, the address (for example, IP address) of the receiving apparatus 2 to which the distribution server 3 indicated by the distribution server ID 141 distributes IP content is “aaa.bbb.ccc.ddd”. Stored. Further, the RTT 143 stores the RTT value between the distribution server 3 indicated by the distribution server ID 141 and the receiving device 2 indicated by the receiving device (connection destination) 142 as “32 ms”.

  Returning to FIG. 2, the connection destination distribution server information transmitting unit 105 refers to the distribution destination receiving device information 140 (FIG. 6) and connects information indicating the distribution server 3 that is the connection destination determined by the distribution server distribution processing unit 104. It transmits to the receiver 2 which has transmitted the distribution participation request as the pre-distribution server information.

  The storage unit 12 includes storage means such as a hard disk, a flash memory, and a RAM (Random Access Memory). The distribution server information 110, the reception device RTT information 120, the distribution server processing device number information 130, and the distribution destination reception device information 140 described above. Etc. are memorized.

  In addition, this control part 10 is implement | achieved when CPU (Central Processing Unit) which abbreviate | omitted illustration expand | deployed and executed the program stored in the memory | storage part 12, for example in RAM which is main memory.

<< Receiver 2 >>
Next, the receiving device 2 according to the present embodiment will be described.
FIG. 7 is a functional block diagram illustrating a configuration example of the receiving device 2 according to the present embodiment. The receiving device 2 is a device that receives IP content distribution from the distribution server 3. As described with reference to FIG. 1, the receiving device 2 transmits a distribution participation request to the distribution server management device 1 when requesting distribution of IP content, and the distribution server management device 1 includes a plurality of distribution servers 3. A session is established with the distribution server 3 determined from the inside, and the distribution of the IP content is received. The receiving device 2 includes a control unit 20, a communication unit 21, an input / output unit (not shown), and a storage unit 22.

  The communication unit 21 receives the distribution server information 110 (FIG. 3), connection destination distribution server information, and the like from the distribution server management device 1 via the network (IP network), and distributes the distribution server information to the distribution server management device 1. The communication interface is configured to transmit a participation request, distribution server RTT information 210 (see FIG. 8 to be described later), and the like. The input / output unit (not shown) is configured by an input / output interface for inputting / outputting information to / from an input unit such as a keyboard or an output unit such as a monitor, which is not shown.

  The control unit 20 controls the entire receiving device 2, and includes a distribution participation request transmission unit 201, a distribution server information reception unit 202, an RTT measurement unit 203, a distribution server RTT information transmission unit 204, a connection destination distribution server information reception unit 205, and A content reception control unit 206 is provided.

  The distribution participation request transmission unit 201 transmits a distribution participation request to the distribution server management apparatus 1 when receiving instruction information for receiving IP content via the input / output unit.

  The distribution server information receiving unit 202 receives the distribution server information 110 (FIG. 3) from the distribution server management device 1 and outputs the distribution server information 110 to the RTT measurement unit 203.

The RTT measuring unit 203 measures the RTT with each distribution server 3 indicated by the distribution server information 110 (FIG. 3) received from the distribution server information receiving unit 202, and the distribution server RTT information 210 in the storage unit 22. (FIG. 8).
Specifically, the RTT measuring unit 203 transmits request information (echo request) indicating that a response is returned to each distribution server 3 by executing, for example, an ICMP ping command. The RTT (round trip delay time) is measured by the difference between the time when the response information (echo response) is received from the time 3 and the request information (echo request) is transmitted and the time when the response information (echo response) is received. Further, the RTT measuring unit 203 ACKs from the distribution server 3 in response to a request message from the receiving device 2 when transmission / reception between the receiving device 2 and each distribution server 3 is performed by TCP (Transmission Control Protocol). RTT (round trip delay time) may be measured by the difference between the time when the message is received and the request message is transmitted and the time when the ACK message is received.

FIG. 8 is a diagram illustrating a data configuration example of the distribution server RTT information 210 according to the present embodiment.
As shown in FIG. 8, the distribution server RTT information 210 stores the RTT value (measurement result) between each distribution server 3 and measured by the RTT measurement unit 203.

  Returning to FIG. 7, the distribution server RTT information transmission unit 204 adds the reception device ID of the reception device 2 itself to the distribution server RTT information 210 stored in the storage unit 22 and transmits the distribution server RTT information transmission unit 204 to the distribution server management device 1. .

