KR20150099084A - System for intelligent broadcasting based on network - Google Patents

Abstract

The present invention relates to an intelligent broadcasting system based on a network wherein a network is duplexed to enable broadcasting to be continued even when a network is damaged and the network can be efficiently used by monitoring traffic of the network. The intelligent broadcasting system includes: a terminal outputting a broadcasting signal; and a main controller which accesses the duplexed network with the terminal, determines a network to be used by monitoring traffic of the duplexed network to control conversion of the network, controls conversion of the network during failure of a certain network, and automatically recovers a network with failure. When the main controller is connected to the terminal in a tree structure through the duplexed network, the wiring with each terminal is connected to be duplexed. When the main controller is connected to the terminal in a ring structure, the wring with each terminal is connected to be quadruplexed.

Description

[0001] The present invention relates to a network-based intelligent broadcasting system,

The present invention relates to a network-based intelligent broadcasting system, and more particularly, to a network-based intelligent broadcasting system in which a network is doubled to enable continuous broadcasting even in the event of network network failure, ≪ / RTI >

In general, an internal broadcasting system / public broadcasting system is a system designed to broadcast in a single building or a neighboring building such as an office building or a hotel in a desired area, a floor, and a district, and simultaneously transmits various sound sources It is designed to be able to select different sound sources according to each region or area, and it is designed to be variously modified according to the size and necessity of the building.

Among these public address broadcasting systems, in particular, a broadcasting system installed in a building or the like has a transmitting apparatus installed in a central broadcasting room, and a receiving apparatus is installed in each conference room. And broadcasts to each conference room in a central broadcasting room through a speaker or a television as a receiving apparatus. In the conference room broadcasting system and the like, as the multimedia technology has been developed recently, not only audio broadcasting but also video and caption broadcasting are also provided.

In recent years, public address systems have evolved into various types of digital public address systems using networks. The network structure used at this time uses a tree structure as shown in Fig. 1 or a ring structure as shown in Fig.

1 is a structure in which a control device 10 and a hub 20 are directly connected to each other and each of the terminals 31, 32, and 30n is connected through the hub 20. Here, the terminal refers to an amplifier, a remote amplifier, and the like.

Such a tree structure broadcast system is a medium pressure centralized type in which wires are connected to terminal equipment, respectively.

2 is a structure in which the control device 40 serves as a hub and each terminal 51, 52, and 50n is connected to the control device 40 in a ring form.

Such a ring structure broadcasting system is simple because the wiring structure forms a ring shape, but a collision detection protocol must be implemented in all the devices, and broadcasting can not be performed when the network is broken.

[0003] Meanwhile, a conventional technology for a broadcasting system using a network is disclosed in Korean Patent Registration No. 10-0869836 (registered on November 14, 2008) and Korean Patent Registration No. 10-0923490 (Registration on October 19, 2009).

The prior art disclosed in Patent Document 1 is a method for constructing an in-city broadcasting network in which a broadcasting network in a ring system is constructed so that the entire broadcasting network can be normally driven even in the event of damage or shortage in a data transmission path, And a corresponding broadcasting system.

In the prior art disclosed in Patent Document 2, a plurality of video channels and audio channels are broadcasted through a network in real time, and when data loss due to the UDP method occurs, data is transmitted in a TCP / IP manner Data loss can be restored, and when a network error occurs, it is automatically switched to an analog path so that a public address is always provided.

Korean Registered Patent Registration No. 10-0869836 (Registered on November 14, 2008) Korean Registered Patent Registration No. 10-0923490 (Registered on October 19, 2009)

However, in the case of the tree structure, the broadcasting system and the conventional broadcasting system having the general tree structure / ring structure as described above have a disadvantage in that the wiring work is complicated and the cost is increased because the wires are connected to the terminal equipment in a centralized manner. In case of the structure, there is a disadvantage that a collision detection protocol must be established in all equipment, and broadcasting can not be performed when the network is broken.

