KR101521257B1 - Broadcasting service system with media server load balancing management - Google Patents

Abstract

A system for providing a broadcast service through server load balancing management is disclosed. The system includes a plurality of broadcast sets including at least one origin server for retransmitting a broadcast transmitted from a broadcast terminal and a plurality of edge servers for transmitting the broadcast to the broadcast terminal, And provides origin server information for broadcast transmission to the broadcasting terminal based on the managed information, and provides edge server information for broadcasting reception to the broadcasting terminal Lt; / RTI > As a result, a large-scale broadcast and a small-scale personal broadcast can all be served together in one system without waste of system resources.

Description

Technical Field [0001] The present invention relates to a broadcast service providing system,

The present invention relates to a broadcasting system, and more particularly, to a system capable of providing a broadcasting service without waste of system resources.

1 is a diagram showing a configuration of a conventional live broadcasting system.

Most of the media servers are divided into an origin server 110 and an edge server 120 as shown in FIG. 1 to provide a broadcasting service. Accordingly, when the broadcast terminal 130 that broadcasts the broadcast transmits only the broadcast to the origin server 110, the broadcast server 110 transmits the broadcast to the edge servers 120, And watches the broadcast through the edge server 120 connected to the origin server 110. The reason why the media server is divided into the origin server 110 and the edge server 120 is to accommodate many viewers. If both of the origin server 110 and the edge server 120 are able to process images in and out of a total of 1000 images for input and output, the origin server 110 generates 1000 edges for one image input, If it is possible to retransmit to the server 120 and accommodate 1000 viewers per one edge server 120, one million viewers can simultaneously view one broadcast. Therefore, such a media server is suitable for most Internet video streaming.

However, it is not suitable for internet private broadcasting. The reason for this is that in the case of Internet personal broadcasting, there are many broadcasting providers, but most of them do not have many viewers. For example, as illustrated in FIG. 2, when 1000 broadcasting providers send broadcasts through one origin server 210, both the origin server 210 and the edge server 220 have a problem. The origin server 210 can receive 1000 inputs but can not resend the edge server 220 to the edge server 220 due to insufficient resources to be re-transmitted to the edge server 220. Even if the origin server 210 re-transmits the packets to all the ESD servers 220, the edge server 220 also uses all of the resources to receive input for 1000 broadcasts. It is impossible to allocate the resources for the viewer and the viewer can not be accommodated.

Therefore, a live broadcasting system is configured as shown in FIG. 3 for a broadcasting service such as Internet personal broadcasting. That is, if the origin server 310 accommodating about 50 inputs and about 20 edge servers 320 for viewing broadcasts are provided, the origin server 310 can receive and re-transmit 50 * 20 = 1000 images , The edge server 320 can accommodate 20 * 1000 = 20,000 viewers. Therefore, if there are hundreds of viewers for one broadcast, there is no big problem if the system is implemented as shown in FIG.

As described above, a small-sized broadcasting system and a large-scale broadcasting system have different system configurations. This is due to the limitations of the server system. However, as shown in FIG. 2, if there are not many viewers in a large-scale broadcasting system, there arises a problem that system resources are wasted. As shown in FIG. 3, if the number of viewers increases in a small-scale broadcasting system, the viewer can not accommodate all of the viewers, which causes a problem that viewing is impossible. That is, in the case of FIG. 3, if one of the Internet personal broadcasting suddenly explodes in popularity and the total number of viewers exceeds 20,000, a problem that the viewer can not be accommodated can occur.

It is an object of the present invention to provide a technical solution that can serve both small-scale broadcasting and large-scale broadcasting without wasting system resources.

According to an aspect of the present invention, there is provided a system for providing a broadcast service through server load balance management, including at least one origin server for re-transmitting broadcasts transmitted from a broadcast terminal, And managing information on all origin servers and edge servers included in the broadcast sets and transmitting the broadcast sets to the broadcast terminal based on the managed information, And a management server for providing origin server information for broadcast transmission and providing edge server information for broadcast reception to the viewing terminal.

The managed information includes information on broadcast reception sessions and broadcast transmission sessions of all the origin servers and edge servers.

The management information further includes priority information of origin servers when there are more than two origin servers in the broadcast set, and the management server transmits a broadcast reception session to origin servers in the broadcast set in consideration of the priority information Allocate in equal order or in descending order of priority.

The management information may further include priority information of edge servers in the broadcast set, and the management server may allocate a broadcast transmission session to the edge servers in the broadcast set evenly considering the priority information, Allocate in descending order.