  The connection destination distribution server information receiving unit 205 receives the connection destination distribution server information indicating the distribution server 3 that is the connection destination from the distribution server management device 1 and outputs it to the content reception control unit 206.

  The content reception control unit 206 establishes a session with the distribution server 3 indicated by the connection destination distribution server information received from the connection destination distribution server information reception unit 205 and receives IP content from the distribution server 3. In addition, the content reception control unit 206 executes general control related to distribution of IP content. For example, when the content reception control unit 206 determines that the distribution of the IP content has ended, the content reception control unit 206 transmits a disconnection request to the distribution server 3 that has established the session.

  The storage unit 22 includes storage means such as a hard disk, a flash memory, and a RAM, and stores the distribution server RTT information 210 described above.

  In addition, this control part 20 is implement | achieved when CPU which abbreviate | omitted illustration expand | deploys and executes the program stored in the memory | storage part 22, for example in RAM which is main memory.

≪Distribution server 3≫
Each of the distribution servers 3 (FIG. 1) according to the present embodiment is a distribution server (content distribution server) shown in the non-patent document 1 described above.
In the distribution server 3, the data reception time of the receiving device 2 having the slowest data reception, that is, the largest RTT (round trip delay time) value is set as the target value of the data reception times of all the receiving devices 2. Then, the distribution server 3 calculates the distribution time of each receiving apparatus 2 and distributes the IP content in consideration of the distribution required time per receiving apparatus 2 in order from the receiving apparatus 2 having the largest RTT. By doing so, the distribution server 3 can suppress variations in the reception time of the IP content between the reception devices 2.

  As described above, according to the distribution server distribution system 1000, the distribution server management device 1, and the receiving device 2 according to the present embodiment, when distributing IP content from a plurality of distribution servers 3 to a plurality of receiving devices 2 all at once. In addition, it is possible to reduce variations in arrival time of distribution information (IP content) in each receiving device 2.

<Operation of distribution server distribution system>
Next, a specific operation of each device constituting the distribution server distribution system 1000 will be described.
Since the overall processing flow of the distribution server distribution system 1000 has been described with reference to FIG. 1, it will be omitted here, and specific operations of the distribution server management device 1 and the reception device 2 will be described in detail.

<< Operation of Distribution Server Management Device 1 >>
First, the operation of the distribution server management device 1 will be described.
FIG. 9 is a flowchart showing the operation of the distribution server management apparatus 1 according to this embodiment.
The distribution server management apparatus 1 includes distribution server information 110 (FIG. 3) indicating connection destinations of the distribution servers 3 and a ratio of RTT of the receiving apparatus 2 that the distribution server 3 is in charge of for each distribution server 3 (predetermined). It is assumed that distribution server processing device number information 130 (FIG. 5) in which the number of receiving devices in the category divided by the time interval is stored in advance.

  As shown in FIG. 9, first, the distribution participation request receiving unit 101 of the distribution server management apparatus 1 requests distribution participation from the receiving apparatus 2 (here, the receiving apparatus 2 (2a)) to request IP content distribution. A request is received (step S10). Then, the distribution participation request reception unit 101 outputs the received distribution participation request to the distribution server information transmission unit 102.

  Subsequently, the distribution server information transmitting unit 102 stores the distribution server information 110 (FIG. 3) stored in the storage unit 12 and indicating the connection destination (address) of each distribution server 3. 2 (2a) (step S11).

  Next, the distribution server RTT information receiving unit 103 of the distribution server management device 1 receives the distribution server RTT information 210 (FIG. 8) from the receiving device 2, and stores it in the receiving device RTT information 120 (FIG. 4) in the storage unit 12. Store (step S12).

  Then, the distribution server distribution processing unit 104 of the distribution server management device 1 uses the distribution server RTT information receiving unit 103 to store the distribution server RTT information 210 in the receiving device RTT information 120 as a trigger. Processing is executed (step S13). In this distribution server distribution process, the distribution server distribution processing unit 104 is configured between the reception device 2 (2a) and each distribution server 3 indicated by the new distribution server RTT information 210 stored in the reception device RTT information 120. Based on the RTT value and the distribution server processing device number information 130, the bias is reduced with respect to the RTT ratio (the number of receiving devices in a category divided by a predetermined time interval) of the receiving devices 2 that each distribution server 3 takes charge of. Thus, the distribution server 3 connected to the receiving device 2 (2a) is determined. Details of this distribution server distribution processing will be described later with reference to FIG.

