KR20050047252A - Bandwidth reserving system and method in next generation network - Google Patents

Abstract

The present invention relates to a system and method for bandwidth reservation allocation in a next-generation network that collects multimedia information to be transmitted by a multimedia terminal in a next-generation network, grasps the required bandwidth based on the collected multimedia information, and reserves it and guarantees quality of service. will be. The bandwidth reservation allocation system of the present invention receives a call processing signal including transmission multimedia information from a multimedia terminal, extracts the transmission multimedia information, provides the soft switch, and reserves a required bandwidth of the transmission multimedia from the extracted transmission multimedia information. Assign. The bandwidth reservation allocation system includes: a multimedia information extracting apparatus for extracting the type of traffic and the required bandwidth information by combining transmission multimedia information; A network resource monitoring apparatus that monitors available resources of the network and determines whether to allocate the required bandwidth extracted from the multimedia information extracting apparatus; Ask the network resource monitoring apparatus whether to allocate the required bandwidth extracted from the multimedia information extraction apparatus, and if it is determined that the bandwidth can be allocated by the network resource monitoring apparatus, the required bandwidth is reserved to the network components and the network resource reservation And a network resource reservation indicating device for delivering a result to the soft switch.

Description

Bandwidth reservation system and method in next generation network {Bandwidth reserving system and method in Next Generation Network}

The present invention relates to a method for guaranteeing a service quality of a multimedia service in a next generation network (NGN). The present invention relates to collecting multimedia information to be transmitted by a multimedia terminal and grasping a required bandwidth based on the collected multimedia information. The present invention relates to a bandwidth reservation allocation system and method in a next generation network that guarantees quality of service by making reservation reservation.

The existing service network has a separate network for each service such as wired voice, wireless voice, and data. However, NGN is a network that supports traffic such as voice, video, fax, and data through the same link, and separates networks such as PSTN network, cable network, wireless network, and IP network. It is a net. Structures and network elements for next generation networks are defined for the purpose of integration and classification of functional layers.

Next-generation network elements include a softswitch 11 for call control as shown in FIG. 1, a protocol processing and media conversion for connection with the softswitch 11 by accommodating various subscriber stations. Various gateways 12, 13, 14, 18, application servers 15 that provide various services to these subscribers, packet delivery networks 16 for transferring information between these elements, and resources required for various subscriber services; It provides a media server 17. The access gateway 12 connects the NGN subscriber station with the packet delivery network 16, and the trunking gateway 13 connects with the public switched telephone network (PSTN) to connect the general public telephone subscriber station with the packet delivery network 16. The signaling gateway 14 is connected to the SS7 signal network, processes the SS7 standard protocol, and transmits and receives a signal with the public line switching network 19. The residential gateway 18 accommodates a small line and is installed in the home and connected to the packet delivery network.

Currently, the international standardization organization is a control protocol between the soft switch 11, the gateways 12, 13, 14, 18, and the media server 17, and includes a media gateway control protocol (MGCP) and H.248 / Megaco. And, the soft switch 11 proceeds the call processing, such as number translation for the call connection.

In order to guarantee the quality of service for each subscriber, the bandwidth of multimedia required by each subscriber should be identified and the corresponding bandwidth should be allocated. In the conventional IP-based network, the network itself is monitored to reserve the bandwidth according to the total traffic size. Because of the method, accurate bandwidth reservation allocation according to the multimedia service properties is difficult, and therefore, there is a problem that it is difficult to guarantee the service quality of the multimedia service.

That is, multimedia service is expected to be a very important application service in the next generation network. However, from a practical point of view, since it is difficult to guarantee perfect service quality, the development of technology and the spread of services are slow. In particular, since multimedia services are composed of various attributes such as voice, video, and data, and the characteristics of each service are different from each other, it is more difficult to guarantee perfect service quality.

The present invention has been made to solve the above problems of the prior art, by identifying the characteristics according to the type of multimedia (voice, video, data) to be transmitted by reserving the bandwidth between the transmitting side and the receiving side on the network, An object of the present invention is to provide a system and method for allocating bandwidth reservation in a next generation network that guarantees the quality of a multimedia service.

The bandwidth reservation allocation system in the next generation network according to the present invention for achieving the above object, receives a call processing signal including the transmission multimedia information from the multimedia terminal to extract the transmission multimedia information and provide it to the soft switch, the extraction A bandwidth reservation allocation system in a next generation network that reserves and allocates a required bandwidth of the transmitted multimedia from the transmitted multimedia information.

A multimedia information extracting apparatus for extracting the type of traffic and the required bandwidth information by combining the transmission multimedia information;

A network resource monitoring apparatus that monitors available resources of the network and determines whether to allocate the required bandwidth extracted from the multimedia information extracting apparatus;

Ask the network resource monitoring apparatus whether to allocate the required bandwidth extracted from the multimedia information extracting apparatus, and if it is determined that the bandwidth can be allocated by the network resource monitoring apparatus, the required bandwidth is reserved to the components of the network and the network resource reservation is reserved. And a network resource reservation indicating device for delivering a result to the soft switch.