When the broadcast receiving session or the broadcast transmitting session of the edge servers belonging to one of the broadcast sets reaches the limit, the management server broadcasts the originating server of the broadcast set reaching the limit to the origin server of another broadcast set And send it again.

According to another aspect of the present invention, there is provided a system for providing a broadcast service through server load balancing management, the system comprising: media servers for transmitting broadcasts transmitted from broadcast terminals to a view terminal; And managing information on the media servers, providing media server information for broadcasting to the broadcasting terminal based on management information including information on a broadcasting reception session and a broadcasting transmission session of the media servers, And a management server for providing media server information for broadcast reception to the terminal; The management server resends the broadcast to the other media server by the media server whose broadcast transmission session has reached the limit.

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The management information further includes priority information of the media servers, and the management server provides media server information for broadcasting out of the media servers to the broadcasting terminal according to the priority information.

The management server causes the media server whose broadcast transmission session has reached a limit to resume broadcasting to another media server having the shortest hop.

According to the present invention, since there is a server that manages the balance of media server load, the arrangement of the media server becomes free.

In addition, the present invention creates the effect that both large-scale broadcasting and small-scale personal broadcasting can be served together in one system without waste of system resources. In addition, it is possible to automatically provide access and traffic management even in a situation where a sudden viewer is congested in a large-scale broadcast, and thus the broadcast service can be stably provided.

Further, the present invention enables a broadcasting system to operate even in the case of an in-house broadcasting system having a firewall and bandwidth limitation of a dedicated line.

In addition, the present invention can exhibit the same effect as a Grid Media Server when the freedom of the open broadcast system environment is enhanced, so that it is possible to freely manage expansion, expansion, and closure of the media server. Thus, the efficiency of the system resources can be maximized.

1 is a diagram showing a configuration of a conventional live broadcasting system.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]
3 is a diagram illustrating a conventional system for providing a small-scale broadcast service;
4 is a system configuration diagram using a broadcast set method.
5 is a block diagram of a broadcast service providing system of the MSLBS scheme according to an embodiment of the present invention;
6 is a reference diagram for explaining a broadcasting service method using an MSLBS scheme according to an embodiment of the present invention;
7 is a reference diagram for explaining a case where MSLBS is applied to an in-house broadcasting system having a firewall.
FIG. 8 is a block diagram of a system for providing a broadcast service of MSLBS according to another embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a block diagram of a broadcast service providing system using a broadcast set method.

We propose a method of constructing a broadcast set as a solution to the problem mentioned above. To explain this, a small-scale broadcasting system is grouped into a plurality of sets. This is hereinafter referred to as a broadcast set. As shown in FIG. 4, the broadcast service providing system includes a plurality of broadcast sets 410. The broadcast set 410 comprises an origin server 411 and an edge server 412. When such a broadcasting service providing system is used for small-scale broadcasting, the broadcasting provider decides which broadcasting set 410 should transmit the broadcasting, and then broadcasts the broadcasting to the origin server 411 of the corresponding broadcasting set. The viewer accesses the corresponding edge server 412 and watches the broadcast. When a large-scale broadcast is used, a super origin server 420 is placed in front of the origin server 411. The broadcast provider sends broadcasts to the origin servers 411 of all the broadcast sets through the super origin server 420 and the viewers access the edge servers 412 of all the broadcast sets 410 to watch broadcasts. But there is a problem in this way too. In order to use the above method, it is necessary to determine whether the broadcast is a small broadcast or a large broadcast, and if the broadcast suddenly increases, the viewer can not accommodate all the viewers, and the broadcast is a large- There is a problem that arises.

5 is a block diagram of a system for providing a broadcast service through server balance management according to an embodiment of the present invention.

Broadcast service provision through server balance management also has broadcast set basically. As shown, the system includes a plurality of broadcast sets 510 and a management server 520. Each broadcast set 510 comprises at least one origin server 511 and a plurality of edge servers 512. The basic roles of the origin server 511 and the edge server 512 are the same as those described above. As an additional role, the origin server 511 and the edge server 512 access the management server 520, which will be described later, when they are ready for service, and report their status. The information reported to the management server 520 includes information about the number of broadcast inputs input to the media server and the number of viewers connected to the media server. The management server 520 manages information on the origin servers 511 and the edge servers 512 belonging to the broadcast set 510. At least a part of the management information includes the origin servers 511 and the edge servers 512 ≪ / RTI > The management server 520 manages the broadcast load balance of the media servers based on the management information. For this reason, the management server 520 may be referred to as a Media Server Load Balancing Server (MSLBS). Table 1 shows the media server information managed by the management server 520 for reference.

Media server information managed by MSLBS Server IP Server Port Type (Origin? Edge?) Num. Input Session (number of broadcast inputs) Num. Output Session (number of viewers) Priority ...

