KR100274197B1 - Method for bearer channel control protocol process in v5.2 interface - Google Patents

Abstract

PURPOSE: A bearer channel protocol processing method of a V5.2 interface is provided to enable a call by selecting and allocating(or cancelling) time slot corresponding to an idle bearer channel. CONSTITUTION: A subscriber is generated for a call processing(200). A bearer channel protocol message is transmitted to a line processor in order to transfer the hook-off signal generated by the general subscriber(201). If the line processor requests a bearer channel allocation(202), a main processor selects an idle bearer channel corresponding to the request and allocates it. The allocated bearer channel information is transferred to the line processor. A V5.2 interface controller processes an ISDN signal by transferring the related hook-off signal and a digit transmitting signal to the main processor(205).

Description

How to handle bearer channel control protocol in V5.2 interface {METHOD FOR BEARER CHANNEL CONTROL PROTOCOL PROCESS IN V5.2 INTERFACE}

TECHNICAL FIELD The present invention relates to a Full Electronic Telephone eXchange, and in particular, in a small capacity DTS-1100A (improved) exchanger, the interface between a Local eXchange and an Access Network. The present invention relates to a bearer channel control protocol processing method of two interfaces.

In general, the DTS-1100A small-capacity exchanger is an international standard electronic exchange, which is used for local, local / Tandem of the PSTN, and ultimately in various network types such as general information communication network and intelligent network. It has been developed to develop into a flexible switch, and is suitable and suitable for all applications in terms of external size, performance, service flexibility, and network environment adaptability.

In the conventional exchange, the call connection method does not use the V5.2 interface, which is a call connection bearer channel control protocol using a matching network, for the hook-off and dialing signals of the general subscriber, and the hook-off signal and the dialing signal of the general subscriber By outputting through the processor to the main processor, it can be seen that the call connection between the general subscribers.

Accordingly, the present invention has been made to make a call connection using the above-described V5.2 interface, the purpose of which is the call connection processing and the specific matching network user using the V5.2 interface bearer channel control protocol in the matching network and local exchange period. The present invention provides a method of processing a bearer channel control protocol of a V5.2 interface that allows a connection between a port and a specific V5.2 interface time slot to be established and released.

In the present invention for achieving this object, the bearer channel control protocol processing method of the V5.2 interface generates a subscriber for call processing and transmits a hook-off signal generated from the generated subscriber to the line processor according to the bearer channel control protocol. step; Requesting allocation of a bearer channel from the line processor receiving the hook off signal to the main processor; Selecting and assigning an idle bearer channel according to a bearer allocation request in the main processor, and transmitting the allocated bearer channel information to the line processor; Transmitting the hook-off signal and the digit transmission signal generated from the subscriber to the main processor using the bearer channel allocated by the line processor to establish a call.

1 is a block diagram for performing a bearer channel control protocol processing method of a V5.2 interface according to the present invention;

2 is a detailed flowchart of bearer channel allocation of a V5.2 interface according to the present invention;

3 is a detailed flowchart of bearer channel release of a V5.2 interface according to the present invention.

<Explanation of symbols for main parts of drawing>

10: LP 12: AN

14: VIC section 20: MP

22: VSC section 24: SCC section

26: SDH part 30: IOP part

DETAILED DESCRIPTION Hereinafter, the objects and features of the present invention will be described in more detail with reference to the accompanying drawings so that the objects and features of the present invention can be more clearly understood.

1 is a block diagram for performing a bearer channel control protocol processing method of a V5.2 interface according to the present invention, a line processor 10 (hereinafter, abbreviated as LP) 10, and a matching network (Access Network). (Hereinafter abbreviated as AN) 12, V5.2 Interface Control (hereinafter abbreviated as VIC) portion 14, and Main Processor (hereinafter abbreviated as MP) 20, V5.2 Subscriber Control (hereinafter abbreviated as VSC) section 22, Subscriber Call Control (hereinafter abbreviated as SCC) section 24, Subscriber Data Handling (hereinafter referred to as SDH) section 26 and Input Output Processor (hereinafter referred to as IOP) section 30 are included.

The LP 10 is a line processor including a VIC unit 14 internally. The LP 10 detects a Hook Off / Hook On signal transmitted from a general subscriber and connects a call with a dialed destination general subscriber. Sends a hook-off signal to the MP 20.

The AN 12 is a matching network that accepts analog and digital subscribers and connects to the exchange through the V5.2 interface. The AN 12 receives hook-on and hook-off signals from the general subscriber and controls the bearer channel to the VIC unit 14. Send a protocol message.

The VIC unit 14 is a block for separating and controlling the protocol of the V5.2 interface. The VIC unit 14 receives a bearer channel control protocol message from the AN 12 and transmits a bearer channel to the VSC unit 22 in the MP 20. Requires allocation for (Bearer channel). Here, the bearer channel may be allocated from a pulse code modulation encoded 64 Kbit / sec channel or a basic access user port or a primary access user port from a bearer channel control user port. Provides bidirectional transmission capability for B-channels.

