KR101144408B1 - Network access system and method having redundancy structure - Google Patents

Abstract

The present invention duplicates an IP-based network access system, monitors traffic flowing in a communication path between a content provider and a subscriber through an IP-based network, and changes a traffic path when a network failure occurs to handle a network failure. A connection system and method are provided.

Description

Network access system and method having a redundant structure {NETWORK ACCESS SYSTEM AND METHOD HAVING REDUNDANCY STRUCTURE}

The present invention relates to a network access system having a redundant structure, and more particularly, to a network access system and method for rapidly handling a network failure by monitoring traffic flowing on a communication path between a content provider and a subscriber connected through an IP-based network. It is about.

In general, IP-based high-speed Internet access network is a DSLAM (Digital Subscriber Line Access Multiplier) or FES (Fast Ethernet Switch), which accepts subscriber terminals using xDSL (Digital Subscriber Line) or Ethernet (Ethernet) access technology, at home and abroad. An aggregation switch for collecting a plurality of FES or DSLAM, a metro switch for collecting a plurality of non-national aggregation switches in a national office, and a network connection system for receiving and connecting a plurality of metro switches to a backbone network.

In this case, the FES or DSLAM accommodating the subscriber station processes data through an exchange function of a link layer, which is a layer 2 layer, except for the aggregation switch, the metro switch, and the network access system of the network layer Process data through routing.

However, since the conventional network access system configured as described above forms a single communication path between the content server connected to the backbone network and the subscriber station, data communication is possible through only one network access system.

Therefore, when the content source is transmitted from the content server connected to the backbone network to the subscriber terminal, the content source is transmitted using one communication path, which may cause a problem in data transmission speed. The data transmission speed may cause a problem due to a communication path failure when a large amount of data is transmitted from one content server or a data transmission time is delayed, causing an error in the communication path. There is a problem.

The present invention has been made to solve this problem, and it is possible to duplicate the IP-based network access system and to monitor the traffic flowing in the communication path between the content provider and the subscriber connected via the IP-based network, when a network failure occurs. It is an object of the present invention to provide a network access system and method for overcoming a network obstacle by automatically changing from a redundant structure to a traffic path of a normal network.

In accordance with one aspect of the present invention, there is provided a network access system, comprising: a first network connection structure configured to transfer data packets of various contents provided from a content provider to a backbone network; A second network connection structure for delivering data packets of various contents provided from the content providers to the backbone network; And an L2 switch connected to the backbone network and transferring a data packet transmitted through the first network connection structure or the second network connection structure to a corresponding subscriber station at the request of a subscriber, wherein the first network connection structure includes: And monitoring the traffic flowing through the data packet and automatically switching to the second network connection structure if the transmission rate of the traffic drops below a certain level.

On the other hand, the network access method of the present invention for achieving the above technical problem, the first step of delivering a data packet of various content provided from the content provider to the backbone network through the first network connection structure; A second step of monitoring, by the control server of the first network connection structure, the traffic flowing through the first network connection structure to determine whether the transmission rate of the traffic falls below a certain level; And a third step of changing the communication path of the network by automatically switching to a second network connection structure which is duplexed like the first network connection structure when the transmission rate of the traffic drops below a certain level.

According to the present invention described above, if a network failure occurs by monitoring traffic flowing through a communication path of the network, the network connection structure can be automatically changed to quickly cope with the effect of preventing the disconnection of the network.

1 is a block diagram of a network access system having a redundant structure according to an embodiment of the present invention.
2 is a view showing the flow of traffic during normal operation of the network in the network access system according to an embodiment of the present invention.
3 is a diagram illustrating the flow of traffic in the event of a network failure in a network access system according to an embodiment of the present invention.
4 is a flowchart illustrating a network access method having a redundant structure according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and the operation and effect thereof will be clearly understood through the following detailed description. Before describing the present invention in detail, the same components are denoted by the same reference symbols as possible even if they are displayed on different drawings. In the case where it is judged that the gist of the present invention may be blurred to a known configuration, do.

1 is a block diagram of a network access system having a redundant structure according to an embodiment of the present invention.

