KR100303088B1 - Method and apparatus for controlling connection to sever in a video on demand system - Google Patents

Abstract

The present invention relates to an on-demand video server load control apparatus and method for performing load balancing in a distributed VOD server supporting a service with a Digital Storage Media-Command and Control (DSM-CC) protocol. Since the first to K th load regulation servers are selectively connected to the first to K th VOD servers in the related art, a predetermined load regulation server among the first to K th load regulation servers is down due to a system failure or other factors. If down), the VOD servers that are grouped with the failed load balancing server are unavailable. Thereafter, even if a given load balancing server is restored, the VOD servers of the group connected to the load balancing server are not available. In the present invention, the load regulation server compensator is connected to the first to K th load regulation servers, respectively, and when a predetermined load regulation server among the first to K th load regulation servers is down, another load regulation server connected to the other is restored. It connects to the load balancing server and provides the information of VOD servers connected to it. Thus, when the load balancing server is down, it can be connected to the down load balancing server and reuse the unavailable VOD servers.

Description

On-demand video server load balancing device and method {METHOD AND APPARATUS FOR CONTROLLING CONNECTION TO SEVER IN A VIDEO ON DEMAND SYSTEM}

TECHNICAL FIELD The present invention relates to an apparatus and method for adjusting video load on demand (hereinafter, referred to as VOD) server, and more particularly, to support a service with a Digital Storage Media-Command and Control (DSM-CC) protocol. The present invention relates to a load balancer and a method for performing load balance in a VOD server having a structure.

Thanks to the rapid development of the semiconductor and telecommunications industry, the establishment of the high-speed information communication base is rapidly spreading. In such a high-speed information communication base, a user wants to obtain information in an interactive and active manner rather than simply receiving the information passively. By using digital interactive cable television (I-CATV) service technology, information such as video information required by a television viewer can be immediately provided at a desired time. In order to realize such VOD service, it is possible to transmit information between the information provider composed of a large-capacity server capable of storing and transmitting the information, the client who is the television user using the actual information, and the information provider and the client. The network (network) is operated in conjunction.

On the other hand, DSM-CC is an ISO standard for standardizing the VOD system described above, and is a common method for managing bit streams stored in media regardless of what digital storage media are used in a near or far region. Is a set of protocols that define the operational and control functions. The DSM-CC protocol has a user-to-network environment for directly transmitting and receiving data between a client and a server, and a user-to-network environment for transmitting and receiving data between a network and a client or a network and a server.

In this inter-user environment and user-to-network environment, when a predetermined client or server requests a session set-up request to the network side, the network side transmits session set-up confirmation information to the client or server to perform the step of activating the session. do. Then, the release request (ReleaseRequest) is generated from the client or server, the session is released, and the confidence information according to the resource request (ServerAddResourceRequest) generated from the server to form a Motion Picture Expert Group (MPEG) channel between the client and the server. Is transmitted from the network to the corresponding server in the user-to-network environment, and before the session is activated and the above-mentioned address resource request is generated and the channel is formed for the address resource request, the actual MPEG data is transmitted. The steps are done in an inter-user environment.

As described above, in a VOD system operated in an inter-user environment and a user-to-network environment, the VOD server needs a high performance VOD server system having a large amount of information capability. Such a high performance VOD server system requires a high cost as a single VOD server system, and requires a VOD server system having the same information providing capability as a single expensive VOD server system by distributing a low cost VOD server system.

1 is a block diagram showing the configuration of a conventional distributed VOD server load control device, VOD server 100, load control server 110, Session & Resource Manager (SRM) 120, and the client It consists of 130. The VOD server 100 includes first to K-n VOD servers. The load regulation server 110 includes first to K th load regulation servers. The client 130 has first to nth clients.

In the figure, if there is a service request from a predetermined client among the first to nth clients in the client 130, the SRM 120 requests the service of the client among the first to K th load balancing servers in the load balancing server 110. It can search the load control server connected to the VOD server and form a user-to-user environment to send and receive data directly between the VOD server and the client.

However, since the first to K th load regulation servers are selectively connected to the first to K th VOD servers, any of the first to K th load regulation servers may be down due to system failure or other factors. If down), the VOD servers that are grouped with the failed load balancing server are unavailable. Thereafter, even if a given load balancing server is restored, the VOD servers of the group connected to the load balancing server are not available.