The MP 20 is a main processor including the VSC unit 22, the SCC unit 24, and the SDH unit 26 internally. The MP 20 receives various signals transmitted from the LP 10, and receives a general subscriber and a relay. It is a main processor that performs call processing and performs maintenance functions for system state management.

The VSC unit 22 is a block for processing a call processing and operation / integrity of the V5.2 interface subscriber. The VSC unit 22 selects an idle bearer channel in response to a bearer channel allocation request of the VIC unit 14 and selects a VIC unit ( 14).

SCC unit 24 is a block that performs the call processing function of a general subscriber, and transmits / receives a hook on / hook off signal transmitted from the VIC unit 14 and signals necessary for digit transmission and call connection processing. The bearer channel control call is connected by finding an idle bearer channel among up to 520 bearer channels during the matching network and local exchange.

The SDH unit 26 is a block for processing data of a general subscriber and allocates a bearer channel by a Man & Machine Communication (hereinafter, referred to as MMC) block (not shown) connected to the IOP 10. And the information on the release and registration, the terminal-related information of the general subscriber performs the processing for the generation, change and cancellation, and control the work code, that is, the remote switching code and transmits to the SCC unit 24.

The IOP 30 is an input / output processor that is in charge of input / output port control, and performs message data handling for analyzing and managing messages input and output through the input / output port, and state management for each input / output port. And Input Output Process Management, which performs input and output control functions, Disk Handling, which performs file management functions for hard disks in a PC, and creation and system software for system data. It consists of Data Generation that performs matching function and Data Extraction that extracts station data from the system package in operation. Bearer channel control call connection and call using MMC The blocking information is registered in the SDH unit 26.

With reference to the flowchart of FIG. 2, the bearer channel allocation of the V5.2 interface according to the present invention will be described in more detail based on the above-described configuration.

First, a general subscriber is created for call processing during the local exchange period with the AN 12 (step 200).

When the originating / receiving end subscriber is created, the AN 12 receives a hook off signal among the hook on / hook off signals transmitted from the terminal of the calling end subscriber and bearer channel control protocol to transmit the hook off signal. The message is sent to the VIC unit 14 (step 201).

After receiving the bearer channel control protocol message from the AN 12, the VIC unit 14 requests the VSC unit 22 to allocate the bearer channel to process the bearer channel control protocol message (step 202). Send a setup ac signal to step 12).

The VSC unit 22 selects and allocates time slots of idle bearer channels among a maximum of 512 bearer channels (16 links are connected in total and one time link is connected to 32 links). Transfer to VIC unit 14 (step 204).

Since the VIC unit 14 transmits / receives a signal necessary for digit transmission and call processing to the assigned bearer channel with the SCC unit 24, a call by bearer channel control is established (step 205).

With reference to the flowchart of FIG. 3, the bearer channel release of the V5.2 interface according to the present invention will be described in more detail based on the above-described configuration.

First, the VIC unit 14 receives the hook-on signal according to the bearer channel release from the SCC unit 24 (step 300), and then requests the bearer channel release to the VSC unit 22 to release the bearer channel ( Step 301).

The VSC unit 22 transmits a bearer channel release signal to the VIC unit 14 according to the bearer channel release request (step 302). The VIC unit 14 then sends an unassigned signal to the AN 12, so that the bearer channel of the V5.2 interface is released (step 303).

Therefore, bearer channel control of the V5.2 interface in the local switching period including the matching network and the main processor existing in the line processor in the local exchange has a total of 16 links with 32 time slots. The bearer channel can be allocated and released by selecting the idle time slot.

As described above, in the present invention described above, up to 512 bearer channels, that is, 16 links are connected between a local exchange and a matching network in a line processor, and 32 time slots are connected to one link. The call can be established while selecting and allocating (or releasing) a time slot for the idle bearer channel.

Claims (2)

In a bearer channel control call processing method of a V (5.2) interface in an exchange having a matching network, a line processor, and a main processor, Generating a subscriber for call processing and transmitting a hook-off signal generated from the generated subscriber to the line processor according to a bearer channel control protocol; Requesting allocation of a bearer channel from the line processor receiving the hook-off signal to the main processor; Selecting and assigning an idle bearer channel according to the bearer allocation request in the main processor, and transmitting the allocated bearer channel information to the line processor; A V (5.2) interface, comprising the step of transmitting the hook-off signal and the digit transmission signal generated from the subscriber to the main processor using the allocated bearer channel to establish a call. Method of processing a bearer channel control protocol. The method of claim 1, wherein the bearer channel control call processing method comprises: Detecting a hook on signal generated from the subscriber; Releasing the set bearer channel according to the detected hook on signal; And transmitting the released bearer channel information to the line processor and blocking the call by transmitting a message indicating that the bearer channel has been released from the line processor to the matching unit. Method of processing bearer channel control protocol of an interface.

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