KR100921323B1 - The method of implementation of the function in the next generation network with callmixer - Google Patents

Abstract

When the first user's communication terminal is connected to a first user's communication terminal connected to the first network media gateway and a second user's communication terminal connected to the second network media gateway, the interception of the first user is performed in a next-generation network in which a call path is established. If the interception server requests the interception by providing the telephone number of the first user to the soft switch, a new RTP termination for the first user is generated at each of the first network media gateway and the interception server; 1 After confirming that both the network media gateway and the eavesdropping server are in an off-hook state, the new RTP termination of the first network media gateway is in a receive receive state and the new RTP termination of the eavesdropping server is received only. only) state. Then, by intercepting the context of the first user of the first network media gateway having the new RTP termination to its own call mixer, the interception is initiated. It can be used to implement the necessary call interception function and can contribute to the promotion of dissemination by eliminating obstacles such as VoIP service.

Next Generation Networks, Taps, Call Mixers

Description

The method of implementation of the function in the next generation network with callmixer}

1 is a diagram illustrating a connection between network elements for an eavesdropping function in a next generation network (NGN) according to the present invention.

2 is a data flow diagram illustrating a method of implementing a tapping function using a call mixer function in a next generation network according to an embodiment of the present invention.

The present invention relates to a Next Generation Network (NGN), and in particular, a call mixer in a soft switch (SSW: SoftSWitch) and Network Media Gateway (NMGW) interworking environment accommodated in NGN. The present invention relates to a method of implementing a tapping function using a call mixer function in a next-generation network that implements a tapping function for an IP terminal by using a function.

In the conventional circuit telephone network, the eavesdropping function can be easily achieved by directly accessing a circuit-based communication line. However, in a packet transmission network, a digital voice signal constituting one call is converted into a plurality of voice packets. Since each segmented and segmented voice packet is routed independently and in various ways, access to the communication line alone cannot achieve the eavesdropping function and requires a complex sequence of processes, such as identifying each routed route.

Therefore, in order to more easily implement the eavesdropping function in the packet forwarding federation, special considerations such as combining voice packets in a special purpose feature server need to be considered. For this reason, no voice eavesdropping has been attempted in the VoIP service.

At present, the implementation of the voice packet interception function is complicated and extremely difficult so that one of the obstacles to the spread of VoIP services in developed countries is the implementation of the voice packet interception function.

The present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to enable interception in a voice packet delivery network.

The present invention for achieving the above technical problem is a soft switch that is responsible for call control, a plurality of network media gateways that connect the user's communication terminal to the soft switch and built-in a call mixer, the call mixer in the next generation connected to the soft switch In the method of implementing the interception function using the function, the first user communication terminal of the first user connected to the network media gateway and the second user communication terminal connected to the second network media gateway for the first user in the state that the communication path is set A first step of requesting eavesdropping by providing the telephone number of the first user to the softswitch when performing the eavesdropping; and a first user at each of the first network media gateway and the eavesdropping server. A second step of causing a new RTP termination to be generated, and the first A third step of causing a new RTP termination of a network media gateway to be in a receive receive state and a new RTP termination of the interception server to be in a receive only state; and the first having the new RTP termination And a fourth step of associating the context of the first user of the network media gateway with its own call mixer to initiate eavesdropping.

Hereinafter, with reference to the accompanying Figures 1 and 2 will be described a preferred embodiment for achieving the method of implementing the interception function using the call mixer function in the packet network of the present invention.

1 is a diagram illustrating a connection between network elements for an eavesdropping function in a next generation network (NGN) according to the present invention. As shown in FIG. 1, the main network components for the eavesdropping function in the next generation network include a plurality of network media gateways (NMGWs), soft switches 10, and packet forwarding networks (Ns). Here, in an embodiment of the present invention, a plurality of network media gateways will be described as representative of the first and second network media gateways NMGW1 and NMGW2.

In the above, the general network media gateway including the first and second network media gateways (NMGW1, NMGW2) accommodates a plurality of communication terminals, protocol processing and media conversion for connecting the received communication terminal to the soft switch 10 It is in charge of the back. In addition, the first and second network media gateways NMGW1 and NMGW2 have a built-in call mixer that transmits a call generated from a communication terminal through a plurality of paths so that 1: 1 or 2: 1 communication is possible.