The network access system 100 having a redundancy structure according to an embodiment of the present invention may include a first network access structure 120 and a second network access for transmitting traffic transmitted from the content provider 110 to the backbone network 140. It may be implemented by including the structure 130, and the L2 switch 150 connecting the backbone network 140 and the subscriber set-top box 160 (or subscriber terminal).

According to the network access system 100, the content provider 110 accesses the backbone network 140 through a communication path of either the first network access structure 120 or the second network access structure 130, thereby providing content. The data packet of the subscriber, the set-top box 160 of the subscriber may be connected to the backbone network 140 through the L2 switch 150 to receive the data packet of the desired content according to the user's request.

Here, 'content' or 'various contents' includes broadcast contents for terrestrial or satellite real-time broadcasting, VOD contents, multimedia contents including video data and audio data provided through the Internet, and the like.

Contents Provider (CP) 110 is a source source that provides data of various contents to subscribers, for example, the distribution of digital contents for free and transparent distribution of digital contents on Internet broadcasting, cyber university, or online. It may be a professional site, a program provider (PP) that provides over-the-air broadcasting such as KBS or MBC. Dual Internet broadcasting is a service that provides a multimedia service through the Internet and can be defined as a broadcasting medium in which the characteristics of the Internet and the characteristics of the broadcasting are combined.

The content provider 110 may be physically connected to both the first network connection structure 120 and the second network connection structure 130 to deliver the same packet to each network connection structure 120 and 130. At this time, the data packet is transmitted through any one of the first network connection structure 120 and the second network connection structure 130 according to the routing information.

The first network connection structure 120 and the second network connection structure 130 are systems having a structure in which the same mechanism is duplexed with each other. That is, the first network connection structure 120 includes a first IP mux 122, a first control server 124, and a first router 126, and the second network connection structure 130 includes a second network connection. IP mux 132, a second control server 134, and a second router 136.

According to an embodiment of the present invention, the first network connection structure 120 and the second network connection structure 130 may be changed from the first network connection structure 120 to the second network connection structure 130 according to whether a network failure occurs. Alternatively, it may be implemented to be automatically switched on the contrary.

In each network connection structure, the first IP mux 122 and the second IP mux 132 are main components for compression multiplexing, and after compressing various content data provided from the content provider 110 for each channel, the IP multiplexer It is transmitted by a transmission method such as multicast or unicast. In particular, the first IP mux 122 and the second IP mux 132 mux and stream the content data of various channels provided from the content provider 110, and outputs the streamed data by IP packetization do.

The first control server 124 and the second control server 134 monitors the traffic from the packet signals output from the first IP mux 122 and the second IP mux 132, and the traffic is below a predetermined threshold value. When the first control server 124 and the first router 126, the second control server 134 and the second router 136 to block the connection of the network. In this case, the reference value may be set based on a transmission speed of traffic.

In general, if the network operation is normal, the traffic flowing through the network connection structure maintains a nearly constant transmission rate. However, if an abnormality occurs in the state of the network, the traffic fluctuates. In particular, the more unstable the network, the lower the transmission speed of the traffic. Based on this, limiting the transmission speed of the traffic to the reference value can determine the failure of the network as the traffic decreases.

In addition, since the traffic depends on the number and characteristics of the channels provided from the content provider 110, the reference value may be set differently according to the channel. In this case, the first control server 124 and the second control server 134 monitors the traffic flowing through each network connection structure for each channel. Since each channel has an assigned unique IP address, Through this, the channel can be distinguished and the cause analysis according to the channel failure will be possible.

The first control server 124 and the second control server 134 can easily implement redundancy by adding a control function to an existing Conditional Access System (CAS) server. Therefore, in the embodiment of the present invention, it is possible to implement using an existing infrastructure without additional configuration of a separate network.

The first router 126 and the second router 136 have a path to be preferentially routed to the control servers 124 and 134. For example, the first router 126 may be configured to route first to the first control server 124 and then to the second control server 134. In this case, when a failure occurs in the currently preset first control server 60, the routing information of the first control server 124 is deleted, and the second control server 134, which is the next routing information, is changed and routed.