In addition, there is a problem in that a broadcast system of a general tree structure / ring structure and a conventional technology do not have a broadcast supplementary function for traffic of a network network and broadcasts are disconnected when traffic is excessive, .

It is an object of the present invention to provide a broadcast system having a general tree structure and a ring structure as described above and to overcome the problems of the related art. It is possible to duplicate a network to continuously broadcast even when a network is broken, Based intelligent broadcasting system in which efficient network utilization can be achieved through traffic monitoring of a network-based intelligent broadcasting system.

Another object of the present invention is to provide a network system capable of duplicating a network and replacing the network with another network in the event of a failure in one network, And to provide an intelligent broadcasting system.

According to an aspect of the present invention, there is provided a network-based intelligent broadcasting system including a terminal for outputting a broadcast signal; A main controller for accessing the terminal through a redundant network, controlling a network switching by determining the used network through the monitoring of the duplicated network traffic, performing network switching control when a specific network fails, and automatically recovering the failed network .

In this case, when the main controller is connected to the terminal through the redundant network in a tree structure, the main controller is redundantly connected to each terminal, and when the terminal is connected to the terminal in a ring structure, .

The duplicated network includes first and second networks, and the terminal and the main controller are connected through one of the first and second networks.

Wherein the terminal includes a plurality of terminals, each terminal is connected in a ring structure via first and second redundant networks, and a starting terminal and an end terminal connected by the ring structure are connected to the main controller, And is connected via a network.

In this case, the main controller and the terminal are connected through the first and second networks by any one of wired, wireless, and wireless communication methods.

Wherein the main controller comprises: a network interface for interfacing data with the terminal through the duplicated network; A traffic monitoring unit for monitoring traffic of a redundant network connected through the network interface; And a network determining unit determining a network to be connected to each terminal according to the traffic monitoring result of the traffic monitoring unit.

The main controller may further include a network switching unit for switching to a network to be used among the redundant networks under the control of the network determining unit.

The main controller may further include a network communication state sensing unit for sensing a communication state of the redundant network connected through the network interface and transmitting the sensed communication state to the network determination unit.

The main controller may further include a failure network automatic reset unit for automatically resetting the failed network when the failure occurs in the random network as a result of detecting the network in the network communication status detector.

The main controller may further include a network failure notifying unit for notifying the connected administrator terminal of network failure information, network information, and traffic monitoring result information detected by the network communication state detecting unit.

According to the present invention, it is possible to continuously broadcast even when the network is broken due to duplication of the network, and it is possible to efficiently use the network through traffic monitoring of the network.

In addition, according to the present invention, there is an advantage that the network can be duplicated and the automatic restoration can be performed by automatically resetting the network in which the abnormality occurs while maintaining normal broadcasting by replacing the network with another network when a failure occurs in one network .

1 is a schematic configuration diagram of a conventional tree structure network broadcasting system,
2 is a schematic configuration diagram of a conventional ring structure network broadcasting system,
FIG. 3 is a schematic configuration diagram of a tree structure network broadcasting system according to the present invention,
4 is a schematic configuration diagram of a ring network broadcast system in the present invention,
5 is a configuration diagram of a network-based intelligent broadcasting system according to a preferred embodiment of the present invention.

Hereinafter, a network-based intelligent broadcasting system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a schematic block diagram of a tree structure network broadcasting system according to the present invention. In FIG. 3, a main controller 200 for controlling the overall operation of a broadcasting system and an administrator terminal 100 are connected via a network, (401 to 400n) are connected to a redundant network. Where the duplicated network may include first and second networks 301 and 302.

In addition, the main controller 200 and the first and second networks 301 and 302 may be wired or wirelessly connected, or wired or wirelessly connected. Especially, in the case of wireless connection, there is an advantage of solving the problem of the existing wiring installation. Here, the IP addresses of the first network 301 and the second network 302 are different from each other, and the network is switched using the IP address.