  Subsequently, the distribution server distribution processing unit 104 transmits the distribution participation request as the distribution destination of the determined distribution server 3 to the distribution destination reception device information 140 (FIG. 6) in the storage unit 12. Is registered (step S14). Specifically, the distribution server distribution processing unit 104 stores a receiving device (connection destination) 142 and an RTT 143 that are distribution destinations of IP contents in association with the distribution server ID 141 of the determined distribution server 3.

  Further, the distribution server distribution processing unit 104 updates the distribution server processing device number information 130 (FIG. 5) of the determined distribution server 3 (step S15). Specifically, the distribution server distribution processing unit 104 performs update by adding “1” to the number of receiving devices 133 corresponding to the category 132 of the RTT in the distribution server processing device number information 130 of the determined distribution server 3.

  Next, the connection destination distribution server information transmission unit 105 of the distribution server management device 1 receives the new reception device 2 registered in the distribution destination reception device information 140 (FIG. 6) as a trigger. The information indicating the distribution server 3 as the connection destination determined by the distribution server distribution processing unit 104 is transmitted to the receiving device 2 (2a) that has transmitted the distribution participation request as the connection destination distribution server information (step S2). S16), the process ends.

[Distribution server distribution processing]
Next, the distribution server distribution process (step S13 in FIG. 9) performed by the distribution server distribution processing unit 104 of the distribution server management apparatus 1 will be described in detail. FIG. 10 is a flowchart showing a distribution server distribution process performed by the distribution server distribution processing unit 104 of the distribution server management apparatus 1 according to the present embodiment.
Here, in step S12 of FIG. 9, the distribution server RTT information receiving unit 103 of the distribution server management apparatus 1 performs the distribution server RTT information 210 illustrated in FIG. 8 (the value of the RTT with the distribution server “A”). "12 ms", RTT value "18 ms" with the distribution server "B", and RTT value "25 ms" with the distribution server "C") are received from the receiving device 2 (2a). It is assumed that the received information is stored as indicated by the receiving device ID “6” in the receiving device RTT information 120 (FIG. 4). The number of distribution servers 3 (total number of distribution servers) will be described as “3” indicated by distribution servers “A”, “B”, and “C”.

The distribution server distribution processing unit 104 confirms that new information (reception device ID and distribution server RTT information 210 indicating RTT between the distribution servers 3) is added to the reception device RTT information 120 (FIG. 4). As a trigger, the distribution server distribution process shown below is executed.
In this distribution server distribution process, the distribution server distribution processing unit 104 first refers to the receiving device RTT information 120 (FIG. 4) and acquires the value of RTT with each distribution server 3. Then, the distribution server distribution processing unit 104 refers to the distribution server processing device number information (FIG. 5) for each distribution server 3 and corresponds to the RTT measurement result (distribution server RTT information 210) with each distribution server 3. Identify the category to be. Subsequently, the distribution server 3 having the smallest number of receiving devices 133 in the specified category is determined as the connection destination of the receiving device 2 that has transmitted the distribution participation request. Further, the distribution server distribution processing unit 104 determines the specified classification when the RTT measurement result with the distribution server 3 determined as the connection destination is equal to or greater than a predetermined reference value (“RTT _def ” described later). The distribution server 3 with the smallest number of receiving devices is extracted in order from the distribution server 3 with the smallest number, not the distribution server 3 with the smallest number of receiving devices 133, and the RTT measurement result with the extracted distribution server 3 is extracted. Is less than a predetermined reference value, the extracted distribution server 3 may be determined as the connection destination of the receiving device 2 that has transmitted the distribution participation request. Hereinafter, this will be described in detail with reference to FIG.

First, the distribution server distribution processing unit 104 refers to the reception device RTT information 120 (FIG. 4), and acquires the value of the RTT with each distribution server 3 relating to the newly registered reception device 2 (step S20). .
Here, the distribution server distribution processing unit 104 determines, as the newly registered information from the reception device RTT information 120, the reception device 2 (2a) with the reception device ID “6”. Information indicating that the RTT value of "12 ms", the RTT value with the distribution server "B" is "18 ms", and the RTT value with the distribution server "C" is "25 ms" To do.

