KR100277912B1 - How to set up switched connection in video-on-demand system - Google Patents

Abstract

A method for establishing a switched connection in an on-demand video service system. More particularly, a switched connection in an on-demand video service system that can set up a switched line and extract information using a client Internet protocol address extracted from a client identification number as a key. It is about a method. In such an on-demand video service system, the method of establishing a switched connection includes extracting and storing an Internet protocol (IP) of a client, and converting an asynchronous transmission mode (ATM) address of a video pump and an address resolution protocol (ARP) to an address resolution protocol (ARP). Registering in a table of a server, sending an interface setting message between a user and a network to the client, storing switched connection line information between the user and the network, and using the client Internet protocol (IP) as a key. And extracting the exchange connection information to the video server.

Description

How to set up switched connection in video-on-demand system

The present invention relates to a method for establishing a switched connection in an on-demand video service system, and more particularly, an on-demand type for establishing a switched line and extracting information using a client Internet protocol (IP) address that can be extracted from a client identification (ID) as a key. A method for establishing a switched connection in a video service system.

Hereinafter, a conventional on-demand video service system will be described with reference to the accompanying drawings.

1 is a block diagram of a typical on-demand video service system.

The general video-on-demand system includes a client unit 1 for selecting video information and restoring a video image, a session managing resources and sessions between the client unit 1 and the server 3, as shown in FIG. A resource management unit 2, a video pump unit 3b for transmitting video images, a video server unit 3a for controlling the video pump unit 3b and managing distributed objects, the server 3, and a client unit And a switching section 4 for the interface between the section 1 and the session and resource management section 2.

Although not shown in the figure, an Address Resolution Protocol (hereinafter referred to as ARP) server is provided in any one of the switching unit 4, the session and resource management unit 2, and the server 3. As shown in FIG.

Such ARP server manages and routes fixed access circuits in ATM Internet Protocol Over ATM (IPOA) networks.

On-demand video service system having such a configuration is standardized in Digital Audio-Visual Council (DAVIC) Specification 1.0. Four methods are described as follows.

First, the session and resource manager 2 establishes a call and a connection for establishing a switched access line in a session method.

Second, the video server unit 3a establishes a call and a connection for establishing a switched access line by a network method with resource addition messages between the video server unit 3a and the session and resource manager 2.

Third, the video server unit 3a establishes a call and a connection for establishing a switched access line in a network method having no resource addition messages between the video server unit 3a and the session and resource management unit 2, and performs a Q.2931 signal. Through the session and resource management unit 2 manages the connection.

Finally, in a mixed manner, the client unit 1 or the server 3 establishes a call and a connection for the switched access line, and the session and resource manager 2 manages the connection through the Q.2931 signal.

In this case, each system uses an asynchronous transfer mode (hereinafter referred to as ATM) network interface, and the digital audiovisual council defined the following protocol for information flow between the systems.

These protocol stacks are divided into five pieces. The S1 information flow is the video control part between the video pump part 3b and the client part 1, and the S2 information flow is a distributed object between the client part 1 and the video server part 3a. DSMCC-UU (Digital Storage Media Command and Control)-(User-to-User) which is the communication and control part, and the S3 information flow includes the client unit 1, the session and resource manager 2, and the session and resource manager ( DSMCC-UN (User-to-Network), which is the communication and control part between 2) and the video server part 3a, Q.2931 as the call and connection setup and release part with S4 information flow, and network management with S5 information flow. The control part. These five information flows proceed from S5 to S1.

As described above, the DSMCC protocol in the digital audio-visual council standards-compliant video system is composed of ATM Internet Protocol Over ATM (IPOA) networks.

2 is a flowchart illustrating a video server asynchronous transmission mode (ATM) call and connection setup in a conventional video service system on demand.

As shown in FIG. 2, the video server ATM call setup and connection setup in the conventional video-on-demand video service system are performed by the video server unit 3a for session identification (hereinafter referred to as ID) of the session setup instruction message, client unit ID, and the like. It receives the server ID and assigns the Call Reference value of the SETUP message as the session ID, assigns the calling party number as the server ID, and calls the calling party number as the client ID. Configure the user-network interface by assigning a value called (called party number).

Subsequently, after the user-network interface is configured, the video server unit 100 generates a call setup message 100 through the switching unit 4 to the session and resource management unit 2. ), Call setup (CALL SETUP) message 101 to the client unit 1, the client unit 1 accepts the call setup message 101, the call proceed (CALL PROC) and call connection (CALL CONNECT) Message 102 and 103, the switching unit 4 sends the call connection message 103 of the client unit 1 to the video server unit 3a, and the video server unit 3a to the video pump unit. The call connection message 104 is sent to 3b.

Then, a CONNECT ACK 105, 106 message is sent from the switching section 4 to the client section 1 and the video pump section 3b.

When the connection is established between the client unit 1 and the video pump unit 3b, a resource addition message is exchanged to inform the session and resource management unit 2 of call and connection setting information, and a session ID, a client ID, and a server. The ATM resource information is extracted from the ID and loaded into the resource addition request message of the video server 3a and sent to the session and resource management unit 2.

In the conventional video-on-demand video service system, there are the following problems.