The tree structure network broadcasting system configured as described above is connected to the main controller 200 and each of the terminals (terminal A, terminal B, and terminal C) by using any one of the redundant first and second networks 301 and 302, Lt; / RTI > At this time, the main controller 200 monitors traffic for each network and performs traffic control based on the traffic monitoring result. For example, if traffic is excessive in a particular network as a result of traffic monitoring, some terminals may use the first network 301, some may distribute the network to use the second network 302, And ensures data transmission speed.

In addition, if a failure occurs in a specific network, the network is switched to another network so that broadcasting is continuously performed even when a failure occurs in a specific network. In addition, an automatic reset operation is performed for the failed network, and the network failure is automatically recovered. If the failure can not be recovered by the recovery operation, a message about the network failure is generated, and the message is sent to the administrator terminal to inform the administrator of the network failure. This allows administrators to be aware of network failures in real time while remotely located.

FIG. 4 is a schematic block diagram of a ring network broadcast system according to the present invention. In FIG. 4, a main controller 200 for controlling the entire operation of a broadcasting system and an administrator terminal 100 are connected via a network, (401 to 400n) are connected to a redundant network. At this time, the main controller 200 and the start terminal (for example, 401) and the end terminal (for example, 400n) of the plurality of terminals are connected to the redundant network 501 to 504, And are connected to the redundant networks 506 to 508.

The redundant network may include first and second networks 501 and 502. 4, the third network 503 and the fourth network 504 are actually the same networks as the first and second networks 501 and 502, and the fifth network 505 to the eighth network 508 And is actually the same network as the first and second networks 501 and 502. For convenience of explanation, the symbols are different from each other, and only the names are different.

The main controller 200 and the first and second networks 501, 502, 503 and 504 may be wired or wirelessly connected, or wired or wirelessly connected. Especially, in the case of wireless connection, there is an advantage of solving the problem of the existing wiring installation.

Likewise, each terminal can be connected by wire or wirelessly, or by wired or wireless connection. Especially, in the case of wireless connection, there is an advantage of solving the problem of the existing wiring installation.

When the communication system is implemented using the ring network as described above, since the wires are quadrupled between the main controller 200 and the terminals, more stability can be achieved in broadcasting.

The ring network broadcast system configured as described above is connected to the main controller 200 and some terminals (for example, the first and second networks 501, 502, 503, and 504) Terminal A, terminal C) are connected. At this time, the main controller 200 monitors traffic for each network and performs traffic control based on the traffic monitoring result. For example, if traffic is excessive in a particular network as a result of traffic monitoring, some terminals may use the first network 301, some may distribute the network to use the second network 302, And ensures data transmission speed.

Similarly, each terminal is connected to each other through a redundant network. If a failure occurs in a connected network, the terminal immediately switches to another network through network switching. It is preferable to switch the network using the IP address.

In addition, if a failure occurs in a specific network, the network is switched to another network so that broadcasting is continuously performed even when a failure occurs in a specific network. In addition, an automatic reset operation is performed for the failed network, and the network failure is automatically recovered. If the failure can not be recovered by the recovery operation, a message about the network failure is generated, and the message is sent to the administrator terminal to inform the administrator of the network failure. This allows administrators to be aware of network failures in real time while remotely located.

FIG. 5 is a block diagram of a network-based intelligent broadcasting system according to a preferred embodiment of the present invention. Referring to FIG. 5, terminals 401 to 400n, an administrator terminal 100, a main controller 200, ) ≪ / RTI >

Herein, the first network 301 and the second network 302 are symbols of a tree structure. When the first network 301 and the second network 302 are implemented as a ring structure, the first network 301 and the second network 302 are changed to the first network 501 and the second network 502, respectively. Hereinafter, the first network 301 and the second network 302 will be described for convenience of explanation. The tree structure and the ring structure network have been described in detail with reference to FIG. 3 and FIG. 4, and a detailed description of the tree structure and the ring structure network will be omitted below in order to avoid redundant description.

The terminals 401 to 400n serve to output a broadcast signal, which means an amplifier and a remote amplifier.

