KR100233907B1 - Frame relay module in isdn switch - Google Patents

Abstract

The present invention relates to a frame relay handler module configured in a match exchange subsystem of an ISDN exchange, which is connected to a time switch (2) and a sub highway (3) and receives a frame transmitted from a subscriber via the time switch (2). And a plurality of frame relay handlers (F1-Fn) which process the received frame data according to a control signal and exchange frames with each other; A frame relay control board 1 is provided for applying control signals for data exchange to the frame relay handlers F1-Fn via the frame relay handlers F1-Fn and the L-BUS 5.

Therefore, the present invention has an effect that the exchange of frame data can be easily performed in the SDN exchange system.

Description

Frame Relay Module for ISDN Exchange

The present invention relates to an ISDN exchange system, and more particularly, to a frame relay module of an ISDN exchanger configured in a matched exchange system in an ISDN exchange system.

Currently, most data networks operate based on packet transmission technology. Especially in public data networks, packet transmission technology based entirely on the X.25 standard is a natural international standard for both domestic and international networks. have.

Packet services within an ISDN exchange can be provided in two ways: Case A and Case B of the X.31 Recommendations. In the TDX-10 ISDN exchange, there is packet processing within the ISDN exchange, allowing subscribers to access B and D channels. The case B method can be used by using both services.

The TDX-10 packet-switched service does not distribute the packet handling subsystem, the packet handling subsystem, to each subscriber interface module, and all packet traffic passes through the TST switching network within the TDX-10. Subsysem for Packet Switching (ASS-P) forms a centralized structure that is centralized and processed.

However, the TDX-10 ISDN packet-switched architecture uses X.25 protocol to perform complex processing such as error detection and recovery in order to guarantee end-to-end transmission quality. Therefore, in order to meet the service needs of users in the future, a better way of technology is required. (1) Since the flow control and error control are performed at the link layer of the packet protocol layer 2 and the layer 2 of the packet layer layer, there is a large transmission overhead in the network because the protocol overhead is too large.

(2) In-band signaling, which processes user information and control information in a layer 3 packet layer, is inflexible in adding a new service.

(3) During packet call processing, the virtual call is set up by a two-step procedure. That is, after performing channel allocation process by out-of-band control using D channel. A call for establishing a virtual circuit is required according to an in-band procedure on an allocated B or D channel. In this way, there is no flexibility to add new services.

(4) There is a limitation in speeding up the network because it is not suitable for high-speed data transmission service of 64 Kbps or more.

On the other hand, in recent information society, there is a demand for a protocol that can replace the existing X.25, which can transmit more information at high speed. Frame relay is proposed as an alternative. The existing packet protocol is designed to guarantee the end-to-end transmission quality due to the lack of the development of the initial communication path. Therefore, error detection, error recovery, flow control, etc. are performed in the data link layer. DTP (Data Transfer Protocol) of X.25 PLP (Packet Layer Protocol) was implemented.

However, due to the development of current transmission technology, the error occurrence rate is considerably lowered, thus minimizing various control functions in the data link layer. In the network, only the core functions of Layer 2 required for data transmission are implemented, and functions such as error recovery and flow control are performed. The frame relay enables short delay time and high speed transmission by allowing the user device to perform it when necessary. In fact, frame relay was proposed in 1986 as the evolutionary step of packet communication in ISDN, and is currently being spread worldwide for use in high-speed data communication.

In response to this trend, the present inventor has filed an ISDN Access Switching Subsystem for ISDN (Application No.) as the same as the present invention. In this application, the Applicant states that each sus- tem system simultaneously accepts all subscriber access and trunk line connection modules, and No, 7 modules for other common line signaling services, packet modules for packet processing and frame relay processing. A matched exchange subsystem of an ISDN switched system including a frame relay module is presented.

On the other hand, the present inventors have studied a more efficient device for the frame module to perform the processing and data exchange functions of the frame relay protocol in the above-described ISDN exchange system.