At this time, the first router 126 and the second router 136 are connected through a predetermined communication protocol. That is, the first control is physically connected to the first router 126 and the second router 136, and normally does not communicate with the second router 136, but routes the first router 126 to route. If a failure occurs in the server 124, the router blocks the routing with the first control server 124 and communicates with the second router 136 to route to the second control server 134. Therefore, even when automatic switching from the first network connection structure 120 to the second network connection structure 130, the traffic is output through the first router 126.

Then, the flow of traffic according to the operation state of the network will be described with reference to the above configuration.

2 is a view showing the flow of traffic during the normal operation of the network in the network access system according to an embodiment of the present invention, Figure 3 shows the flow of traffic in the event of a network failure in the network access system according to an embodiment of the present invention Drawing.

First, as shown in FIG. 2, traffic flows through the first network connection structure 120 during normal operation of the network.

In detail, the first IP mux 122, the first control server 124, and the first router 126 of the first network connection structure 120 flow through the backbone network 140. .

At this time, ideally, if there is no load on the network, the traffic provided from the content provider 110 is constant for each channel. In other words, traffic flows at a constant transmission rate.

However, when the load starts to be applied to the network, the speed of the traffic gradually decreases, and if it falls further below the threshold, the communication path of the network may be interrupted and disconnected.

Therefore, when the speed of the traffic falls below the reference value, as shown in FIG. 3, the normal communication path is automatically switched to the remaining communication path structure, that is, the second network connection structure 130, in addition to the communication path where the traffic is reduced in the redundant structure. To forward the data packet.

Such automatic switching function may be performed by the first control server 124 of the first network connection structure 120.

In other words, the first control server 124 of the first network connection structure 120 monitors whether the traffic flowing through the first network connection structure 120 falls below a reference value, and when the traffic falls below the reference value, the first router ( In step 126, the routing information to the first control server 124 is deleted, and the routing information to the second control server 134 is added to the routing table.

Accordingly, as shown by the arrow shown in FIG. 3, the traffic transmitted from the content provider 110 is transmitted from the second IP mux 132 to the second control server 134 and the second router 136 of the second network connection structure 130. By passing through the communication path by the first router 126, it flows to the backbone network 140.

On the other hand, the first control server 124 and the second control server 134 periodically checks the failure recovery of the network connection structure in the automatic switching function and the failure state, when the failure recovery of the network connection structure is detected, the first router ( 136) to notify the failure recovery. For example, when automatically switching from the first network connection structure to the second network connection structure, the second control server 134 periodically checks for failure recovery of the first network connection structure 120. As a result of the check, the first router 136 notified of the failure restoration from the second control server 134 adds the routing information of the network connection structure in the routing table to restore the original state. At this time, the period for checking for failure recovery may be performed at a predetermined time elapsed at the time of power on / off, or may be checked in real time.

Next, a method of performing redundancy using the above network connection system will be described with reference to FIG.

First, a network connection structure between a content provider and a subscriber is implemented by redundancy, and in the redundancy structure, the first router 126 and the second router 136 are configured with information that is preferentially routed by the corresponding router. The first router 126 and the second router 136 are connected to each other through a communication protocol.

For convenience of understanding, it is assumed that an IP packet is normally transmitted through a communication path of the first network connection structure 120. Therefore, when the network is operating normally, traffic sent from the content provider 110 may cause the first IP mux 122, the first control server 124, and the first router 126 of the first network connection structure 120 to stop. Via the communication path of the first network connection structure 120 through (S110).

At this time, the first control server 122 monitors the traffic transmitted along the communication path of the first network connection structure 120 for each channel (S120).

For example, when the traffic transmission rate of a predetermined channel is 100 Mbps, the reference value is set to 91 Mbps and the traffic transmission rate is monitored to fall below the reference value of 91 Mbps. Therefore, it is determined whether the network is out of the range for normal operation. The transmission speed of this traffic is different for each channel, and the reference value may also be set differently according to the communication environment for each channel.

If the traffic falls below the reference value, the first control server 124 transmits a traffic error message to the first router 126 (S130).

Then, in the first router 126, the routing table may be changed by deleting the current routing information, that is, the currently preset routing information, and adding and selecting the routing information set in the next order (S140).