The main controller 200 is connected to the terminals 401 to 400n through a redundant network. The main controller 200 controls the network switching by determining the used network through the redundant network traffic monitoring, It performs the automatic recovery of the faulty network.

The duplexed network includes first and second networks 301 and 302 and the terminals 401 to 400n and the main controller 200 are connected to the first and second networks 301 and 302, It is preferable to be connected through any one of them.

The main controller (200) includes a network interface (201) for interfacing data with the terminal through the duplicated network; A traffic monitoring unit 202 for monitoring traffic of a redundant network connected through the network interface 201; A network determination unit (203) for determining a network to be connected to each terminal according to a traffic monitoring result of the traffic monitoring unit (202); A network switching unit 204 for switching to a network to be used among the redundant networks under the control of the network determining unit 203; A network communication state detection unit 205 for detecting a communication state of the redundant network connected through the network interface unit 201 and transmitting the detected state to the network determination unit 203; A faulty network automatic reset unit 206 for automatically resetting the faulty network and performing automatic recovery when a fault occurs in the random network as a result of detecting the network in the network communication state detection unit 205 and the network communication state detection unit And a network failure notification unit 207 for reporting network failure information, network information, and traffic monitoring result information detected by the network failure notification unit 205 to the associated administrator terminals.

The operation of the network-based intelligent broadcasting system according to the preferred embodiment of the present invention will now be described in detail.

The network interface 201 is connected to the first network 301 and the second network 302 to interface data between the main controller 200 and the terminals 401 to 400n. At this time, the traffic monitoring unit 202 is connected to the network interface 201 and monitors the traffic of the network in real time. Here, the traffic monitoring may include various methods, but it may include the number of channels occupied through the network and the data transmission rate of the corresponding channel.

The monitored traffic monitoring result information is transmitted to the network determining unit 203, and the network determining unit 203 determines network switching based on the traffic monitoring result information. That is, the network traffic state is determined based on the number of occupied channels of the network, the data transmission rate, and the like, and the network switching is determined based on the determined state. For example, if the traffic is overheated only in a specific network, the data transmission rate is slow, and data transmission / reception with the terminal that can not occupy the channel or data transmission / reception between the terminals can not be performed. Accordingly, in order to solve this problem, the present invention determines a network to be used or a network to be switched based on the traffic result monitored by the network determining unit 203. In this case, the network determination method determines the network to use the presently used network when the traffic of the network is appropriate, and determines the network change to the network that is not overheated if the specific network is overheated.

The network switching unit 204 switches the network according to the network determination. That is, it connects a network between a terminal and a main controller or between a terminal and a terminal.

In another aspect of the present invention, it is possible to detect a network communication state and perform network switching while automatically attempting a failure recovery.

For example, the network communication state detection unit 205 is connected to the network interface 201 to detect a communication state of the network. That is, it senses a communication signal of a specific network, detects whether a communication signal normally occurs, and detects a communication state. The communication state detection result is transmitted to the network determination unit 203 and the faulty network automatic reset unit 206, respectively.

The network determination unit 203 analyzes a communication state detection signal to determine a network communication state. For example, if the communication status detection signal is analyzed and the network communication status signal is not generated at all, or the detection period of the detection signal is long, or the network communication status signal is very weak, it is determined that a failure has occurred in the network, The switching unit 204 controls the network switching so as to use another network instead of the failed network.

In addition, the failure network automatic reset unit 206 also analyzes the communication status detection signal to determine the network communication status. For example, if the communication status detection signal is analyzed and the network communication status signal is not generated at all, or the detection period of the detection signal is long, or if the network communication status signal is very weak, it is determined that a failure has occurred in the network. If it is determined that the network has failed, the network is automatically reset. After performing the network automatic reset, the communication status detection unit 205 analyzes the communication status detection signal generated by the network communication status detection unit 205 to determine whether the network failure has been eliminated. If the network failure is not resolved, the network automatic reset is performed again. It is preferable that the automatic network reset process is performed a predetermined number of times only when the network failure has not been solved.

