KR20030019991A - VoATM gateway system for Voice over IP and Voice over ATM interworking - Google Patents

Abstract

PURPOSE: A VoATM(Voice over Asynchronous Transfer Mode) gateway system capable of interworking with a VoIP(Voice over Internet Protocol) is provided to minimize the change of a conventional VoATM system and smoothly perform the channel connection between a VoIP subscriber and a VoATM subscriber. CONSTITUTION: An AAL2/AAL5(ATM Adaptation Layer 2/AAL5) processing unit(40) performs an SAR(Segmentation And Reassembly) function of voice data capsulized to an AAL2 in an VoATM interworking and the SAR function of data capsulized to an AAL5 in a VoIP interworking. The AAL2/AAL5 processing unit(40) separates received VoATM and VoIP data, transmits only intrinsic voice association data to a vocoder(50) through a compact PCI(Peripheral Component Interconnect) interface, and generates an AAL2 ATM cell using a VPI/VCI(Virtual Path Identifier/Virtual Channel Identifier) value received from the processor(30) through a DM-bus. In case of calling a remote VoATM subscriber, the vocoder(50) vocodes 64Kbps PCM(Pulse Code Modulation) data received from a time switch(60) and transmits the vocoded PCM data to the AAL2/AAL5 processing unit(40). In case of calling a remote VoIP subscriber, the vocoder(50) processes the 64Kbps PCM data received from the time switch unit(60), generates the PCM data as an IP(Internet Protocol) packet, and transmits the IP packet to the AAL2/AAL5 processing unit(40). The time switch unit(60) performs a time slot exchange function of the 64Kbps PCM data. A VoIP processor(70) interworks with the IP network, and performs a control function for a VoIP call connection and an ability exchange so that control data are capsulized to the AAL5 in a processor(30), and the capsulized control data are transmitted to the IP network through an ATM network.

Description

Voice data integration asynchronous transmission mode gateway system that can interwork with voice data integration internet protocol {VoATM gateway system for Voice over IP and Voice over ATM interworking}

The present invention relates to a VoATM gateway system capable of interworking with VoIP. More specifically, the VoATM gateway has a NAS (NETWORK ACCESS SERVER) instead of a PSTN network between the heterogeneous networks for communication between VoIP and VoATM networks having different protocol stacks. A system converts and transmits a call control signal generated in the heterogeneous network to match a partner network, controls a media transmission / reception channel according to call processing resource management and call setup, and formats a data packet to match the partner network. It relates to a VoATM gateway system to perform a function, such as.

Currently, the evolution to Voice Over Packet networks is not a standard, but a voice data integration Internet protocol (VoIP) with different protocol stacks such as (a) and (b) of FIG. Two standards are under development: Voice over Internet Protocol (Voice) and Voice over Asynchronous Transfer Mode (VoATM).

Therefore, in order for voice subscribers using two different networks to talk to each other, there must be a medium capable of relaying in the middle.

Currently, the most practical way to mediate two networks is to connect VoIP subscribers 5 and VoATM subscribers 4 across a public switched telephone network (PSTN) 3, as shown in FIG.

In addition, the conventional VoATM gateway system, as shown in Fig. 3, has an ATM interface 11, an ATM MUX / DMX 12, a processor 13, an AAL2 processor 14, and a vocoder 15. And a time switch unit 16.

However, in the above case, since the PSTN network 3 must be interposed between the ATM network 1 and the IP network 2, the call processing procedure is complicated, and only the packet network is used. Traffic efficiency, which is considered to be an advantage of doing so, is also reduced.

In addition, since there is no way to provide information exchange function for vocoding method between VoIP subscriber 5 and VoATM subscriber 4 through PSTN network 3, VoIP and VoATM gateway have different The use of a coding scheme results in a significant drop in speech quality.

In addition, when the network evolves into the next generation network (NGN), it is pointed out that the configuration of such a call becomes impossible assuming that all PSTNs disappear.

Therefore, there is a need for the addition of a function for interworking communication between VoATM and VoIP or a function of making VoATM system compatible with VoIP while using an ATM network as it is.

Accordingly, the present invention is to solve the problems and disadvantages of the conventional VoIP network and the VoATM network interworking system, with a NAS (Network Access Server) instead of the PSTN network for interworking between VoATM and VoIP A physical interface that allows a VoATM system to be physically and functionally connected to a VoIP subscriber and an ATM network to transmit a mutually converted signal to each line, and converts and transmits a call control signal generated in the heterogeneous network to match the other network. And a call control unit for controlling a media transmission / reception channel according to call processing resource management and call setup, and a data conversion unit for packetizing data to match the other party's network to provide a call path between the VoIP subscriber and the VoATM subscriber. It is an object of the present invention to provide a function that allows to be provided in the VoATM system.

1 shows a protocol stack,

(A) is the protocol stack structure of VoATM,

(B) is a protocol stack structure diagram of VoIP.