Simultaneously with the change, the first router 126 blocks the traffic due to the communication path with the first control server 124 by deleting the existing routing information in which the traffic error occurs (S150), and the second control server set in the next order ( By additionally selecting the routing information of 134 and routing to the second control server 134, it is automatically switched from the existing first network connection structure 120 to the second network connection structure 130 (S160).

For this reason, the communication path of the traffic is changed to the second network connection structure 130 (S170).

From then on, the IP packet provided from the content provider 110 is sent out through the second network connection structure 130. Accordingly, the traffic provided from the content provider 110 is sequentially transmitted to the second IP mux 132, the second control server 134, the second router 136, and the first router 126 to the backbone network. (S180 to S220).

Therefore, an embodiment of the present invention is characterized in that a smooth data communication is possible by monitoring the transmission speed of traffic flowing through the network connection structure and automatically switching to another communication access path when the transmission rate drops. In addition, since the traffic flowing through the network connection structure can be monitored for each channel, it is possible to analyze the cause of the channel failure.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that.

Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are exemplary in all respects and not limited. The invention is only defined by the scope of the claims.

100: network connection system
110: content provider
120, 130: first and second network connection structure
122, 132: first and second IP mux
124, 134: first and second control server
126, 136: first and second router
140: backbone
150: L2 switch
160: set top box (STB)

Claims (11)

A first network connection structure for delivering data packets of various contents provided from the content providers to the backbone network;
A second network connection structure for delivering data packets of various contents provided from the content providers to the backbone network; And
An L2 switch connected to the backbone network and transferring a data packet transmitted through the first network connection structure or the second network connection structure to a corresponding subscriber station at the request of a subscriber;
The first network connection structure monitors the traffic flowing through the data packet and automatically switches to the second network connection structure when the transmission rate of the traffic drops below a certain level.
And after the second network connection structure is automatically switched over from the first network connection structure, periodically restores the failure of the first network connection structure to restore to the first network connection structure. delete The method of claim 1,
The first network connection structure is
And monitoring the traffic flowing through the data packet for each channel to analyze the cause of the channel failure. The method of claim 1,
The first network connection structure and the second network connection structure,
First and second IP muxes which receive data packets of various contents provided from the content provider, compress them for each channel, and transmit the compressed data packets;
First and second control servers for monitoring traffic from data packets provided through the first and second IP muxes and controlling a switching operation according to a transmission speed of the traffic; And
First and second routers for routing to the control server according to the control of the first and second control server
Network connection system comprising a. The method of claim 4, wherein
The first control server,
When the transmission rate of the traffic falls below a predetermined level, a traffic error message is transmitted to the first router to delete the currently set routing information, and control to change the routing table by additionally selecting the next routing information. Network connection system. The method of claim 4, wherein
The first router and the second router are connected by a predetermined communication protocol so that the traffic is output through the first router even when the automatic switching from the first network connection structure to the second network connection structure. system. Transmitting a data packet of various contents provided from the content provider to the backbone network through the first network connection structure;
A second step of monitoring, by the control server of the first network connection structure, the traffic flowing through the first network connection structure to determine whether the transmission rate of the traffic falls below a certain level;
A third step of changing the communication path of the network by automatically switching to a second network connection structure which is duplexed like the first network connection structure when the transmission rate of the traffic drops below a certain level;
And after the automatic switching from the first network connection structure, a fourth step of periodically checking for restoration of the failure of the first network connection structure and restoring to the first network connection structure. delete The method of claim 7, wherein
The first network connection structure and the second network connection structure are connected by a communication protocol between routers, and the router of the first network connection structure even when automatically switching from the first network connection structure to the second network connection structure. Network access method characterized in that the traffic is output through. 10. The method of claim 9,
In the third step,
Delivers a traffic error message from the control server of the first network access structure to the router of the first network access structure, deletes the currently set routing information, and adds and selects routing information to be routed to the second network access structure. A network connection method, characterized in that the automatic switching by changing the table. The method of claim 7, wherein
The second step comprises:
In the control server of the first network connection structure, the network connection method, characterized in that the cause of the channel failure can be monitored by monitoring the traffic flowing through the data packet for each channel.

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