In addition, the bandwidth reservation allocation method in the next generation network according to the present invention is a bandwidth reservation allocation system for receiving a call processing signal including transmission multimedia information from a multimedia terminal and pre-allocating a required bandwidth of the transmission multimedia from the transmission multimedia information. In the bandwidth reservation allocation method,

When the call processing signal including the transmission multimedia information is received from the multimedia terminal, extracting the transmission multimedia information from the call processing signal and extracts the type and the required bandwidth information of the multimedia to be transmitted based on the extracted transmission multimedia information; Step 1;

A second step of transmitting the call processing signal to the soft switch to process the call;

A third step of determining whether network resources are available using the type of the multimedia extracted in the first step and required bandwidth information;

A fourth step of reserving the required bandwidth to a component of the network when the network resource is available as a result of the third step;

And a fifth step of transmitting a reservation result of the required bandwidth to a soft switch.

According to the present invention, there is provided a computer-readable recording medium having recorded thereon a program for executing the bandwidth reservation allocation method as described above.

Hereinafter, a bandwidth reservation allocation system and method in a next generation network according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram illustrating a bandwidth reservation allocation system in a next generation network according to an embodiment of the present invention. It is connected to the multimedia terminal 21 and the soft switch 25, and includes a multimedia information extraction device 22, a network resource reservation indicating device 23 and a network resource monitoring device 24.

The multimedia terminal 21 is installed with a multimedia information collecting program, and collects information about the multimedia to be transmitted by the user. That is, information such as a sender IP address, a receiver IP address, a protocol type, a transmitter layer 4 port number, a receiver layer 4 port number, the number of layer 4 ports generated, codec information, and a file size of the transmission multimedia are collected. .

The sending IP address and the receiving IP address are obtained from the multimedia IP header. The protocol type is obtained from session description protocol (SDP) or real-time transport protocol (RTP), where RTP 31 is the video protocol as H.261 and RTP 2 is the G.721 audio protocol. to be. The sending layer 4 port number and the receiving layer 4 port number are obtained from the session description protocol, and it can be known whether the multimedia type is video or audio. The number of layer 4 ports can be known by checking the port number by session description protocol investigation and network command. Codec information is obtained from the session description protocol, and codec information such as H.263 and G.723 can be known. The file size is obtained from the session description protocol or the real-time transport protocol. If the multimedia type is audio, it is obtained from codec information. If the multimedia type is video, it is obtained from codec information and CIF information.

The multimedia terminal 21 includes the multimedia information as described above (sending IP address, receiving IP address, protocol type, transmitting layer 4 port number, receiving layer 4 port number, generated layer 4 port number, codec information, File size) is collected and coded into a call processing signal and provided to the multimedia information extracting device 22.

The multimedia information extracting apparatus 22 extracts and decodes multimedia information from the call processing signal input from the multimedia terminal 21, extracts the traffic type and the required bandwidth information by combining the extracted multimedia information, and then soft switches. Deliver to (25).

The network resource reservation indicating device 23 inquires the network resource monitoring device 24 of the type of traffic extracted from the multimedia information extracting device 22 and whether or not the required bandwidth is allocated, and if possible, each router of the packet network 16. It reserves the required bandwidth at and transmits the network resource reservation result to the soft switch 25.

The network resource monitoring device 24 monitors the resources of the packet network 16, and when the network resource reservation indicating device 23 inquires whether to allocate the required bandwidth, the network resource monitoring device 24 determines whether the required bandwidth is allocated and the result is determined. 23)

The charging device 26 charges the subscriber to the multimedia terminal according to the network resource reservation result and the call processing result under the control of the soft switch 25.

3 is an operation flowchart illustrating a bandwidth reservation allocation method in a next generation network according to an embodiment of the present invention.

First, the multimedia terminal 21 is the multimedia information (transmitter IP address, receiver IP address, protocol type, sender layer 4 port number, receiver layer 4 port number, number of generated layer 4 ports, Codec information and file size are collected (S31), and a call processing signal (e.g., SIP, MGCP, Megaco, H.323, etc.) including the multimedia information is sent to the multimedia information extracting device 22 (S32).

The multimedia information extracting apparatus 22 extracts the multimedia information from the call processing signal, extracts the multimedia type and the required bandwidth information based on the extracted multimedia information, and transmits the multimedia information to the soft switch 25 (S33).

The network resource reservation indicating apparatus (S23) reserves the bandwidth using the extracted multimedia type and the required bandwidth information (S34). That is, the network resource monitoring device 24 continuously monitors the network resources of the packet network 16, and when the network resource reservation indicating device 23 inquires whether bandwidth can be allocated, the network resource reservation indicating device 23 is sent to the network resource reservation indicating device 23. Informs the availability of network resources. The network resource reservation indicating device 23 instructs a network reservation command such as a router of the packet network 16 when the network resource is available.