  Next, the distribution server distribution processing unit 104 refers to the distribution server processing device number information 130 (130a, 130b, 130c) of each distribution server 3 shown in FIG. 5, and obtains the RTT acquired in step S20 for each distribution server 3. 5 is determined, and the corresponding number of receiving devices 133 is acquired (step S21).

  Specifically, the distribution server distribution processing unit 104 first determines the RTT value “12 ms” between the distribution server “A” and the distribution server shown in FIG. With reference to the processing device number information 130 (130A), it is determined that the category 132 including the RTT value “12 ms” is “10 ms−15 ms” (10 ms to less than 15 ms), and the corresponding receiving device number 133 is “ 8 ”is acquired. Next, the distribution server distribution processing unit 104 refers to the distribution server processing device number information 130 (130B) shown in FIG. 5B for the RTT value “18 ms” with the distribution server “B”. It is determined that the category 132 including the RTT value “18 ms” is “15 ms−20 ms” (15 ms or more and less than 20 ms), and “10” is acquired as the corresponding number of receiving devices 133. Subsequently, the distribution server distribution processing unit 104 refers to the distribution server processing device number information 130 (130C) shown in FIG. 5C for the RTT value “25 ms” with the distribution server “C”. It is determined that the category 132 including the RTT value “25 ms” is “25 ms-30 ms” (25 ms or more and less than 30 ms), and “9” is acquired as the corresponding number of receiving devices 133.

  That is, the current number of receiving devices 133 in the category 132 included when the connection destination is the distribution server “A” is “8”, and the category included when the connection destination is the distribution server “B”. The current number of receiving devices 133 at 132 is “10”, and the current number of receiving devices 133 included when the connection destination is the distribution server “C” is “9”.

Subsequently, the distribution server distribution processing unit 104 sorts the number of receiving devices 133 of each distribution server 3 acquired in step S21 in ascending order, and determines the priority (n) of the distribution server 3 to be selected as the connection destination (step). S22).
Here, the distribution server distribution processing unit 104 determines the distribution server “A” having the number of receiving devices 133 of “8” and the smallest number of receiving devices 133 as priority n = 1 (FIG. 5A). Reference 134A). The distribution server “C” having the number of receiving devices 133 of “9” and the second smallest number of receiving devices 133 is determined as the priority n = 2 (see reference numeral 134C in FIG. 5C). Also, the distribution server “B” having the number of receiving devices 133 of “10” and the third smallest number of receiving devices 133 is determined to be priority n = 3 (see reference numeral 134B in FIG. 5B). If the number of receiving devices 133 is the same, the order of priority n is randomly determined from the same number of distribution servers 3.

  By determining the priority (n) in this way, it is possible to distribute the receiving devices 2 to be newly distributed in order from the distribution server 3 with the smallest number of receiving devices 133 in the corresponding category 132 of each distribution server 3. Thereby, it is possible to prevent the distribution of the receiving devices 2 around a certain RTT value from being concentrated in each distribution server 3.

  Next, the distribution server distribution processing unit 104 extracts n = 1 (first priority) as an initial value (step S23).

Subsequently, the distribution server distribution processing unit 104 determines whether or not the following condition (Equation 1) is satisfied (step S24). Here, max is the total number of distribution servers 3.
n ≦ max (Formula 1)

If the condition of (Expression 1) is satisfied (step S24 → Yes), the process proceeds to the next step S25, and if the condition of (Expression 1) is not satisfied (step S24 → No), the process proceeds to step S28. .
Here, since the distribution server distribution processing unit 104 is n = 1 and the total number (max) of the distribution servers 3 is “3”, it is assumed that (Expression 1) is satisfied (step S24 → Yes), and step S25. Proceed to

Next, the distribution server distribution processing unit 104 determines whether or not the following condition (Equation 2) is satisfied (step S25). Here, RTT _n indicates the value of RTT of the nth distribution server 3. RTT _def indicates a reference value of RTT that is a target of distribution server distribution processing.
RTT _n <RTT _def (Formula 2)

  If the condition of (Expression 2) is satisfied (step S25 → Yes), the process proceeds to the next step S26, and if the condition of (Expression 2) is not satisfied (step S25 → No), the process proceeds to step S27. .