The network media gateways (NMGW1, NMGW2) is a packet of a data format that conforms to the MEGACO / H.245 protocol to transmit data transmitted from the communication terminal to the soft switch 10, or MEGACO transmitted from the soft switch 10 /H.245 Protocol type packet is converted into data type that can be read by the communication terminal and provided to the communication terminal.

The soft switch 10 processes the call control in software so that the call is received at a destination included in the packet of the communication terminal, and the packet transfer network N transmits information between NGN components in packet units.

In order to achieve the present invention in the NGN configured as described above, the present invention places the interception server 20 performing the interception function between the soft switch 10 and the packet delivery network N.

The process of achieving the method of the present invention in the NGN configured as described above will be described in detail with reference to FIG.

2 is a signal flow diagram illustrating a process of achieving a method of implementing an eavesdropping function using a call mixer function in a packet network according to an embodiment of the present invention. As shown in FIG. 2, a call is made between the subscriber A belonging to the first network media gateway NMGW1 and the subscriber B belonging to the second network media gate NMGW2 by the soft switch 10. Assume a state (P).

 As described above, while subscribers A and B make a call, the operator operates the interception apparatus 20 to intercept subscriber A. Then, the interception apparatus 20 transmits the interception request signal to the soft switch 10 (S210).

Then, the soft switch 10 transmits a signal for requesting a digit, that is, a telephone number, to the interception device 20 as a response signal to the interception request signal received from the interception device 20 (S211). ).

The operator inputs the telephone number of the subscriber A to be intercepted into the interception apparatus 20, and the interception apparatus 20 transmits the input telephone number of the user A to the soft switch 10 (S212). Then, the soft switch 10 receives a digit signal (telephone number) from the interception device 20 and transmits a response signal for the reception to the interception device 20 (S213), then decodes the received telephone number to receive The network media gateway is determined (S214).

In this case, the incoming network media gateway determined by the soft switch 10 is a network media gateway in charge of a communication terminal of a target to be intercepted, and thus becomes a network media gateway NMGW1.

When the soft switch 10 determines the terminating network media gateway NMGW1, the soft switch 10 performs context control between the intercepting device 20 and the terminating network media gateway NMGW1 to establish a connection between the terminating network media gateway NMGW1 and the intercepting device 20. Create the conditions under which the currency path can be established.

In more detail, the destination network media gateway NMGW1 has a subscriber A context for connecting the subscriber terminal A's communication terminal to the soft switch 10. The subscriber A context is soft. It only has an RTP termination for communication with the switch 10, there is no RTP termination for communication with the interceptor 20.

Therefore, in order to enable communication between the subscriber A's communication terminal and the listening device 20, the soft switch 10 may be configured to add a new Routing Table Protocol (RTP) termination to the subscriber A's context. The request signal is transmitted to the destination network media gateway NMGW1 (S215). Accordingly, the incoming network media gateway NMGW1 adds a new RTP termination to the subscriber A context according to the request of the soft switch 10 (S216), and transmits a response signal to the soft switch 10 (S217).

In this context, the context refers to information representing a correspondence between an abstract syntax and a transfer syntax in the OSI basic reference model, and is a relative system based on a presentation layer protocol according to a request from an application layer. It is determined by the trade-offs with the application process.

On the other hand, the soft switch 10 controls the incoming network media gateway NMGW1 to enable communication between the communication terminal of the subscriber A and the interrogator 20, and at the same time, a new context to the interceptor 20. In operation S218, a request signal for generating an RTP termination and a time division modulation (TDM) termination is added to the context. The interception apparatus 20 creates a new context for communication with the incoming network media gateway NMGW1, adds an RTP termination and a TDM termination to the generated context (S219), and then sends a response signal to the soft switch 10. It transmits to (S220).

At this time, since the interception device 20 should not interrupt the call between the subscribers A and B in performing the interception function for the subscriber A, the interception device between the communication terminal of the subscriber A and the interrogation device 20 may be used. Unidirectional packet transmission to the (20) side should be made. Therefore, the RTP terminations generated in the interception apparatus 20 and the destination network media gateway NMGW1 may be configured in a receive only form to enable reception only.

The RTP termination of the interception device 20 and the destination network media gateway NMGW1 instructs the soft switch 10 to monitor on-hook events for the subscriber terminal A and the interception device 20. do. The soft switch 10 responds to the on-hook event monitoring indicated by the RTP termination of the incoming network media gateway NMGW1 and the listening device 20, so that the on-hook event of the communication terminal of the subscriber A and the listening device 20 is performed. To monitor.