The present invention has been made to solve the above-described problems, even if the load control server to adjust the data transmission and reception between the predetermined VOD server and the client among the multiple VOD server of the distributed structure of the VOD system load control server The purpose of the present invention is to provide a VOD server load balancer and a method for enabling VOD servers to be recycled.

The present invention for achieving the above object, DSM- having a group of first to Kn VOD servers, first to K th load regulation server selectively connected to the group of first to Kn VOD servers A distributed VOD server system supporting a service using a CC protocol, comprising: a load control selectively connected to a group of the first to Kn VOD servers and connected to each of the first to K th load regulation servers, respectively; If the server is down, it includes a plurality of load control server compensator for connecting the VOD server that was connected to the down load control server to another load control server until the downloaded load control server is restored.

Another feature of the present invention for achieving the above object is a first to K-th load balancing server, each connecting to a specific VOD server among a plurality of VOD server performing a VOD service request of a specific client of the plurality of clients, the plurality Is selectively connected to each of the VOD servers of the first and Kth load control servers, and when the specific load control server of the first to Kth load control servers is down, the client service request of the downloaded load control server A VOD server system having first to K th load balancing compensators for respectively connecting to a specific VOD server, the VOD server system comprising: a first step of searching for an unloaded load regulation server and transmitting a connection request message when the specific load regulation server is down; ; A second step of connecting to the load control server that is not down if there is a response allowing the connection request from the load control server that is not down; A third step of providing information of the VOD servers connected to the load control server that is not down; A fourth step of retrieving whether the loaded load adjustment server has been restored; If the load control server that has been down is restored, a fifth step of disconnecting the currently connected load control server and reconnecting to the restored load control server is included.

1 is a block diagram showing the configuration of a conventional distributed VOD server load control device;

2 is a block diagram showing an embodiment of a distributed VOD server load adjusting apparatus according to the present invention;

3 is a block diagram illustrating an embodiment of the load regulation server compensator shown in FIG. 2;

Figure 4 is a flow chart showing step by step an embodiment of a distributed VOD server load adjustment method according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: VOD server 200: load balancing server

120: SRM 130: Client

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of the preferred embodiment according to the present invention.

The same reference numerals are used for the same configuration.

2 is a block diagram illustrating an embodiment of a distributed VOD server load adjusting apparatus according to the present invention, and includes a VOD server 100, a load adjusting server 200, an SRM 120, and a client 130. The VOD server 100 includes first to K-n VOD servers. The load regulation server 200 includes a first to K th load regulation server and a first to K th load regulation server compensator. The client 130 has first to nth clients.

In the same figure, the 1st-Kth load regulation servers 210-200K and the 1st-Kth load regulation server compensators 210'-200K 'in the load regulation server 200 are mutually connected.

The first to n th VOD servers in the VOD server 100 are connected to the first to K th load balancing servers 210 to 200K in group units.

The SRM 120 provides a client's VOD service request message to a load control server connected to a VOD server capable of providing information according to the service request when there is a VOD service request from a specific client.

The load control server compensator connected to the load control server receiving the service request message from the SRM 120 determines whether the load control server is down and performs an operation corresponding thereto.

FIG. 3 is a block diagram illustrating an embodiment of the first load balancing server compensator 210 'illustrated in FIG. 2, and includes a network manager 211 ′, a message broker 212 ′, and a load balancing server address storage 213. '), A load adjuster 214', and a VOD server address storage 215 '.

In the figure, the network manager 211 'processes a message provided from a specific load control server and a specific VOD server and provides it to the load control unit 214'.

When a message is provided from the network manager 211 ', the load adjuster 214' determines whether the load control server to which it is connected is down. As a result of the determination, if it is down, as shown in the following description, a message indicating whether the other load control server can be accessed by the information of the load control server address storage unit 213 'and a message indicating that the connection is possible from the load control server. If is provided, information of VOD servers is provided to the corresponding load control server. Thereafter, when the load control server to which it is connected is restored, the load control unit 214 'disconnects from the currently connected load control server and accesses the original load control server.