This RTT _def is set to exclude distribution to the distribution server 3 having an extremely large RTT (round trip delay time) value due to a failure of the distribution server 3 or the like. If it matches with the receiving apparatus 2 having the largest RTT, the entire distribution system will be delayed. Therefore, even if the distribution server 3 has a small number of receiving devices 133, when the RTT value is greater than or equal to the reference value (RTT _def ), that is, when the RTT value is extremely larger than other RTT values. Does not determine the distribution server 3 as a connection destination.

When the condition of (Equation 2) is satisfied (step S25 → Yes), that is, when the value of the _nth RTT (RTT _n ) is less than the reference value (RTT _def ) The n-th priority distribution server 3 is determined as the connection destination (step S26). On the other hand, when the condition of (Equation 2) is not satisfied (step S25 → No), that is, when the value of the _nth RTT (RTT _n ) is equal to or greater than the reference value (RTT _def ), the process proceeds to step S27. , “1” is added to n (n = n + 1), and the process returns to step S24 to continue the processing.
The reference value (RTT _def ) is, for example, “35 ms” that is the maximum value of the category 132 of the distribution server processing device number information 130 illustrated in FIG. The reference value (RTT _def ) is set by a network administrator or the like and is stored in advance in the storage unit 12 of the distribution server management device 1.

Here, the distribution server distribution processing unit 104 has an RTT value of “12 ms” with respect to the distribution server 3 (distribution server “A”) of n = 1 (first priority), and the reference value (RTT _def ), The condition of (Expression 2) is satisfied (step S25 → Yes), and the process proceeds to the next step S26 where n = 1 (first) distribution server 3 (distribution server “A”). The distribution server 3 is determined as the connection destination.

  Then, the distribution server distribution processing unit 104 ends the distribution server distribution process, and performs the processes after step S14 in FIG.

  Also, if the distribution server distribution processing unit 104 does not satisfy the condition of (Equation 2) in step S25 (step S25 → No), suppose that the value of the RTT with the distribution server 3 is “40 ms”. In step S27, “1” is added to n (n = n + 1), and the processing from step S24 onward is continued for the distribution server 3 of the next priority.

Further, the distribution server distribution processing unit 104 determines that the condition of (Equation 1) is not satisfied in step S24 (step S24 → No), that is, when the priority (n) exceeds the total number of distribution servers 3 (at this time) (When the RTT values are all equal to or larger than the reference value (RTT _def ) in step S25). In step S28, the receiving device RTT information 120 is referred to, and the distribution server 3 having the smallest RTT value is connected. The distribution server 3 is determined as the destination. Then, the distribution server distribution processing unit 104 ends the distribution server distribution process, and performs the processes after step S14 in FIG.

  By doing in this way, the distribution server distribution processing unit 104 can determine the receiving device 2 to be newly distributed in order from the distribution server 3 with the smallest number of receiving devices 133 in the corresponding category 132 of each distribution server 3. . Therefore, in each distribution server 3, it is possible to prevent the distribution of reception devices 2 around a certain RTT value from being concentrated.

As described above, according to the distribution server management device 1 according to the present embodiment, the distribution server 3 that is the connection destination is determined in ascending order of the number of reception devices, whereby the RTT bias of the reception device 2 is determined in each distribution server 3. Can be suppressed.
Further, even if the distribution server management apparatus 1 is a distribution server 3 with a small number of receiving apparatuses, when the RTT value (measurement result) is equal to or greater than a predetermined reference value, the distribution server 3 is determined as the connection destination. Can not. Therefore, it is possible to prevent a delay in the entire distribution to the receiving device 2 that the distribution server 3 is in charge of.

<< Operation of Receiver 2 >>
Next, the operation of the receiving device 2 will be described.
FIG. 11 is a flowchart showing the operation of the receiving apparatus 2 according to this embodiment.

  First, the distribution participation request transmission unit 201 of the receiving device 2 transmits a distribution participation request to the distribution server management device 1 (step S30).

  Next, the distribution server information receiving unit 202 of the receiving device 2 receives the distribution server information 110 (FIG. 3) from the distribution server management device 1 (step S31). Then, distribution server information receiving section 202 outputs distribution server information 110 to RTT measurement section 203.

  Subsequently, the RTT measurement unit 203 measures an RTT (round trip delay time) with each distribution server 3 indicated by the distribution server information 110 received from the distribution server information reception unit 202 and distributes it in the storage unit 22. The server RTT information 210 (FIG. 8) is stored (step S32).