The soft switch 25 receives the call processing signal and performs call processing (S35), and the network resource reservation indicating device 23 transmits the bandwidth reservation result to the soft switch 25, and the soft switch 25. ) Informs the charging server of the charging information according to the bandwidth reservation result (S36).

The soft switch 25 proceeds with the call according to the bandwidth reservation result and informs the multimedia terminal 21 of the sender of the result (S37).

Although the technical spirit of the present invention has been described above with reference to the accompanying drawings, it is intended to exemplarily describe the best embodiment of the present invention, but not to limit the present invention. In addition, it is obvious that any person skilled in the art may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

According to the present invention, it is possible to ensure the service quality of the multimedia service by grasping the type and characteristics of the transmission multimedia service and reserving the bandwidth required by the service in the network, thereby improving the customer's satisfaction. have.

1 is a network configuration diagram of a general next generation network,

2 is a block diagram illustrating a bandwidth reservation allocation system in a next generation network according to an embodiment of the present invention;

3 is an operation flowchart illustrating a bandwidth reservation allocation method in a next generation network according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

21: multimedia terminal 22: multimedia information extraction device

23: network resource reservation indicating device 24: network resource monitoring device

25 soft switch 26 charging device

Claims (8)

Bandwidth reservation in a next-generation network that receives a call processing signal including transmission multimedia information from a multimedia terminal, extracts the transmission multimedia information, provides the soft switch, and reserves and allocates a required bandwidth of the transmission multimedia from the extracted transmission multimedia information. In the allocation system, A multimedia information extracting apparatus for extracting the type of traffic and the required bandwidth information by combining the transmission multimedia information; A network resource monitoring apparatus that monitors available resources of the network and determines whether to allocate the required bandwidth extracted from the multimedia information extracting apparatus; Ask the network resource monitoring apparatus whether to allocate the required bandwidth extracted from the multimedia information extraction apparatus, and if it is determined that the bandwidth can be allocated by the network resource monitoring apparatus, the required bandwidth is reserved to the network components and the network resource reservation And a network resource reservation indicating device for delivering a result to the soft switch. The bandwidth reservation allocation system of claim 1, further comprising a billing server for charging the multimedia terminal subscriber according to the network resource reservation result and the call processing result under the control of the soft switch. The transmission multimedia information of claim 1, wherein the transmission multimedia information includes: a sending IP address, a receiving IP address, a protocol type, a sending layer 4 port number, a receiving layer 4 port number, the number of generated layer 4 ports, codec information, and file size. Bandwidth reservation allocation system in the next generation network comprising a. A bandwidth reservation allocation method of a bandwidth reservation allocation system for receiving a call processing signal including transmission multimedia information from a multimedia terminal and pre-allocating a required bandwidth of the transmission multimedia from the transmission multimedia information. When the call processing signal including the transmission multimedia information is received from the multimedia terminal, extracting the transmission multimedia information from the call processing signal and extracts the type and the required bandwidth information of the multimedia to be transmitted based on the extracted transmission multimedia information; Step 1; A second step of transmitting the call processing signal to the soft switch to process the call; A third step of determining whether network resources are available using the type of the multimedia extracted in the first step and required bandwidth information; A fourth step of reserving the required bandwidth to a component of the network when the network resource is available as a result of the third step; And a fifth step of transmitting a result of performing the reservation of the required bandwidth to a soft switch. 5. The method of claim 4, further comprising a sixth step of storing the network resource reservation result and the call processing result in a billing server under the control of the soft switch after the fifth step. . 5. The method of claim 4, wherein the transmitting multimedia information includes a transmitting IP address, a receiving IP address, a protocol type, a transmitting layer 4 port number, a receiving layer 4 port number, the number of generated layer 4 ports, codec information, and file size. Bandwidth reservation allocation method in the next-generation network comprising a. 5. The bandwidth of the next generation network according to claim 4, wherein after the fifth step, the soft switch proceeds with the call according to the required bandwidth reservation result and informs the multimedia terminal of the network resource reservation result and the call processing result. Reservation assignment method. A bandwidth reservation allocation system for receiving a call processing signal including transmission multimedia information from a multimedia terminal and pre-allocating a required bandwidth of the transmission multimedia from the transmission multimedia information; When the call processing signal including the transmission multimedia information is received from the multimedia terminal, extracting the transmission multimedia information from the call processing signal and extracts the type and the required bandwidth information of the multimedia to be transmitted based on the extracted transmission multimedia information; Step 1; A second step of transmitting the call processing signal to the soft switch to process the call; A third step of determining whether network resources are available using the type of the multimedia extracted in the first step and required bandwidth information; A fourth step of reserving the required bandwidth to a component of the network when the network resource is available as a result of the third step; A computer-readable recording medium having recorded thereon a program for executing a bandwidth reservation allocation method comprising the step of delivering the result of the reservation of the required bandwidth to a soft switch.