KR20040028327A - Method for providing voice service on Next Generation Network - Google Patents

Abstract

PURPOSE: A method for supplying a voice service in an NGN(Next Generation Network) is provided to convert an analog voice signal into a digital voice signal in the first access gateway, and to convert the digital voice signal into the analog voice signal in the second access gateway, in order to make a call, thereby continuously supplying a voice service to existing ATM-based xDSL subscribers. CONSTITUTION: The fist AGW(Access Gateway)(31) monitors whether a telephone terminal is in off-hook state(S310), and transmits an off-hook sense signal to a soft switch(32)(S311). The soft switch(32) transmits a response signal to the first AGW(31)(S312). The first AGW(31) transmits a generate dial tone to an originating telephone(11)(S313), collects digits(S314), and transmits a telephone number to the soft switch(32)(S315). The soft switch(32) decides a destination(S316), transmits an originating call(S315), and transmits an originating call(S317). The soft switch(32) sets a path(S318). The first AGW(31) receives an analog voice signal(S319), and converts the signal into a digital voice signal(S320). The digital voice signal is transmitted to the second AGW(33)(S321). The second AGW(33) re-converts the digital voice signal into the analog voice signal, and transmits the signal to a receiving terminal(34)(S322,S323). The call is made between the originating terminal(11) and the receiving terminal(34)(S324).

Description

Method for providing voice service on next generation network

The present invention relates to Next Generation Network (hereinafter referred to as 'NGN'), and more specifically, to provide voice service to digital subscriber line (xDSL) customers based on Asynchronous Transfer Mode (ATM) using NGN. It's about how.

ATM-based xDSL, which provides voice and data services using copper wire in current communication networks, independently establishes a separate backbone network for each voice and data service, and provides voice and data to customers through each backbone network.

Since the conventional ATM-based xDSL has a structure in which voice and data cannot be simultaneously transmitted through one circuit, there is an inefficient problem in traffic aggregation and distribution.

On the other hand, unlike the existing service network where separate networks exist for each service such as wired voice, wireless voice, and data, NGN is a network that supports traffic such as voice, video, fax, and data through the same link. It is a network in which separate networks such as PSTN network, cable network, wireless network and IP network are integrated.

Therefore, NGN can be used as a network that can solve the problems of the conventional ATM-based xDSL.

However, if the current ATM-based xDSL service is provided using NGN, the terminal and customer voice communication terminal installed in the customer's premises must be replaced with the terminal and terminal required by the NGN. There is a problem to build a new network in the magnetic field.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an NGN service by using a network configuration of a conventional ATM-based xDSL customer's premises equipment and a subscriber system.

1 is a block diagram of a network for accepting NGN voice service to an ATM-based xDSL customer to which the method according to an embodiment of the present invention is applied.

2 is an internal configuration diagram of an access gateway according to an embodiment of the present invention.

3 is a flowchart illustrating a voice service providing process in a next generation network according to an embodiment of the present invention.

The present invention for achieving the above technical problem, a subscriber station network including a telephone terminal, a data terminal, an xDSL modem, a first splitter, a second splitter connected to the first splitter, DSLAM, including a router In a voice service providing method in an NGN connected to an ATM based xDSL network and including a plurality of access gateways and soft switches, a first access gateway located at a caller side collects digits received from the second splitter, A first step of transmitting the collected digits to the soft switch to the called telephone number; and determining the second access gateway of the called party by the called telephone number received by the soft switch, and the first access gateway and the second access. A second step of establishing a path between gateways, and wherein the first access gate is connected to the second split Converting the analog voice signal transmitted from the digital voice signal into a digital voice signal conforming to the NGN and transmitting the digital voice signal to the second access gateway; And transmitting to a terminal to make a call between the called party and the calling party.

Advantageously, said third step further comprises the steps of: receiving, by the first access gateway, an analog voice signal from the second splitter, and after the first access gateway compresses / vocodes the received analog voice signal, IP / And converting the digital voice signal converted into the IP / RTP format to the second access gateway through the Internet core network, which is an IP backbone network.

Hereinafter, a voice service providing method in an NGN according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, the structure of an xDSL network and an NGN network for achieving the method of the present invention will be described with reference to FIG.

