KR100452974B1 - Video on demand service providing system and the method using satellite communication and a local server - Google Patents

Abstract

The present invention relates to an on-demand video service providing system and method using satellite communication and local server, and to improve the bottleneck of the on-demand video system, to reduce the cost for the establishment and expansion of the ground network according to the increase of subscribers, Its purpose is to improve quality. The present invention is configured for this purpose in the video service on demand consisting of subscriber, communication network and video server on demand, after storing the video information in advance, if the video information request message is received from the subscriber to determine whether the video information is stored, If there is the video information is immediately sent to the subscriber, if not there is a local server for transmitting the video information request message to the on-demand video server, the on-demand video server according to the video information request message received from the local server The video information is transmitted to a local server through a satellite communication network. Through this configuration, the present invention can improve the bottleneck of the on-demand video system, reduce the cost for establishing and expanding the terrestrial network, and improve the quality of the on-demand video service.

Description

Video on demand service providing system and the method using satellite communication and a local server}

The present invention relates to an on-demand video service. More particularly, the present invention relates to a video server requested by a subscriber in a local server where video information is stored. The present invention relates to a system and method for providing on-demand video service using a satellite communication and a local server.

In general, a Video On Demand (VOD) service is a service of ordering a desired video when a user wants it, which is different from the existing broadcasting service. In the broadcasting service of the receiver, the receiver can only watch the program predetermined by the broadcaster, and can not watch the program once passed. In VOD, however, all users can watch their programs as if they were enjoying their own program using their own Video Cassette Recorder (VCR).

Therefore, the VOD service allows you to select / cancel, stop, pause, fast-forward, rewind, forward / backward playback at 2x / 4x, counter display, jump to other scenes, etc., while watching a program. It's also possible to focus on the areas of particular interest. In this case, the desired time may be immediate application (Interactive VOD), or may be a fixed time unit such as 5 or 10 minutes (Staggered VOD), and the user selects a program according to a predetermined schedule. There is also (Near VOD). In some cases, they may be classified into Near On Demand and On Demand, but in general, both are referred to as On Demand and referred to as VOD.

These VOD services must have a VOD server, a delivery system, and a service consumer, and in particular, there is no fixed deadline when the existing information is output, while audio and video information, which is VOD information, has a fixed deadline. If output does not occur in time, it has meaningless continuity. In order to transmit such a large amount of information, high bandwidth is required, and various compression / restore technologies are used.

In addition, in a transmission network, asymmetric digital subscriber line (ADSL) transmission, very high-data rate digital subscriber line (VDSL), and fiber-to-the curb (FTTC) ), Fiber Coax (HFC) and Fiber-To-The Home (FTTH).

1 is a configuration diagram of a conventional video-on-demand service, Figure 2 is a flow chart of a conventional video-on-demand service.

As shown, the above-described communication network consists of a terrestrial network 13 between the VOD server 15 and the subscriber 10 to provide a VOD service.

That is, when the subscriber 10 transmits a video information request message to the VOD server 15 through the terrestrial network 13, the VOD server 15 also transmits the corresponding video information to the subscriber 10 through the terrestrial network 13. Will be provided.

Therefore, since the conventional VOD network transmits and receives information using the ground network as described above, when a large number of subscribers receive a large amount of VOD information, the request and download of the information are not properly performed between the VOD server and the ground network. Bottlenecks occur. In order to solve the bottleneck with the ground network, it is necessary to expand the capacity of the ground network, which causes a lot of cost and does not cope with the increase in the number of subscribers, and the data quality is deteriorated.

The present invention has been made to solve the above-described problems, and after installing a local server for storing / managing video information in advance, if there is a video information request message from the subscriber, the local server to check the presence or absence of the video information If the video information is available, it is sent to the subscriber immediately. If not, it is sent to the on-demand video server so that the on-demand video server can transmit the video information to the regional server through the satellite communication network using satellite communication. The purpose is to provide a video service providing system and method.

Another object of the present invention is to solve the bottleneck of the communication network by using a hypothetical communication network using satellite communication rather than the terrestrial video information transmitted from the on-demand video server.

Another object of the present invention is to reduce the cost of the establishment and expansion of the ground network according to the increase in the number of subscribers, and to improve the quality of the on-demand video service.

1 is a block diagram of a conventional video on demand service network.

2 is a flow chart of a conventional on-demand video service.