Monitoring the on-hook event for the subscriber A's communication terminal and the interception device 20 is to terminate the call or abandon the eavesdropping before the subscriber A's communication terminal or the eavesdropping device 20 starts listening. To detect an event. When the on-hook event is detected as described above, the interception is not performed, so no further interception is required.

As a result of the on-hook event monitoring, when the soft switch 10 confirms that the communication terminal of the current subscriber A is in an off-hook state, the network media gateway NMGW1 transmits a second RTP termination of the subscriber A (that is, newly generated). A request signal for changing the state of the generated RTP termination) from the receive only to the sendive (sendreceive) state is transmitted (S221).

The network media gateway NMGW1 changes the state of the second RTP termination into a sentive state according to a request signal of the soft switch 10 (S222), and transmits a response signal to the soft switch 10 (S223). As described above, when the state of the new RTP termination becomes the sendless state, the call path is established between the network media gateway NMGW1 and the interception server 20 by the soft switch 10 (S224).

At this time, the communication path of the subscriber (A) ↔ network media gateway (NMGW1) ↔ tapping server (20). At this time, the ecology of the RTP termination of the interception apparatus is maintained in the form of a reverse only to prevent the voice and information of the interception apparatus operator from being transmitted to the subscriber (A).

As described above, when a call path is established between the network media gateway NMGW1 and the interception server 20, the soft switch 10 calls the call generated from the communication terminal of the subscriber A with the second network media gateway NMGW2. In order to be respectively transmitted to the 20, the request signal for transmitting the context of the subscriber A to the call mixer is transmitted to the network media gateway NMGW1 (S225). The network media gate NMGW1 connects the context of the subscriber A with the call mixer (S226) and transmits a response signal to the soft switch 10 (S227).

When the context of the subscriber A is connected to the call mixer as described above, the data packet transmitted from the communication terminal of the subscriber A is transmitted to the interception apparatus 20 and the second network media gateway NMGW2 through the call mixer. (S228) Accordingly, the operator of the interceptor 20 starts to intercept the subscriber A through the interceptor 20 (S229).

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 can be utilized to implement a call interception function required for operation, such as troubleshooting the public service and telecommunications operators in the NGN to be built in the future, it can contribute to activate the distribution by removing obstacles such as VoIP services.

Claims (4)

A soft switch in charge of call control, a plurality of network media gateways having a call mixer connected to a user's communication terminal and a call mixer, and a method of implementing an eavesdropping function using a call mixer function in a next-generation network connected to the soft switch, In the case where the interception of the first user is performed while the communication path is established in the communication terminal of the first user connected to the first network media gateway and the communication terminal period of the second user connected to the second network media gateway, A first step, wherein the interception server provides the telephone number of the first user to the soft switch to request interception; A second step of creating a new RTP termination for a first user at each of the first network media gateway and the eavesdropping server; A third step of causing the new RTP termination of the first network media gateway to be in a receive receive state and a new RTP termination of the interception server to be in a receive only state; And Interception function using a call mixer function in a next-generation network, comprising a fourth step of connecting the context of the first user of the first network media gateway having the new RTP termination to its own call mixer to initiate eavesdropping. How to implement. The method according to claim 1, The second step, Adding the new RTP termination to the first user context of the first network media gateway; and creating a first user context having an RTP termination and a TDM termination in the eavesdropping server. How to implement interception function using call mixer function in. The method according to claim 2, The third step is Detecting an on-hook of the communication terminal of the first user and the interception server; In the next generation network, when the communication terminal of the first user and the eavesdropping server are off hook, a new RTP termination of the first network media gateway is sent to the sendive state. . On your computer, A first step of receiving an eavesdropping telephone number of a first user from the eavesdropping server; A second step of determining a first network media gateway by interpreting the received interception telephone number; A third step of creating a new RTP termination for a first user at each of the first network media gateway and the eavesdropping server; A fourth step of setting and changing the new RTP termination of the first network media gateway to be in a sentive state when detecting the on-hook of the communication terminal of the first user and the interception server; And A program capable of executing a fifth step of initiating interception by connecting the context of the first user with the new RTP termination of the first network media gateway to a call mixer embedded in the first network media gateway; Recorded computer-readable recording media.

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