Figure 2 is a conventional VoIP and VoATM interworking structure diagram.

3 is a structure diagram of a conventional VoATM gateway system.

4 is a diagram illustrating the interworking structure of VoIP and VoATM subscribers according to the present invention;

5 is a protocol stack structure diagram of voice data for VoIP and VoATM interworking according to the present invention;

Figure 6 is a network diagram of a VoATM gateway system interoperable with the present invention VoIP.

7 is a flowchart showing a call processing procedure according to the present invention.

((Explanation of symbols for main parts of drawing))

10. ATM interface unit 20. ATM MUX / DMX

30. Processor 40. AAL2 / AAL5 processing unit

50. Vocoder 60. Time Switch Part

70.VoIP Processor

The object of the present invention includes a voice codec function, a data packet format function and a VoIP processor in a VoATM gateway system having a NAS (Network Access Server) instead of a PSTN network between the heterogeneous networks for interworking between VoATM and VoIP. This is achieved by the VoATM gateway system, which allows for interworking between VoIP and VoATM.

The present invention provides a physical interface that is physically and functionally connected to a PSTN subscriber and an ATM network so as to transmit a mutually converted signal to each line, and converts and transmits a call control signal generated in the heterogeneous network to match the other network. A call control unit for controlling a media transmission / reception channel according to call processing resource management and call setup, a data packet conversion unit for converting data into a packet format so as to correspond to a partner network, and a 64kbps PCM data connection function between a PSTN subscriber and a vocoder It consists of a Time switch that performs.

Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood through the accompanying drawings.

First, FIG. 4 is a diagram illustrating the interworking structure of VoIP and VoATM subscribers according to the present invention. FIG. 5 is a diagram illustrating a protocol stack structure of voice data for interworking VoIP and VoATM according to the present invention. FIG. 6 is a VoATM gateway interoperable with the present invention. This is a network diagram of the system.

As shown in FIG. 4, the VoATM gateway system interoperable with VoIP according to the present invention uses a NAS (Network Access Server) 300 instead of a PSTN network between the heterogeneous networks 1 and 2 for interworking between VoATM and VoIP. It is a system that enables the interworking between VoIP and VoATM including voice codec function, data packet format function and VoIP processor in VoATM gateway system.

At this time, the protocol stack of voice data for talking with the VoIP subscriber 5 should have a structure as shown in FIG.

The VoATM gateway system 100 interoperable with the VoIP of the present invention includes an ATM interface unit 10, an ATM MUX / DMX 20, a processor 30, and an AAL2 / AAL5 processing unit as shown in FIG. 40, the vocoder 50, the time switch unit 60 and the VoIP processor 70.

A detailed description focusing on the function of each component constituting the VoATM is as follows.

First, the ATM interface unit 10 transmits and receives ATM data and control data by interworking with the ATM network 1. The UTOPIA (Universal Test and Operations PHY Interface for Atm) signal receives voice data and control data received by an optic. The system then converts the data into an ATM MUX / DMX 20 and performs the reverse function.

The ATM MUX / DMX 20 retrieves the VPI / VCI value from the ATM signal received from the ATM interface unit 10 through the UTOPIA interface, and sends the VPI / VCI value to the AAL2 / AAL5 processing unit 40 through the HOT link in case of voice data. In the case of control data, the control data is sent to the processor 30 through the HOT link.

In addition, the ATM MUX / DMX 20 multiplexes voice data and control data received from the AAL2 / AAL5 processing unit 40 and the processor 30 through the HOT link to the ATM interface unit 10 through the UTOPIA interface. Send to).

The processor 30 performs an AAL5 SAR function for processing AAL5 encapsulated control data, which is control data transmitted / received through a HOT link between the processor 30 and the ATM MUX / DMX 20. It performs the operations and management functions for ATM and call routing.

In addition, the processor 30 performs an IP packetization function to transmit and receive data related to VoIP call processing with the VoIP processor 70 through an Ethernet interface, and executes lower function units (ATM interface unit, AAL2 / AAL5 processing unit, VoIP processing units) are controlled through the DM-bus.

On the other hand, the AAL2 / AAL5 processing unit 40 performs the AAL2 / AAL5 SAR function since the voice data is encapsulated in AAL2 when the VoATM interworking is encapsulated in AAL2, and the AAL2 / AAL5 SAR function when the interworking with VoIP is performed. Only depacketization is sent to the Vocoder 50 via the Compact PCI interface, and vice versa.

In addition, the AAL2 / AAL5 processor 40 generates an AAL2 ATM cell using the VPI / VCI value received from the processor 30 through the DM-bus.

The vocoder 50 performs a vocoding (G.726, G.723.1, G.729, etc.) function for voice data, in the case of a call to a Remote VoATM subscriber, 64 kbps received from the time switch unit 60. It performs only the vocoding of PCM data and sends it to the AAL2 / AAL5 processing unit 40 and performs the reverse function. However, for the call to the remote VoIP subscriber, the 64 kbps PCM data received from the time switch unit 60 is vocoded. After processing to the IP layer, which is the third layer as shown in FIG. 5, the voice data is converted into an IP packet and sent to the AAL2 / AAL5 processing unit 40.

