JP2009290428A - Broadcast station video transmission system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a broadcast station video transmission system whose system price, system operation cost and management cost are low, and whose reliability is high. <P>SOLUTION: A material registration server is made as a clustering type single arrangement, and a system is made to be a low cost redundant system composed of hardwares in which a transmission server and a decoder are included in a current system and only the decoder is included in a standby system. At the time of fault of the transmission server in the current system, the decoder changes a referring IP address of a material supply source and transmits the material to the material registration server. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a broadcasting station video transmission system, and more particularly to a system using a network type video server configured by an active system and a standby system.

  2. Description of the Related Art Conventionally, a broadcast station video transmission system using a network type video server installed in a broadcast station for broadcasting video often has two hardware configurations, an active system and a standby system. Usually, both the active system and the standby system employ a fully redundant system (completely redundant system) having the same hardware configuration. Even when operating the system with the active device, the standby device is always operating equally in the background, and when the active device fails, the system is switched to the standby device and operated. The system is prevented from being down (see, for example, Patent Document 1 or Patent Document 2).

JP 2007-251454 A JP 2007-194709 A

In the broadcasting station video transmission system using the network type video server described above, it is necessary to make it redundant so that it can be continuously operated even when a failure occurs in order to increase reliability.
In the full duplex system of Patent Document 1 or Patent Document 2 described above, both the active system and the standby system have the same hardware configuration. Therefore, a highly reliable system operation is guaranteed, but the system price, system operation cost, and management cost become enormous.
In view of the above problems, an object of the present invention is to provide a broadcasting station video transmission system that has low system price, system operation cost, and management cost, and high reliability.

In order to achieve the above object, a broadcasting station video transmission system according to the present invention is a broadcasting station video transmission system using a network type video server. In the broadcasting station video transmission system, a material registration video server using a hard disk device for video storage is used. Two or more units are provided, one transmission video server using a semiconductor memory for video storage is provided, and two transmission decoders connected to the two material registration video servers and the one transmission server are used. The above is provided.
That is, the broadcasting station video transmission system of the present invention operates in a broadcasting station video transmission system that broadcasts materials by controlling the clustering type material registration server that records the above materials using a hard disk device for video storage and the control of the host system. And a second network type video server operating under the control of the host system, wherein the first network type video server is at least a nonvolatile semiconductor A first storage device using a memory; and a first decoder that reads out and sends out material from a reference source. The second network type video server reads out at least the material recorded by the material registration server. A second decoder for transmitting, wherein the first decoder has the first storage The failure events location is for sending reads the material the material registration server has recorded.
Preferably, the first decoder of the broadcasting station video transmission system of the present invention reads the material with reference to the IP address of the material registration server.

  According to the present invention, in a broadcasting station video transmission system using a network type video server, the active system is a transmission server, and the standby system is a clustering-type material (registration) server, and the redundant system performs transmission from each. When a failure occurs, a low-cost and highly reliable redundant system capable of maintaining redundancy can be realized by changing the supplier reference IP to a material (registered) server. .

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In each figure, components having common functions are denoted by the same reference numerals, and description thereof is avoided as much as possible to avoid duplication.

FIG. 1 is a comparison diagram showing a block configuration of a broadcasting station video transmission system using a network type video server. FIG. 1 shows a fully redundant redundant system, where the active system and the standby system have the same hardware configuration. 1 is a material registration server, 2 is a hard disk device (HDD: Hard Disk Drive) constituting a storage unit of the material registration server 1, 3 is a sending controller, 4 is a sending server, and 5 is a non-volatile constituting a storing unit of the sending server 4 6 is a decoder, 7 is a material registration server, 8 is a hard disk drive (HDD: Hard Disk Drive) constituting the storage unit of the material registration server 7, 9 is a sending controller, and 10 is a sending server. , 11 is a storage device using a nonvolatile semiconductor memory constituting the storage unit of the sending server 10, 12 is a decoder, 101 is a working network type video server, 102 is a standby network type video server, and 110 is a host system. , 111 is a transmission switch, and 130 is a LAN (Local Area Network).
The active network video server 101 includes a material registration server 1, a transmission controller 3, a transmission server 4, and a decoder 6. The standby network video server 102 includes a material registration server 7, a transmission controller 9, a transmission server 10, and a decoder 12.
The storage devices 5 and 11 using the nonvolatile semiconductor memory are, for example, flash memory storage devices (Flash Memory Drive).

In FIG. 1, an active network video server 101 includes a material registration server 1 that takes in and stores video material from an input source such as an editing machine or a VTR (Video Tape Recorder) directly or via a network. The transmission server 4 is configured to copy and transfer the latest transmission material from the material registration server 1 and the transmission controller 3 that receives the control signal from the host system 110 and controls the decoder 6. These devices 1, 3, 4, and 6 access each other via the LAN 130.
Similarly, the standby network type video server 102 includes a material registration server 7 for capturing and storing video materials from an input source such as an editing machine or a VTR (Video Tape Recorder) directly or via a network. The transmission server 10 is configured to copy and store the latest transmission material from the material registration server 7 and the transmission controller 9 that receives the control signal from the host system 110 and controls the decoder 12. These devices 7, 9, 10, and 12 access each other via the LAN 130.
Since the material registration server 1 is required to have a large capacity specification, the hard disk device 2 is used, and the sending server 4 is required to have a storage device 5 using a nonvolatile semiconductor memory such as a flash memory because the disk stability is required. Used.

An embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram showing the configuration of an embodiment of a broadcast station video transmission system using the network type video server of the present invention. 14-n are hard disk devices, 13-1, 13-2,..., 13-n are hard disk devices 14-1, 14-2,. 14-n is a material registration server (n is a natural number), 201 is a working network video server, 202 is a standby network video server, and 203 is a common material registration server. The common material registration servers 13-1, 13-2,..., 13-n are a common material registration server 203 configured as a clustering server. Note that the number of material registration servers provided with the hard disk devices constituting the common clustering server (common material registration server 203) may be any number as long as it is two or more.
The active network video server 201 has a configuration in which the material registration server 1 is deleted from the active network video server 101 of FIG. Similarly, the backup network type video server 202 has a configuration in which the material registration server 7 and the transmission server 10 are deleted from the active network type video server 102 of FIG. Dotted arrows d1, d2, d3, d4, d5, and d6 respectively indicate data movement paths.

  As shown in FIG. 2, the material registration server 203 has a clustering configuration, the active system is provided with a highly reliable transmission server and decoder, and the standby system is configured with hardware including only a decoder. This makes it possible to realize a low-cost redundant system. By adopting a clustering configuration, for example, virtual resources are created in the material registration server 203 by a program registered in the host system 110, and the individual material registration servers 13-1, 13 constituting the material registration server 203 are created. Even when any of -2, ..., 13-n does not operate due to a failure or the like, the common material registration server 203 operates stably.

In the broadcasting station video transmission system using the network type video server of FIG. 2, the active decoder 6 refers to the IP address of the transmission server 4 according to the control from the higher system 110, and the standby decoder 12 Each necessary material is read by referring to the IP address of the material registration server 203.
In normal operation, the active network video server 201 copies and transfers the data of the latest material from the material registration server 203 to the transmission server 4 including the storage device 5 using a highly reliable nonvolatile semiconductor memory. Then (arrow d1), the decoder 6 reads the data from the sending server 4 (arrow d2) and sends the data from the decoder 6 to the sending switch 111 (arrow d3).
At the same time, in the background, the standby network type video server 202 reads the data of the latest material as described above directly from the material registration server 203 in accordance with the control from the host system 110 (arrow d4). Transmission is performed to the transmission switch 111 (arrow d5).
The transmission switch 111 broadcasts the input data in accordance with the control from the higher system 110 (arrow d6).
Since this is a redundant system having an active system and a standby system, and the common material registration server 203 has a clustering configuration, the operation can be continued as a system even when a failure occurs.

Another embodiment of the present invention will be described with reference to FIG. FIG. 3 is a block diagram showing the configuration of an embodiment of a broadcast station video transmission system using the network type video server of the present invention. The operation of the system when a failure occurs in the transmission server 6 of the active network type video server 201 will be described with reference to FIG.
As shown in FIG. 3, in the active network type video server 201, when a failure occurs in the transmission server 4, the decoder 6 changes the reference IP address of the material supply source to the material registration server 202 under the control of the host system 110. Thus, like the standby network type video server 202, data can be directly read from the material registration server 203 (arrow e1), and data can be transmitted. By doing so, the redundancy of the entire system can be maintained.

In the broadcasting station video transmission system using the network type video server of the present invention, for example, similarly to Patent Document 1, the transmission controllers 3 and 9, the transmission server 4, and the decoders 6 and 12, respectively, By mounting an external contact board connected to the LAN 130, when an abnormality occurs in those devices or when they are stopped, the upper system 110 notifies the upper system 110 of which device is abnormal or stopped. So that you know what you ’re doing.
As another method, for example, as in Patent Document 2, a monitoring device is provided in each of the transmission controllers 3 and 9, the transmission server 4, and the decoders 6 and 12, and an abnormality occurs in those devices. In the stop state, a notification may be output from the monitoring device to the higher system 110 via the LAN 130, so that the higher system 110 may know which device is abnormal or stopped.

  According to the above embodiment, in the broadcast station video transmission system using the network type video server, the redundancy system is not the full duplex system of hardware, the active system is the transmission server, and the standby system is the clustering type material (registration). Low cost and high reliability that can maintain redundancy by changing the source reference IP to a material (registration) server when a failure occurs in the transmission server by using a redundant system in which each server performs transmission A redundant system was realized.

The comparison figure which shows the block configuration of the broadcast station image | video transmission system using a network type video server. The block diagram which shows the structure of one Example of the broadcast station image | video transmission system using the network type video server of this invention. The block diagram which shows the structure of one Example of the broadcast station image | video transmission system using the network type video server of this invention.

Explanation of symbols

  1: material registration server, 2: hard disk device, 3: transmission controller, 4: transmission server, 5: storage device using nonvolatile semiconductor memory, 6: decoder, 7: material registration server, 8: hard disk device, 9: Sending controller, 10: sending server, 11: storage device using nonvolatile semiconductor memory, 12: decoder, 13-1, 13-2,..., 13-n: material registration server, 14-1, 14- 2, ..., 14-n: hard disk device, 201: active network video server, 101: active network video server, 102: standby network video server, 110: host system, 111: Transmission switcher 130: LAN 202: Backup network type video server 203: Shared System material registration server.

Claims (1)

In a broadcast station video transmission system for broadcasting material, a clustering-type material registration server that records the material using a hard disk device for video storage, a first network-type video server that operates under the control of a host system, and a host system A broadcasting station video transmission system having a second network type video server that operates under the control of
The first network type video server includes a first storage device using at least a nonvolatile semiconductor memory, and a first decoder that reads and sends out material from a reference source,
The second network type video server includes at least a second decoder that reads and transmits the material recorded by the material registration server,
The broadcasting station video transmission system, wherein the first decoder reads and transmits the material recorded by the material registration server when a failure occurs in the first storage device.

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