  Then, the distribution server RTT information transmission unit 204 attaches the reception device ID of the reception device 2 itself to the distribution server RTT information 210 stored in the storage unit 22 and transmits it to the distribution server management device 1 (step S33). ).

  Next, the connection destination distribution server information receiving unit 205 receives connection destination distribution server information indicating the distribution server 3 that is the connection destination from the distribution server management device 1 (step S34). Then, the connection destination distribution server information receiving unit 205 outputs the received connection destination distribution server information to the content reception control unit 206.

  Subsequently, the content reception control unit 206 establishes a session with the distribution server 3 indicated by the connection destination distribution server information received from the connection destination distribution server information reception unit 205 (step S35). Then, the content reception control unit 206 receives IP content from the distribution server 3 that has established the session (step S36).

  Next, the content reception control unit 206 determines whether or not the distribution of the received IP content has been completed (step S37). If the distribution has not ended (step S37 → No), the process returns to step S36 and continues to receive IP content. On the other hand, if the distribution has been completed (step S37 → Yes), the process proceeds to the next step S38.

  In step S38, the content reception control unit 206 transmits a disconnection request to the distribution server 3 that has established the session, and ends the process.

  As described above, according to the receiving device 2 according to the present embodiment, the distribution server information 110 is received from the distribution server management device 1, the RTT between the distribution servers 3 is measured, and the distribution server management device 1 Can be sent. In addition, the receiving apparatus 2 establishes a session with the distribution server 3 determined by the distribution server management apparatus 1, so that the IP content can be reduced in a state in which variation in distribution delay with other receiving apparatuses 2 is suppressed. Can be received.

As mentioned above, although embodiment of this invention was described, this invention is not limited to embodiment described here.
For example, the RTT measuring unit 203 of the receiving device 2 measures RTT (round trip delay time) with each distribution server 3, but includes a time measuring unit that synchronizes the time in each distribution server 3, The reception time of the message received from the reception device 2 may be measured, and the reception time may be returned from each distribution server 3 to the reception device 2. In other words, instead of RTT (round trip delay time), RTT may be used instead of RTT by measuring one-way delay time.

DESCRIPTION OF SYMBOLS 1 Distribution server management apparatus 2 Receiving apparatus 3 Distribution server (content distribution server)
DESCRIPTION OF SYMBOLS 10,20 Control part 11,21 Communication part 12,22 Storage part 101 Distribution participation request reception part 102 Distribution server information transmission part 103 Distribution server RTT information reception part 104 Distribution server distribution processing part 105 Connection destination distribution server information transmission part 110 Distribution Server information 120 Receiving device RTT information 130 Distribution server processing device number information 140 Distribution destination receiving device information 201 Distribution participation request transmitting unit 202 Distribution server information receiving unit 203 RTT measuring unit 204 Distribution server RTT information transmitting unit 205 Connection destination distribution server information reception Unit 206 content reception control unit 210 distribution server RTT information 1000 distribution server distribution system

Claims (5)