As shown in Table 1, the management server 520 manages information about the IP and Port of the media server and whether the media server is an origin server or an edge server. In addition, the management server 520 manages the number of broadcast sessions and the number of output sessions that are reported from the media server. The management server 520 manages a broadcast reception session and a broadcast transmission session limit value for each media server Can be managed. The threshold value may also be reported from the media server. In addition, the management server 520 can manage the priority of the media server. For example, when there are two or more origin servers belonging to one broadcast set 510, the management server 520 manages the priority of the origin server 511. The management server 520 also manages the priority of the edge servers 512 belonging to one broadcast set 510.

If there are more than two origin servers, the management server 520 may view the priority information and allocate the broadcast reception session to the origin server equally, or may continue to allocate to the higher priority origin server, And may assign a broadcast reception session to the origin server. The management server 520 may also assign broadcast broadcast sessions to the edge servers in the broadcast set 510 equally according to the priority. The broadcast transmission session may be sequentially allocated according to the priority. When all of the edge servers in the broadcast set 510 reach the limit, the management server 520 causes the origin server of the broadcast set to transmit the broadcast to the origin server of the other broadcast set, And manages a broadcast reception session and a broadcast transmission session so that the broadcast can be viewed.

Table 2 is information managed by the broadcasting terminal 530 of the broadcasting provider or the viewing terminal 540 of the viewer.

Broadcasting information Broadcast ID Broadcast provider information About MSLBS Broadcast server information received from MSLBS ...

As shown in Table 2, the broadcast information basically includes an ID for identifying the broadcast and broadcast provider information. And MSLBS information (IP address, etc.), and information on broadcast transmission server received and connected to the management server 520. Therefore, the broadcasting terminal 530 or the viewing terminal 540 can access the management server 520 using the MSLBS information, receive the media server information from the connected management server 520, transmit the broadcast to the origin server It can connect to the edge server and receive broadcasts.

6 is a reference diagram for explaining a broadcasting service method using the MSLBS scheme according to an embodiment of the present invention.

The broadcasting terminal 610 accesses the management server 620 when it wants to transmit the 'broadcast A', and inquires to which origin server the broadcast is to be transmitted. The management server 620 confirms the management information according to the inquiry of the broadcast provider and allocates the origin server 631 of the broadcast set 1 630 to the broadcast A and returns the assigned origin server information to the broadcast terminal 610 do. The broadcast terminal 610 transmits the broadcast A to the origin server 631 of the broadcast set 1 630 according to the reply result. Then, the viewing terminal 1 (640) inquires to the management server 620 about which edge server should be connected to receive broadcast A in order to receive broadcast A. Since the broadcast A can be viewed through the broadcast set 1, the management server 620 returns the edge server information of the broadcast set 1 630 to the audience terminal 1 640. Thus, the audience terminal 1 640 accesses the edge server 632 of the broadcast set 1 630 to receive the broadcast. The management server 620 causes the origin server 631 of the broadcast set 1 630 to transmit the broadcast set 2 650 to the broadcast set 1 630. In this case, To the origin server 651 of the origin server. The origin server 631 of the broadcast set 1 630 resends the broadcast to the origin server 651 of the broadcast set 2 650 and the origin server 651 of the broadcast set 2 650 transmits the new broadcast And reports it to the management server 620. When the viewing terminal 660 inquires of the management server 620 to receive the broadcast A, the management server 620 informs one of the broadcast set 1 630 and the broadcast set 2 650 to load the broadcast load . On the other hand, the management server 620 may use a server such as Redis to manage broadcast access information of the media server, and may determine which of the broadcast set 1 630 and the broadcast set 2 650 has a larger share To be set.

7 is a reference diagram for explaining an example in which the MSLBS scheme is applied to an in-house broadcasting system having a firewall.

In the case of an in-house broadcast system, a company can be divided into several branches, each of which may be blocked by a firewall. Also, because a significant number of companies do not have a large network bandwidth going out of each branch, they can not access broadcast set 1 (710) in public-IDC to watch broadcasts. Therefore, the viewer must find a broadcast set suitable for the network environment and watch the broadcast. The broadcast sets 720, 730, and 740 installed in the branch offices can not transmit broadcasts to the origin server of the broadcast set 2 because of the firewall. Accordingly, when the viewer 2 requests the broadcast viewing, the broadcast set 2 720 fetches the image information from the broadcast set 1 710 in the public-IDC through the management server 750 and relays the image to the viewer. The status of each broadcast set 710, 720, 730, 740 is registered in the management server 750, allowing the viewer to select an optimal broadcast set when viewing the broadcast. The management server 750 preferentially allocates broadcast sets in the same network when assigning broadcast sets to viewers. If there are multiple broadcast sets in the same network, allocate the most available broadcast sets.

