KR0176390B1 - Data transfer speed varying process between remote exchanger and host exchanger - Google Patents

Abstract

The present invention is to provide a method for variably processing the transmission rate of interprocessor communication (IPC) data during normal communication and loading during a remote switching device and host exchange period, the method according to the present invention is remote switching from the host exchange Allocating channels so that inter-processor communication data can be transmitted at high speed as before when loading a program and data into the device; In the normal communication state between the host switch and the remote switch, allocating the number of channels for inter-processor communication data is lower than for loading and allocating the remaining channels for voice data. Therefore, the number of links installed in the remote switching apparatus and the host switching period can be reduced.

Description

Variable data transfer rate processing method between remote switch and host switch

1 is a block diagram of a system to which the method according to the invention is applied,

2 is a flowchart illustrating a method of processing a variable data transmission rate of a remote switching device and a host communication period according to the present invention.

3 is a configuration diagram of a PCM channel on an E1 link of a remote switching device and a host switching period when performing the method according to the present invention.

* Explanation of symbols for main parts of the drawings

100: host

101: HLIP (HRC amd Link Interface Processor)

102: TCDL (RASM PCM Eentral Data Link) 110: Remote Switching System (RASM)

111: TLDL (RASM PCM Local Data Link) 112: TSW (Time Switch)

113: RASSP Time Switch and Local Service Processor

The present invention relates to a data transmission processing method of a remote switching apparatus and a host switching period. In particular, the present invention relates to a remote switching apparatus connected to an E1 link and an IPC (Inter-Process Communication) data transmission speed of a host switching period. The present invention relates to a variable data rate processing method for enabling a channel to be used.

The remote switching system is installed at a remote location for economical communication service of a small subscriber, and provides a remote subscriber with the same service as a subscriber housed in a home office (or host exchange). It is called a RASM (Remote Access Subscriber Module). This remote switching device is mainly composed of subscriber matching device, relay line matching part, time switch, signaling device, remote network synchronizer device, link matching device, service device and other processor devices, and is connected to the main station through T1 or E1 transmission line. The program and data are loaded from the home country and provided to the subscriber.

Since the reliability of the IPC link in the remote switching device and the host exchange period of the host country is required when the program and data of the remote switching device are loaded from the host exchange, 16 channels are allocated for IPC communication when using the E1 transmission line. I use it.

However, such channel assignment is applied intact under normal communication conditions, resulting in inefficient channel management. That is, in normal communication state, because the IPC communication data does not use all 16 channels, the voice data channel is to use only 14 channels despite the presence of empty channels. You need to increase the number of links.

Therefore, in order to efficiently operate the remote switching device and the channel used during the host switching period, the present invention provides a method for controlling the IPC data transmission rate so that the IPC communication channel is variably allocated during loading and normal communication. Its purpose is to provide a variable data rate processing method.

In order to achieve the above object, the method of the present invention provides a variable data transfer rate processing method for a remote switching device and a host switching period, wherein an interprocessor communication (IPC) is performed when loading a program and data from the host switching device to the remote switching device. Allocating a channel to achieve high speed; In a normal communication state between the host switch and the remote switch, allocating fewer channels for communication between processors than for loading and allocating the remaining channels for the voice data except for the signaling channel.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a remote switching device and a host switching period to which the method according to the present invention is applied, wherein the host switch 100 is a HLIP for a Highway Rate Conversion (HRC) and a link interface. Subscriber information data and processor from TLDL (hereinafter referred to as RASDL PCM Local Data Link (111), TLDL) in HRC and Link Interface Processor (101) and HLIP (hereinafter referred to as HLIP). Receive inter-process communication (hereinafter referred to as IPC) message data, frame information and maintenance data, and multiplex subscriber information data, IPC message data, frame information and maintenance data to the TLDL 111 described above. In this case, the TCDL (RASM PCM Central Data Link (102), which provides up to 480 channels of links and has basic functions for linking and testing and maintenance for maintenance and management, (Hereinafter referred to as TCDL), the remote switching device 110 is a TLDL (111), time switch (TSW, 112), time switch and local service for data transmission and reception with the above-described TCDL (102) It is configured to include a processor TLSP (RASM Time Switch and Local Service Processor 113, TLSP hereinafter).