A plurality of distribution servers for distributing IP content; a plurality of receiving devices connected to any of the plurality of distribution servers for receiving the IP content; and the distribution connected by the receiving device for requesting the distribution of the IP content A distribution server management system comprising a distribution server management device for determining a server,
The distribution server management device includes:
Distribution server information indicating the address of each distribution server, and RTT (Round Trip Time) between the reception device and the distribution server are divided at predetermined time intervals, and RTTs of the reception devices included in each division A storage unit for storing the number of distribution server processing devices that stores the number of receiving devices for each of the plurality of distribution servers;
A distribution server information transmitting unit that transmits the distribution server information to the receiving device that has transmitted the distribution participation request when receiving a distribution participation request for requesting distribution of the IP content from the receiving device;
When the distribution server RTT information indicating the measurement result of the RTT between each of the distribution servers is received from the reception device, the distribution server processing device number information for each of the distribution servers is referred to, and A distribution server that identifies the section corresponding to the measurement result of RTT in between and determines the distribution server with the smallest number of the receiving apparatuses in the identified section as a connection destination of the receiving apparatus that has transmitted the distribution participation request A distribution processing unit;
A connection destination distribution server information transmitting unit that transmits connection destination distribution server information indicating the determined distribution server to a receiving device that has transmitted the distribution participation request;
The receiving device is:
A distribution participation request transmitter for transmitting the distribution participation request;
An RTT measurement unit that measures an RTT with each of the distribution servers indicated in the distribution server information when the distribution server information is acquired from the distribution server management device;
A distribution server RTT information transmitting unit that transmits an RTT measurement result between the distribution servers as the distribution server RTT information to the distribution server management device;
A content reception control unit that establishes a session with the determined distribution server indicated in the connection destination distribution server information when receiving the connection destination distribution server information, and receives the IP content;
Each of the distribution servers determines the distribution time of each of the receiving devices in order from the receiving device having the largest RTT, and transmits the IP content. The distribution server distribution processing unit of the distribution server management device includes:
When the measurement result of the RTT with the distribution server determined as the connection destination is equal to or greater than a predetermined reference value, the number of the reception apparatuses is not the distribution server with the smallest number of the reception apparatuses in the specified section. When the distribution server with the next smallest number of receiving devices is extracted in order from the distribution server with the smallest number, and the RTT measurement result with the extracted distribution server is less than the predetermined reference value, the extracted distribution When the server is determined as a connection destination of the receiving device that has transmitted the distribution participation request, and the RTT measurement result with the extracted distribution server is equal to or greater than the predetermined reference value, the extracted distribution server Rather, the distribution server with the next smallest number of receiving devices is extracted, and it is determined whether the RTT measurement result with the extracted distribution server is less than the predetermined reference value. By repeating until no distribution server of interest, the distribution server distributing system according to claim 1, characterized in that to determine the distribution server to which the connection destination of the receiving apparatus having transmitted the distribution participation request. A plurality of distribution servers for distributing IP content; a plurality of receiving devices connected to any of the plurality of distribution servers for receiving the IP content; and the distribution connected by the receiving device for requesting the distribution of the IP content A distribution server management device for determining a server, the distribution server management device of a distribution server distribution system comprising:
Distribution server information indicating the address of each distribution server, and RTT (Round Trip Time) between the reception device and the distribution server are divided at predetermined time intervals, and RTTs of the reception devices included in each division A storage unit for storing the number of distribution server processing devices that stores the number of receiving devices for each of the plurality of distribution servers;
A distribution server information transmitting unit that transmits the distribution server information to the receiving device that has transmitted the distribution participation request when receiving a distribution participation request for requesting distribution of the IP content from the receiving device;
When the distribution server RTT information indicating the measurement result of the RTT between each of the distribution servers is received from the reception device, the distribution server processing device number information for each of the distribution servers is referred to, and A distribution server that identifies the section corresponding to the measurement result of RTT in between and determines the distribution server with the smallest number of the receiving apparatuses in the identified section as a connection destination of the receiving apparatus that has transmitted the distribution participation request A distribution processing unit;
A connection destination distribution server information transmitting unit that transmits connection destination distribution server information indicating the determined distribution server to a receiving device that has transmitted the distribution participation request; and
A distribution server management device comprising: The distribution server distribution processing unit
When the measurement result of the RTT with the distribution server determined as the connection destination is equal to or greater than a predetermined reference value, the number of the reception apparatuses is not the distribution server with the smallest number of the reception apparatuses in the specified section. When the distribution server with the next smallest number of receiving devices is extracted in order from the distribution server with the smallest number, and the RTT measurement result with the extracted distribution server is less than the predetermined reference value, the extracted distribution When the server is determined as a connection destination of the receiving device that has transmitted the distribution participation request, and the RTT measurement result with the extracted distribution server is equal to or greater than the predetermined reference value, the extracted distribution server Rather, the distribution server with the next smallest number of receiving devices is extracted, and it is determined whether the RTT measurement result with the extracted distribution server is less than the predetermined reference value. By repeating until no distribution server of interest, the distribution server management apparatus according to claim 3, characterized in that to determine the distribution server to which the connection destination of the receiving apparatus having transmitted the distribution participation request. The receiving device connected to the distribution server management device according to claim 3 or 4,
A distribution participation request transmitter for transmitting the distribution participation request;
An RTT measurement unit that measures an RTT with each of the distribution servers indicated in the distribution server information when the distribution server information is acquired from the distribution server management device;
A distribution server RTT information transmitting unit that transmits an RTT measurement result between the distribution servers as the distribution server RTT information to the distribution server management device;
A content reception control unit for establishing a session with the determined distribution server indicated in the connection destination distribution server information and receiving the IP content when the connection destination distribution server information is received;
A receiving apparatus comprising:

Images