8 is a block diagram of a system for providing a broadcasting service of MSLBS according to another embodiment of the present invention.

The broadcast service providing system shown in FIG. 8 includes media servers 810 and a management server 820. The media server 810 transmits the broadcasting signal transmitted from the broadcasting terminal 830 to the broadcasting terminal 840. 5, the management server 820 manages information about the media servers 810 and provides media server information for broadcast transmission to the broadcasting terminal 830 based on the management information And provides media server information for broadcast reception to a viewing terminal. Here, the management information may be as shown in Table 1, and only the server type is excluded.

Unlike the system shown in FIG. 5, such a system is a fully open broadcast system in which there is no concept of an origin server, an edge server, and a broadcast set. Do not separate the media server into an origin server and an edge server. It is a media server, and performs both the role of the origin server and the role of the edge server. All media servers 810 have their own broadcast receiving sessions and broadcast broadcasting session limit values, and may have additional priority. The management server 820 allocates the media server 810 for broadcast transmission to the broadcast terminal 830 according to the priority and when the broadcast reception session of the corresponding media server 810 reaches the limit, To a broadcast receiving session. On the other hand, when the broadcast transmission session of the corresponding media server 810 reaches the limit, the management server 820 distributes the broadcast reception session to the other media server 810, receives the broadcast transmission session from the corresponding media server 810 Respectively. That is, the media server 810 causes the other media server 810 to resend the broadcast. Therefore, it is preferable that the multi-stage broadcast retransmission is possible. If each step is referred to as a hop, it is preferable to resend the most hop to the short media server 810 when distributing the broadcast reception session. In addition, when a media server is allocated to the audience terminal 840, the network server allocates media servers closest to the network (in the same network environment as in the case of broadcasting in the above-described firewall), while having sufficient resources.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

510: broadcast set 511: origin server
512: Edge Server 520: Management Server
530: broadcasting terminal 540:
610: broadcasting terminal 620: management server
630: broadcast set 1 631: origin server
632: edge server 640: viewing terminal 1
650: broadcast set 2 651: origin server
652: edge server 660: viewing terminal 2
710: broadcast set 1 720: broadcast set 2
730: broadcast set 3 740: broadcast set 4
750: management server 810: media server
820: management server

Claims (10)

A plurality of broadcast sets including at least one origin server for retransmitting a broadcast transmitted from a broadcast terminal and a plurality of edge servers for transmitting the broadcast to the broadcast terminal; And
Managing information on all origin servers and edge servers included in the broadcast sets, providing origin server information for broadcast transmission to the broadcasting terminal based on the managed information, A management server for providing edge server information for the edge server;
And a server load balance management unit for controlling the server load balancing management unit. The method according to claim 1,
Wherein the managed information includes information on a broadcast receiving session and a broadcast transmitting session of all the origin servers and the edge servers. 3. The method of claim 2,
Wherein the managed information further includes priority information of origin servers when there are more than one origin servers in the broadcast set,
Wherein the management server assigns broadcast reception sessions to origin servers in the broadcast set equally or in descending order of priority in consideration of the priority information. 3. The method of claim 2,
Wherein the managed information further includes priority information of edge servers in the broadcast set,
Wherein the management server allocates the broadcast transmission sessions to the edge servers in the broadcast set equally or in descending order of priority in consideration of the priority information. 5. The method according to any one of claims 2 to 4,
When the broadcast receiving session or the broadcast transmitting session of the edge servers belonging to one of the broadcast sets reaches the limit, the management server broadcasts the originating server of the broadcast set reaching the limit to the origin server of another broadcast set And transmitting the re-transmitted information to the server. Media servers for transmitting broadcasts transmitted from broadcasting terminals to a viewing terminal; And
Management information on the media servers, providing media server information for broadcast transmission to the broadcasting terminal based on management information including information on a broadcasting reception session and a broadcasting transmission session of the media servers, And a management server for providing media server information for broadcast reception to the media server;
Wherein the management server causes a media server whose broadcast transmission session has reached a limit to re-transmit the broadcast to another media server. delete The method according to claim 6,
Wherein the managed information further includes priority information of the media servers,
Wherein the management server provides media server information for broadcasting out of the media servers to the broadcasting terminal according to the priority information. delete The method according to claim 6,
Wherein the management server causes the media server having reached the limit of the broadcast transmission session to resume broadcasting to another media server having the shortest hop.

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