First, the information extraction is complicated because the information is extracted from three parameters (session ID, client ID, and server ID) in the user-network session setup message, and a SETUP message is sent through the ATM user-network interface.

Second, since the ATM IPOA network is implemented with different ATM application program interfaces depending on the vendor of the ATM network interface of the server, it is difficult to implement the configuration message according to the change of the ATM network interface of each system. It was difficult to maintain the change.

SUMMARY OF THE INVENTION An object of the present invention has been made in view of the above-mentioned problems of the prior art, and simply performs an information extraction process by performing a switched connection using a client IP address that can be extracted from a client ID as a key. The present invention provides a method for establishing a switched connection in an on-demand video service system.

According to an aspect of the present invention for achieving the above object, extracting and storing the Internet Protocol (IP) of the client, addressing the asynchronous transmission mode (ATM) address of the video pump and Address Resolution Protocol (ARP) Registering in a table of a protocol (ARP) server, sending an interface setting message between a user and a network to the client, storing switched connection line information between the user and the network, and using the client Internet protocol (IP) as a key. Extracting the switched connection information, and providing the switched connection information to a video server.

Preferably when sending an interface establishment message between the user and the network through the server of the address resolution protocol (ARP).

In addition, when the switched access line information between the user-network is stored, the information is stored in the server table of the address resolution protocol (ARP).

According to the present invention as described above, it is possible to simplify the switched connection setting procedure in the video service system on demand, as well as to facilitate the management of the switched connection line.

1 is a block diagram of a typical on-demand video service system

2 is a flowchart illustrating a video server asynchronous transmission mode call and connection setup in a conventional video on demand service system.

3 is a flowchart illustrating a video server asynchronous transmission mode call and connection setup in an on-demand video service system according to the present invention.

4 is a flowchart for explaining a switched connection line setting in an on-demand video service system of the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a flowchart illustrating a video server asynchronous transmission mode (ATM) call and connection setup in an on-demand video service system, and FIG. 4 is a flowchart illustrating a switched connection line setup in an on-demand video service system. .

The video server ATM call setup and connection setup and switched access line setup in the present invention video-on-demand system are performed by the session and resource manager 2 in the DSMCC protocol according to the request of the client unit 1, as shown in Figs. Sends a session setup instruction message to the video server section 3a, the video server section 3a obtains a session ID, a client ID, and a server ID. Then, only the client IP is extracted from the client ID including the client IP among these three pieces of information. (300) (301) (302) At this time, the client IP address is separately stored. (311)

Then, a remote procedure call (RPC) is sent to the video pump unit 3b for a switched connection line setting command for delivering the client IP and the video image.

Then, the video pump section 3b of the server 3 receives a client ID and switched connection line setting command from the video server section 3a, and the ATM address and address resolution protocol server (not shown) of the video pump section 3b. Register the ATM address in its own address resolution protocol table (303) (304) (305) and ping using the client IP (306) to send the user-network interface setup (SETUP) message to the address resolution protocol. Send to server (307)

In this case, ping is an application used to test whether devices remote from the Internet protocol network are properly connected in the network.

Subsequently, the address resolution protocol server sends a user-network interface call setup message to the client unit 1 via the ATM network.

Subsequently, the client unit 1 sends a call connection message to the address resolution protocol server (202, 203), and the address resolution protocol server sends a call connection message to the video pump unit 3b. (204)

Then, a CONNECT ACK (205) 206 message is sent to the client unit 1 and the video pump unit 3b via the switching unit 4.

Then, the video pump unit 3b temporarily stores the switched connection line information stored in the address resolution protocol (ARP) server, and extracts and stores the switched connection line information for video transmission using the client IP as a key (308). 309)

That is, the client IP (key) and the string is searched, and if the string is a key, the virtual path and the virtual channel identification numbers (VPI and VCI), which are switched circuit connection information, are extracted and stored.

The extracted information is transmitted to the video server unit 3a using a remote procedure call (RPC), and the video server unit 3a analyzes it and uses it as a DSMCC ATM switched access line resource and loads it in a resource addition request message. Transfer to the resource manager 2 (310).

The present invention as described above has the following effects.

First, the switching circuit setup procedure is simple because only the client IP of the client ID is used to set up the switching access line and extract the information of the video service system on demand in the ATM IPOA network, and the video image transmission using the address resolution protocol table is simple. Easy management of switched access lines

Second, since the switched connection line is set up using the client's IP, it does not affect the change of the server's network interface vendor.

Claims (3)

Extracting and storing an internet protocol (IP) of the client; Registering an asynchronous transmission mode (ATM) address of the video pump and the address resolution protocol (ARP) in a table of the address resolution protocol (ARP) server; Sending an interface establishment message between a user and a network to the client; Storing switched access line information between the user-network; Extracting the exchange connection information with the client internet protocol (IP) as a key; And, And providing the switched connection information to a video server. 2. The method of claim 1, wherein when the interface establishment message is transmitted between the user and the network to the client, the server of the address resolution protocol (ARP) is transmitted. 2. The method of claim 1, wherein when the switched access line information between the user-networks is stored in a server table of the address resolution protocol (ARP).