SUMMARY OF THE INVENTION The present invention has been made by the results of this study, and an object of the present invention is to provide a frame relay module of an ISDN exchanger capable of performing a frame relay protocol and data function more efficiently in an ISDN exchange system.

The frame relay module of the ISDN exchange according to the present invention is a frame relay handler module configured in the match exchange subsystem of the ISDN exchange, which is connected to a time switch and a sub highway, receives a frame transmitted from a subscriber through the time switch, A plurality of frame relay handlers for processing the received frame data according to a control signal and performing frame exchange with each other; It is provided with a frame relay control board for applying a control signal for data exchange to the frame relay handler through the frame relay handlers and the L-BUS.

1 is a block diagram of a frame relay module of an ISDN exchange according to the present invention;

<Description of the code | symbol about the principal part of drawing>

1: frame relay control board 2: time switch

3: sub highway 7: telephony processor

F1-Fn: Frame Relay Handler 10: Frame Relay Module

Those skilled in the art from the embodiments of the present invention described below will be able to more clearly understand the above and other objects and advantages of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention.

1 shows a block diagram of a frame relay module of an ISDN switch in accordance with the present invention.

As shown, the frame relay module 10 performs a frame relay handler (FRH) (F1-Fn) and a plurality of FRHs (F1-Fn) that perform link level processing on the frame relay data received from the subscriber. It consists of a Frame Relay Controller board (FRC) (1) to perform the exchange function between.

That is, the FRHs (F1-Fn) are connected to a time switch (TSW) 2 and a subhighway (SHW) 3 to receive a frame transmitted from the subscriber through the TSW 2, The received frame data is processed and frame exchange is performed with other FRHs (F1-Fn) under the control of the FRC (1). At this time, the FRC (1) is connected to the FRH (F1-Fn) and the parallel bus (5) called L-BUS to exchange data between the FRH (F1-Fn).

In addition, the FRC 1 is connected to the message switch (MSCI) 6 through the U-Link (4), enabling data communication with other subsystems (ASS), and the higher telephony processor (Telephony Processor). TP) (7) can communicate with HDLC format to perform call processing or report operation and maintenance related information.

That is, the FRC 1 controls the FRHs (F1-Fn) as described above to enable frame data exchange between the FRHs (F1-Fn).

In addition, the FRC 1 matches the upper TP 7 and transmits call processing related messages, operation and maintenance related messages, and statistical data received from the FRH F1-Fn to the upper TP 7, thereby transmitting the TP 7. To control and operate the frame relay call.

In this case, the FRC 1 transmits frame data through the MSCI 6 when the frame call is exchanged between other sub-systems rather than a call within the same sub-system.

Thus, by configuring the frame relay handler module as in the present invention, there is an effect that the exchange of frame data can be easily performed in the ISDN exchange system.

Claims (3)

A frame relay module configured in the match exchange subsystem of an ISDN exchange, It is connected to the time switch 2 and the sub highway 3, receives the frame transmitted from the subscriber through the time switch 2, and processes the received frame data according to a control signal to exchange frames with each other. A plurality of frame relay handlers F1-Fn; An ISDN switch having a frame relay control board (1) for applying a control signal for data exchange to the frame relay handlers (F1-Fn) via the frame relay handlers (F1-Fn) and the L-BUS (5). Frame relay module. The method of claim 1, The frame relay control board 1, The telephony processor 7 by transmitting call processing related messages, operation and maintenance related messages, and statistical data received from the frame relay handlers F1-Fn in accordance with the upper TP 7 to the upper telephony processor 7. Frame relay module of an ISDN exchange, which allows a user to control and operate a frame relay call. The method of claim 2, The frame relay control board 1, Connected to the message switch (MSCI) 6 via the U-link 4 so that the frame data is exchanged between other subsystems other than the call in the same subsystem, the message switch 6 is used to exchange frame data to other matched exchange subs. Frame relay module for an ISDN exchange configured to transmit to the system.

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