The message broker 212 ′ exchanges a message for exchanging between a predetermined load balancing server and VOD servers connected to it when an OK response to a connection is received from a predetermined load balancing server among the first to K-th load balancing servers. Deliver it.

The load control server address storage unit 213 'stores address information of a load control server to which the load control server 213' is accessible and provides it when requested by the load control unit 214 '.

The VOD server address storage unit 215 'stores the address information of the VOD servers and provides them to the load controller 214'.

The load controller 214 'may perform the above operation, that is, a client service request among the VOD servers, based on information provided from the load balancer server address storage 213' and the VOD server address storage 215 '. By providing the VOD server address information, the VOD server and the client can send and receive data directly.

Figure 4 is a flow chart showing step by step an embodiment of a distributed VOD server load adjustment method according to the present invention.

The load control unit 214 'of the predetermined load control server compensator connected to the load control server that receives the client service request message from the SRM 120 among the first to K th load control server compensators 210' to 200K '. The server determines whether the load control server to which it is connected is down (steps 400 and 401).

As a result, if the load control server to which the server is connected is down, the load control unit 214 'may determine that the other load control server is not down from the load control server address information stored in the load control server address storage unit 213'. The address information is found and the message for the connection request is transmitted to the load control server and the response from the load control server is waited (steps 402 and 403).

The message broker 212 ′ determines whether there is an OK response for accessibility from the load balancing server (step 404). The message broker 212 ′ delivers a message exchanged between the corresponding load control server and the VOD servers to which it is connected.

If there is an OK response to the load control server from the corresponding load control server, the load control unit 214 'performs a connection to the load control server (step 405).

The load adjuster 214 'provides information on the VOD servers connected to the load adjuster server (step 406).

The load conditioner 214 'determines whether the originally connected load regulation server is restored or not (steps 407 and 408).

The load control unit 214 'determines whether to recover, and if restored, blocks the connection to the currently connected load control server, reconnects to the load control server that was originally connected, and load control server connected to itself again. If down, the above process is repeated (step 409).

As described above, the present invention connects the load adjusting server compensator to the first to K-th load adjusting servers, respectively, and when the predetermined load adjusting server of the first to K-th load adjusting servers is down, the load adjusting server which is connected with itself is connected. It will connect to other load balancing servers until it recovers and provide information about VOD servers connected to it. Thus, when the load balancing server is down, it can be connected to the down load balancing server and reuse the unavailable VOD servers.

Claims (2)

A distributed VOD server having a group of first through Kn VOD servers, a first through K th load balancing server selectively connected to the group of first through Kn VOD servers, and supporting a service through a DSM-CC protocol. In the system: A plurality of load regulation server compensators selectively connected to the group of first through K-n VOD servers and connected to the first through K th load regulation servers, respectively; The load control server compensator may include a network manager configured to process a message provided from the first to K-th load control server and the first to K-n VOD servers; A VOD server address storage unit for storing the first to K-n VOD server address information; A load control server address storage unit which stores address information of the load control servers that are accessible; If the currently connected load control server is down by a message provided by the network manager, it attempts to connect to another load control server that can be accessed stored in the load control server address storage unit to obtain the information of the first through Kn VOD servers. A load control unit for reconnecting when the load control server that was provided and down is restored; On-demand video server load characterized in that it comprises a message relay unit for transferring an exchange message between the load control server and the VOD server to be accessible to the load control server connectable among the first to K-th load control server of the load control unit Regulator. A first to K th load balancing server each connecting to a specific VOD server among a plurality of VOD servers performing a VOD service request of a specific client among a plurality of clients, and selectively connecting to the plurality of VOD servers respectively; A first to K th load balancer, each connected to a load balancing server to connect a client service request of the downloaded load throttling server to a specific VOD server when a specific load throttling server of the first to K th load throttling servers is down; In a VOD server system with a compensator: A first step of searching for a load control server not down and transmitting a connection request message if the specific load control server is down; A second step of connecting to the load control server that is not down if there is a response allowing the connection request from the load control server that is not down; A third step of providing information of the VOD servers connected to the load control server that is not down; A fourth step of retrieving whether the loaded load adjustment server has been restored; And disconnecting the currently connected load control server and reconnecting to the restored load control server when the down load control server is restored.