1 is a block diagram of a network for accepting NGN voice service to an ATM-based xDSL customer to which the method according to an embodiment of the present invention is applied.

As shown in FIG. 1, the present invention is to provide a voice service of NGN to a conventional ATM-based xDSL customer, the subscriber network (10) and the office 20 and the NGN network 20, which is the xDSL network This consists of interconnected configurations.

Here, the subscriber network 10 and the office 20 of the present invention uses a conventional ATM-based xDSL terminator and a voice communication terminal as it is. That is, the present invention uses the telephone terminal 11, the computer 12, the DSL modem 13 and the first splitter 14, which are the equipment of the existing subscriber network 10, and constitutes the national office 20. The second splitter 21, the DSLAM 22, and the router 23 are used as they are.

In addition, the NGN network 20 manages a plurality of access gates to accommodate softswitch 32, which is in charge of call control, and various subscriber stations (subscriber phones) to process protocols for connection with the softswitch 11. And a plurality of AGWs (31, 34, etc.) responsible for media conversion and the like.

The present invention uses the existing xDSL network as described above, while the second splitter 21 and the first AGW 31 of the national office 20 are connected by an analog voice line. Therefore, the analog voice signal separated by the second splitter 21 is transmitted to the AGW 31 along the analog voice line.

The second AGW 33 and all AGWs of the NGN shown in FIG. 1 or as described above may be connected to an analog voice line with a second splitter of a national office.

The AGW receives an analog voice signal from the second splitter 21 as it is connected to the second splitter 21 through an analog voice line. Since the packet in the core network 30 of the NGN is transmitted as a digital signal, the analog voice signal is received. To IP packet network, that is, have a function of converting the format to conform to the core network (30).

Therefore, the AGW includes an analog voice matching section 1, a media converter 2 and an Ethernet interface 3, as shown in FIG.

The analog voice matching unit 1 is an analog interface, which serves as an interface with the second splitter 21 so as to be matched with an analog voice line.

The Ethernet interface 3 is a digital interface, which serves as an interface with the core network 30 so that the Ethernet interface 3 is matched with the core network 30.

The media converter 20 converts an analog voice signal received from the second splitter 21 of the xDSL network into a data format that can be used by the NGN. That is, the media converter 20 compresses / vocodes the received analog voice signal and converts the received analog voice signal into an IP / RTP (Real-time Transport Protocol) format to perform signal processing through the Ethernet interface 3. The digital voice signal is transmitted to the core network 30.

The soft switch 32 controls voice services by performing functions related to authentication, call processing, and charging for voice calls. More specifically, the softswitch 32 handles AGW and call related messages, allocates bandwidth for the call, sets up the path for authentication of subscribing customers, and set up calls between origin and destination. And charge for each issue.

Therefore, the path between the first AGW 31 and the second AGW 33 is set by the soft switch 32.

The second AGW 33 is an access gateway installed at the called party, which may be the same as the first AGW 31, and may be directly connected to the user's phone, that is, the called phone 34.

Hereinafter, a voice service providing method in a next generation network according to an embodiment of the present invention will be described with reference to FIG. 3.

First, when a data signal is generated in the subscriber network 10 of the xDSL shown in FIG. 1, the generated data signal passes through the first splitter 14 and the second through the ADSL modem 12, as is known in the art. It is delivered to the core network 30 through the splitter 15, the DSLAM 22, the router 23, and the edge router 24, and is transmitted to the desired destination.

3 is a flowchart illustrating a voice service providing process in a next generation network according to an embodiment of the present invention.

As shown in FIG. 3, the first AGW 31 monitors whether the calling telephone, that is, the telephone terminal 11, is off-hook as a signal received from the second splitter 21 (S310).

By the monitoring, when the off-hook of the calling telephone 11 is detected (S310), the first AGW 31 transmits the off-hook detection signal to the soft switch 32 (S311).

Then, when the soft switch 32 receives the off-hook signal of the first AGW 31, the soft switch 32 transmits a response signal to the first AGW 31 (S312).

When receiving the response signal from the soft switch 32, the first AGW 31 generates a dial tone and transmits it to the calling telephone 11 so that the user can hear the dial tone (S313). Here, the dial tone is the first tones to be heard when the user picks up the telephone, i.e. when off-hook.