2 is a flowchart illustrating a data transmission rate variable processing method between the remote switch 110 and the host switch 100 according to the present invention.

3 is a configuration diagram of the PCM channel of the E1 link between the remote switching unit 110 and the host exchange 100 when performing the method according to the present invention, (A) is a configuration diagram of the PCM channel when loading the program and data, (B ) Is the configuration of PCM channel during normal communication.

The operation of the embodiment according to the present invention will now be described.

First, the present embodiment will be described by taking the case where the host switch 100 and the remote switch 110 are connected via an E1 transmission path. If the transmission path between the host 100 and the remote switching apparatus 110 is not E1 described above, the channel condition may be changed, but the data transmission rate may be sufficiently varied by the method proposed by the present invention.

When data is received from the HLIP 101 in step 201, the TCDL 102 proceeds to step 202 to analyze the type of the received data. That is, it is analyzed whether data to be transmitted currently is data to be transmitted during loading or normal communication.

As a result of the analysis, in the case of loading data, the process proceeds from step 203 to step 204 to allocate the IPC channel to 1Mbps so that 16 channels are allocated to the communication channel as shown in (A) of FIG. Assign a channel as a channel for voice data. In the channel structure of FIG. 3, the signal 1CH is allocated for inter-station signaling and is provided as an empty channel.

After channel assignment is made in this manner, the TCDL 102 proceeds to step 205 to perform a matching function with the TLDL 111 in the remote switching apparatus 110. That is, the link matching process between the TLDL 111 and the TCDL 102 is performed, and then the channel allocation process is terminated.

In this way, after the high-speed transmission of the loading data is made by allocating a channel, when the communication state is normal, the HLIP 101 outputs data indicating that the communication state is normal.

When data is received from the HLIP 101, the TCDL 102 proceeds to step 202 and analyzes the type of data received through step 201 as described above. As a result of the analysis, if it is determined that the data is for normal communication, the process proceeds from step 203 to step 206 so that the IPC channel is allocated to 256 Kbps as shown in (B) of FIG. 3 so that only four channels are used for IPC communication. And allocate the channel to use the remaining 12 and 14 channels for voice data. At this time, the transmission rate for IPC data may be allocated to 512 Kbps so that eight channels may be used for IPC communication.

If such channel assignment is made, the process proceeds to step 205, performs a matching function with the TLDL 111 as described above, and then ends the channel assignment. In this normal communication, by assigning many channels for voice data, the number of links can be relatively reduced.

As described above, the present invention uses the voice data in the normal communication state by variably controlling the transmission speed of the IPC data so that the IPC communication channel is variably allocated during the data loading and normal communication of the remote switching apparatus and the host exchange period. As the number of channels allocated to the network is increased, the number of links between the remote switching device and the host switching period is reduced.

Claims (3)

In the variable data transfer rate processing method between the remote switch 110 and the host switch 100, when the program and data are loaded from the host switch 100 to the remote switch 110, inter-processor communication (IPC) is high speed. Allocating a channel to be made; When the host exchanger 100 and the remote switching device 100 is in a normal communication state, allocating the communication channel between the processors to a smaller number than the loading time and all other channels except for the signal channel for voice data. The data exchange rate variable processing method of the remote switching apparatus and the host exchange period characterized in that it is performed. The method of claim 1, wherein the data transfer rate variable processing method of the remote communication device and the host exchange period comprises: allocating the interprocessor communication channel at 1 Mbps during the loading, and the interprocessor communication channel at 256 Kbps during the static communication. And a data transfer rate variable processing method for a remote switching device and a host switching period. The method of claim 1, wherein the data transfer rate variable processing method of the remote switching apparatus and the host switching period comprises: allocating the interprocessor communication channel at 1 Mbps during the loading, and assigning the channel for interprocessor communication at 512 Kbps during the normal communication. And a data transfer rate variable processing method of a remote switching device and a host switching period.