It is an advantage of the present invention to perform an A / S function that can automatically recover a faulty network by automatically resetting a faulty network while continuously broadcasting while switching to a spare network at the time of a network network breakage have. Therefore, it is impossible to broadcast in case of a network failure, and the inconvenience of a service person performing a manual reset can be solved. Especially, in case of a network failure, it takes a long time for a service person to manually check the network, and broadcasting can be stopped until a failure is recovered, which can cause a serious problem. However, the present invention can minimize the network failure recovery time through the network automatic reset function.

In addition, when a network failure occurs, the network communication status detection unit 205 notifies the network failure notification unit 207 of the failure.

The network failure notification unit 205 generates a text message for the network failure and transmits the text message to the previously registered administrator terminal 100 through the network so that the remotely located administrator can recognize the network status in real time. In addition, when the failure is recovered, the failure recovery data can be generated and transmitted to the administrator terminal 100, and it is possible to transmit the traffic monitoring result to the administrator terminal 100 as needed.

Therefore, the administrator does not have to continuously check the network of the broadcasting system manually, and can recognize the state of the network in real time even if the user is far from the broadcasting system.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

INDUSTRIAL APPLICABILITY The present invention is effectively applied to a technique for performing broadcasting on a network basis in a local / public broadcasting system and ensuring stability of broadcasting through network duplication.

100:
200: main controller
201: Network interface machine
202: traffic monitoring unit
203:
204: Network switching section
205: Network communication status detection unit
206: Fault network automatic reset unit
207: Network failure notification unit
301, 501: first network
302, 502: second network

Claims (10)

A terminal for outputting a broadcast signal;
A main controller for accessing the terminal through a redundant network, controlling a network switching by determining the used network through the monitoring of the duplicated network traffic, performing network switching control when a specific network fails, and automatically recovering the failed network Wherein the network-based intelligent broadcasting system comprises:
The main controller as claimed in claim 1, wherein the main controller connects redundantly the wirings to each terminal when connected to the terminal through the redundant network in a tree structure, and when wiring is connected with the terminal in a ring structure, Wherein the network-based intelligent broadcasting system comprises:
The method of claim 1 or 2, wherein the redundant network includes first and second networks, and wherein the terminal and the main controller are connected through any one of the first and second networks. Intelligent broadcasting system.
The terminal of claim 1, wherein the terminal includes a plurality of terminals, each terminal is connected in a ring structure through a redundant network, and a starting terminal and an end terminal connected by the ring structure are connected to the main controller Wherein the network-based intelligent broadcasting system is connected through a network.
The network-based intelligent broadcasting system of claim 1, wherein the main controller and the terminal are connected through a first network and a second network with a communication method of wire, wireless, and / or wireless.
The system of claim 1, wherein the main controller comprises: a network interface for interfacing data with the terminal through the duplicated network; A traffic monitoring unit for monitoring traffic of a redundant network connected through the network interface; And a network determining unit determining a network to be connected to each terminal according to the traffic monitoring result of the traffic monitoring unit.
The network-based intelligent broadcasting system of claim 6, wherein the main controller further comprises a network switching unit for switching to a network to be used among the redundant networks under the control of the network determining unit.
The network-based intelligent broadcasting system of claim 6, wherein the main controller further comprises a network communication state sensing unit for sensing a communication state of a redundant network connected through the network interface and transmitting the sensed communication state to the network determination unit.
[9] The system of claim 8, wherein the main controller further comprises a faulty network automatic reset unit for automatically resetting the faulty network when the fault occurs in the random network as a result of detecting the network in the network communication status detector Based intelligent broadcasting system.
The network controller according to claim 8, wherein the main controller further comprises a network failure notification unit for notifying the associated manager terminal of network failure information, network information, and traffic monitoring result information detected by the network communication status detection unit. Intelligent broadcasting system.

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