The time switch unit 60 performs a time slot exchange function of 64 kbps PCM.

In addition, the VoIP processor 70 performs control functions (eg, H.323 / SIP, etc.) for VoIP call connection and capability exchange by interworking with the IP network 2, and the control data is transferred from the processor 30 to the IPoA AAL5. It is encapsulated as is sent to the IP network (2) through the ATM network (1), and performs the reverse function, the subscriber 5 performs an analog / ISDN subscriber matching function.

Finally, FIG. 7 is a flowchart showing a call processing procedure of a gateway when a VoATM subscriber calls a VoIP subscriber according to the present invention, and assumes that a call control protocol for VoIP is H.323.

First, when the VoATM gateway 100 detects hook-off and DTMF from the subscriber, it reports to the processor 30, and the processor 30 establishes an ATM path between the VoATM 100 and the NAS 300 using UNI signaling. Set it.

The VoIP processor 70 performs H.323 signaling with the Gatekeeper or the Remote VoIP gateway 200 of the IP network 2 by using the established route.

In addition, the VoIP processor 70 establishes a TCP path for Q.931 signaling with a Remote Gateway or Gatekeeper through an ATM path established in conjunction with the processor 30 and a NAS (Network Access Server) 300, and sets the established path. Q.931 signaling procedure is performed.

Next, the time switch path between the subscriber 5 and the vocoder 50 and the ATM path for the media stream are connected using the data obtained during the Q.931 call setup procedure, and the H.245 channel during the Q.931 call setup procedure. You will also receive a transport address for the open.

As described above, if the RTP / RTCP channel for the capability exchange and media stream transmission for the vocoding scheme after opening the H.245 channel is set, the VoIP processor 70 and the capability negotiated with the remote gateway or Gatekeeper 200 and The IP address and port number for the RTP / RTCP channel are controlled by the processor 30 to use the vocoding method and IP packetizing for voice.

Accordingly, the VoATM gateway system interoperable with the VoIP of the present invention enables the connection between the VoIP subscriber and the VoATM subscriber to be smoothly performed while minimizing the change of the existing VoATM system, and simplifies the call processing procedure. It is possible to reduce the possibility of voice quality deterioration by providing a capability exchange for a coding scheme and to provide a voice communication service without a PSTN network in the future.

Claims (1)

In the VoATM gateway system, Send and receive ATM data and control data by interworking with ATM network (1), convert data received by OPTIC into UTOPIA signal and transmit to ATM MUX / DMX (20), and receive by UTOPIA from ATM MUX / DMX (20) An ATM interface unit 10 for converting the data into an OPTIC signal and transmitting the same to the ATM network 1; The VPI / VCI value is retrieved from the ATM signal received through the UTOPIA interface from the ATM interface unit 10 and the voice data is sent to the AAL2 / AAL5 processing unit 40 through the HOT link, and the control data is transmitted through the HOT link. ATM MUX / DMX, which is sent to the processor 30 and multiplexes the voice data and the control data received from the AAL2 / AAL5 processing unit 40 and the processor 30 through the HOT link to the ATM interface unit 10 through the UTOPIA interface. 20; Performs AAL5 SAR function, which is a function of disassembling and assembling control data encapsulated in AAL5, which is transmission / reception data with the ATM MUX / DMX 20, and transmitting / receiving data related to VoIP call processing with the VoIP processor 70 through an Ethernet interface. A processor 30 for performing an IP packetization function and controlling lower functional units inside the system through a DM-bus; Performs SAR function of AAL2 encapsulated voice data and AAL5 encapsulated data when interworking with VoATM, and separates received VoATM and VoIP data to record only pure voice related data through Compact PCI interface (Vocoder) ( 50), an AAL2 / AAL5 processor 40 generating an AAL2 ATM cell using the VPI / VCI value received from the processor 30 through the DM-bus; It performs vocoding function on voice data, and in case of a call with a Remote VoATM subscriber, vocodes 64 kbps PCM data received from the Time Switch unit 60 and sends it to the AAL2 / AAL5 processing unit 40, and with the Remote VoIP subscriber. In the case of a call, the vocoder 50 processes the 64 kbps PCM data received from the time switch unit 60 up to the vocoded IP layer, converts the voice data into an IP packet, and sends the voice data to the AAL2 / AAL5 processing unit 40; A time switch unit 60 for performing a time slot exchange function of the 64 kbps PCM; By performing control functions such as VoIP call connection and capability exchange by interworking with the IP network 2, the control data is encapsulated in the AAL5 in the processor 30 and transmitted to the IP network 2 through the ATM network 1. VoIP processor 70; VoATM gateway system capable of interworking with VoIP, characterized in that consisting of.