3 is a block diagram of an on-demand video service providing system using satellite communication and a local server according to the present invention.

4 is a flowchart illustrating a method for providing video-on-demand service using a satellite communication and a local server according to the present invention.

5 is a block diagram of a transmitting satellite earth station of FIG. 3;

6 is a configuration diagram of a receiving satellite earth station of FIG. 3;

*** Explanation of symbols for main parts of drawing ***

110: local server 120: video server on demand (VOD server)

130: terrestrial network 140: satellite communication network

150: satellite earth station on the transmitting side 160: satellite earth station on the receiving side

Features of the present invention configured to achieve the above object are as follows. That is, the present invention consists of a communication network for transmitting video information, a subscriber for requesting and receiving desired video information through a communication network, and an on-demand video server for transmitting desired video information through a communication network. In the on-demand video service provided in real time through the video, the video information is stored in advance, and when a video information request message is received from the subscriber, it is determined whether the corresponding video information is stored and immediately transmitted to the subscriber if there is video information. In addition, the server further includes a local server for transmitting a video information request message to an on-demand video server, and the on-demand video server transmits the corresponding video information according to the video information request message received from the local server to a local server through a satellite communication network using satellite communication. Characterized by transmitting The.

In addition, it consists of a communication network for transmitting video information, a subscriber for requesting and receiving desired video information through a communication network, and an on-demand video server for transmitting desired video information through a communication network. In the video service on demand provided by the local server, the local server receives the video information request message and checks whether the corresponding video information is stored in advance. A second step of immediately transmitting to the subscriber or a video information request message to the on-demand video server, and a third step of transmitting corresponding video information according to the video information request message transmitted to the on-demand video server to a local server using a satellite communication network. Step, and the corresponding video information received And a fourth step of transmitting from the reverse server to the subscriber.

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

3 is a configuration diagram of a system for providing on-demand video service using satellite communication and a local server according to the present invention, and FIG. 4 is a flowchart illustrating a method for providing on-demand video service using a satellite communication and a local server according to the present invention.

As shown in FIG. 3, a schematic video service system configuration diagram using the satellite communication and the local server 110 according to the present invention includes a subscriber 101, a local server 110, a VOD server 120, and a terrestrial network 130. ) And the satellite communication network 140, the ground network 130 connects the subscriber 101, the local server 110, and the VOD server 120 to the ground, and the satellite communication network 140 is the VOD server 120. Performs satellite communication to the local server (110).

First, since a plurality of subscribers 101 located in close proximity to one regional server 110 are connected through the ground network 130, a subscriber group in which a plurality of subscribers 101 are connected to one regional server 110 is connected. Is formed.

In addition, the regional server 110 analyzes the video information requirements and builds and manages video information with frequent service requests for a certain period of time so that the pre-stored video information can be immediately serviced by the local server 110. To help.

On the other hand, each regional server 110 is provided with a receiving side satellite earth station 160 capable of performing satellite communication with the VOD server 120, the receiving side satellite earth station 160 is a receiving antenna 161, Low A noise block down converter (LNB) 162 and a satellite receiver 163 are included. In this case, the low noise amplifier 162 performs low noise amplification and frequency downconversion of the video information received from the satellite through the reception antenna 161, that is, the received signal, and is then received by the satellite receiver 163. Transfer to server 110.

The terrestrial network 130 is connected to the above-described regional server 110 and the VOD server 120, the VOD server 120 is a satellite communication network 140, not the local server 110 and the ground network 130. A transmitting side satellite earth station 150 having a satellite antenna 155 capable of performing satellite communication is installed.

As shown in FIG. 5, the transmitting satellite earth station 150 includes a satellite gateway 151, a satellite modem 152, and an up-converter (U / C) 153. And a high power amplifier (HPA) 154 and a diplexer 155. First, the satellite gateway 151 inputs video information from the VOD server 120, that is, a signal to be transmitted to the satellite. To the satellite modem 152. After performing the coding and modulation, the satellite modem 152 converts the frequency through the frequency up-converter 153, amplifies it to the high power amplifier 154, and then uses one deflector 155 to convert one antenna. Through the video signal and audio signal can be efficiently launched to combine to send to the satellite.

The VOD service provision method through such a configuration is as follows.