The user who hears the dial tone as described above presses the dial of the outgoing telephone 11 to input the desired telephone number of the destination. At this time, each time the user presses the dial of the calling telephone 11, a beep corresponding to the corresponding digit (digit) is generated, and the beep is received by the first AGW 31.

Here, the dial tone is stopped when the first digit signal is generated.

Accordingly, the first AGW 31 collects digits received from the second splitter 21 (S314), and transmits a set of collected digits, that is, a telephone number, to the soft switch 32 when the digit collection is completed (S314). S315).

Accordingly, the soft switch 32 analyzes the received digits to determine a destination (for example, the second AWG 33) (S316), and transmits an outgoing call so that a call is set to the determined second AGW 33 ( S317).

When the second AGW 33 receives a call from the soft switch 32, the second AGW 33 transmits a response signal to the soft switch 32. Accordingly, the soft switch 32 transmits the first AGW 31 and the second AGW 32. The path is set between 318.

When the called party off-hooks his / her incoming telephone 34 in the state in which the path is set as described above, a call is made between the caller and the called party. When the caller inputs an analog voice signal through his outgoing telephone 11, The analog voice signal is transmitted to the second splitter 21 through the first splitter 14 and is received by the second splitter 21 by the first AGW 31 of the NGN (S319).

When the first AGW 31 receives the analog voice signal transmitted from the second splitter 21 through the subscriber matching unit 1, the media converter 2 compresses / vocodes the received analog voice signal. After the conversion to the IP / RTP format to the digital voice signal suitable for the NGN (S320).

The digital voice signal converted by the media converter 2 is transmitted to the Ethernet interface 3, and the Ethernet interface 3 transmits the digital voice signal to the called party via the core network 30 through the established path. 2 is transmitted to the AGW 33 (S321).

Then, the second AGW 33 analyzes the received digital signal, converts it into an analog voice signal, and transmits the converted digital signal to the called terminal 34 (S322 and S323).

Accordingly, the called party confirms the caller's voice through his or her called terminal 34 and transmits an analog voice signal to the caller through the called terminal 34. At this time, the analog voice signal transmitted from the called party to the calling party is converted into a digital data format conforming to the NGN by the second AGW 33, and is converted into an analog voice signal by the first AGW 33 again.

As a result, as described above, the caller and the called party can make a call through the calling terminal 11 and the called terminal 34 (S324).

Therefore, through the process described above, the customer (sender) of the ATM-based xDSL can talk to the called party through the NGN.

The technical spirit of the present invention has been described above with reference to the accompanying drawings, but this is by way of example only and not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

The present invention has the effect of providing the NGN voice service while using the configuration of the existing equipment of the ATM-based xDSL and subscriber network as it is.

In addition, the present invention provides a voice service to existing ATM-based xDSL customers in NGN, and provides a new service of NGN at a low cost so that operators can create new revenue sources with new value-added services while continuing to maintain existing customers. do.

Claims (2)

Connected to a subscriber station network including a telephone terminal, a data terminal, an xDSL modem and a first splitter, and an ATM-based xDSL network including a second splitter connected to the first splitter, a DSLAM, and a router including a router. In the voice service providing method in NGN comprising a gateway and a soft switch, A first step of collecting a digit received from the second splitter by a first access gateway located at a caller's side, and transmitting the collected digits to an incoming telephone number to the soft switch; A second step of the softswitch determining a second access gateway of a called party based on the received called phone number and establishing a path between the first access gateway and the second access gateway; A third step of the first access gate converting the analog voice signal transmitted from the second splitter into a digital voice signal of a form corresponding to the NGN and transmitting the analog voice signal to the second access gateway; And And a fourth step in which the second access gateway converts the digital voice signal into an analog voice signal and transmits the digital voice signal to the called terminal, whereby a call is made between the called party and the caller. The method according to claim 1, The third step, Receiving, by the first access gateway, an analog voice signal from the second splitter; Converting, by the first access gateway, the received analog voice signal into an IP / RTP format after compression / vocoding; And transmitting the digital voice signal converted into the IP / RTP format to the second access gateway through an Internet core network which is an IP backbone network.