First, referring to FIG. 4, the first subscriber 101 transmits a video information request message for desired video information to the local server 110 to which the first subscriber 101 belongs, through the terrestrial network 130.

As described above, the local server 110 receives the video information request message transmitted from the video subscriber 101 and stores and manages video information frequently used according to the video information demand of the subscriber 101. If there is a video information request message of 101), check whether there is video information required in the pre-stored video information, and if there is the corresponding video information, it is immediately transmitted to the subscriber 101 through the terrestrial network 130. Therefore, since the corresponding video information requested by the subscriber 101 can be immediately transmitted from the local server 110, the load of the terrestrial network 130 can be reduced.

On the other hand, if the video information requested in the local server 110 is not stored, the video information request message of the subscriber 101 is transmitted back to the VOD server 120 through the terrestrial network 130.

When the VOD server 120 receives the video information message from the local server 110, the VOD server 120 transmits the video information using the satellite communication network 140 instead of the terrestrial network 130.

That is, in the satellite communication network 104, as described above, the transmitting satellite earth station 150 is installed in the VOD server 120, and the receiving satellite earth station 160 is installed in the local server 110. The corresponding video information requested by the subscriber 101 installed in the 120 is input to the satellite modem 152 through the satellite gateway 151, while the satellite modem 152 performs coding and modulation so that the frequency converter 153 To send. The frequency up-converter 153 converts the modulated signal into a satellite frequency band, which is amplified by the high power amplifier 154 and transmitted to the satellite through an antenna.

The signal transmitted to the satellite is transmitted to the receiving satellite earth station 160 installed in the local server 110 again, and the signal received through the antenna 161 is amplified by the low noise through the LNB 162, and frequency downconverted. After that, it is input to the satellite receiver 163 is transmitted to the local server (110).

As can be seen through this, the existing VOD network, that is, using the ground network 130 and the earth station equipment of the existing merchandise, the development period is short, and the installation is simple.

On the other hand, the signal transmitted to the local server 110, that is, the video information requested by the subscriber 101 is transmitted to the subscriber 101 through the terrestrial network 130.

In summary, a preferred embodiment of the present invention as described above, a small amount of video information request message delivered from the subscriber 101 to the VOD server 120 is transmitted through the terrestrial network 130, the VOD server 120 The large amount of video information delivered to the subscriber 101 is transmitted using the satellite communication network (140).

In addition, by installing a local server 110 in the regional central office to store and manage the video information frequently used and watched according to the video information requirements in advance in the local server 110 in the local server 110 without going through the VOD server 120 It can be provided immediately to reduce the load of the ground network 130.

In addition, the regional server 110 analyzes the video information request and constructs the video information having a frequent service request so as to store and service for a predetermined period of time.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope of the technical idea of the present invention.

As described above, according to the present invention, by providing a video service on demand using a satellite communication network using a satellite and a local server, a bottleneck caused by a large amount of video information transmitted from a VOD server can be eliminated.

In addition, it is possible to reduce the cost of establishing and expanding the ground network according to subscribers and increase, and improve the quality of VOD service.

Claims (3)

A communication network for transmitting video information, a subscriber for requesting and receiving desired video information through the communication network, and an on-demand video server for transmitting the video information desired by the subscriber through the communication network; In the on-demand video service provided in real time through a communication network, After the video information is stored in advance, when a video information request message is received from the subscriber, it is determined whether the video information is stored, and if the video information exists, the video information is immediately transmitted to the subscriber. With a local server for transmitting to the video server on demand, And the on-demand video server transmits the video information to the local server through a satellite communication network using satellite communication. The method of claim 1, wherein the satellite communication network The satellite video station on the sending side is installed in the video server on demand, and the satellite earth station on the receiving side is installed in the local server. A communication network for transmitting video information, a subscriber for requesting and receiving desired video information through the communication network, and an on-demand video server for transmitting the video information desired by the subscriber through the communication network; In the on-demand video service provided in real time through a communication network, A first step of receiving, by a local server, a video information request message of the subscriber and confirming whether the corresponding video information is stored in advance; A second step of transmitting the video information request message to the on-demand video server through the terrestrial network if there is the corresponding video information requested by the subscriber as a result of the first step; A third step of transmitting corresponding video information according to the video information request message transmitted to the on-demand video server to the local server using a satellite communication network; And And a fourth step of transmitting the received corresponding video information from the local server to the subscriber.