KR100640511B1 - Method for assigning channel of space switch of pcm remote access switching module - Google Patents

Abstract

A space switch channel allocation method of a pulse code modulation remote access switch module, the method comprising: determining whether an originating party and a called party group overlap each other; and a small copy rate when the originating party and the destination party group do not overlap each other. Based on the remote access switch module, the process of obtaining channels in the sub-highway actually connected to the group, calculating and allocating channels on the same location of the other groups, and connecting the space switch between the caller and the caller Thus, the efficiency of the switch channel is increased.

RASM, HRC, Space Switch, Channel Assignment

Description

Space code channel allocation method of pulse code modulation remote access switch module {METHOD FOR ASSIGNING CHANNEL OF SPACE SWITCH OF PCM REMOTE ACCESS SWITCHING MODULE}             

1 is a view showing a space switch connection state of the remote access switch module of the conventional exchange system

Figure 2 is a view showing a space switch connection state of the remote access switch module of the switching system according to an embodiment of the present invention

3 is a flowchart illustrating a space switch connection process of a connection connection switch module of an exchange system according to an exemplary embodiment of the present invention.

4 is a view showing a one-way occurrence state due to a channel allocation error during space switch connection of a connection switch module of an exchange system according to an embodiment of the present invention;

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switching system, and more particularly to a method for allocating a channel in matching a minority link of a remote access switching module (RASM).

In general, a switching system refers to a system that performs call processing of a plurality of subscribers. When there are a few subscribers in a remote place, for example, in a city, RASM is installed in the area to perform call processing. In this case, the RASM includes a local trunk interface to perform call processing by performing data communication through a link such as an optical fiber or a general cable with the switching system, that is, the main office switch.

However, in a RASM call processing in an exchange system, an HRC mirror copy used to reduce an increase in blocking probability and a decrease in call completion rate for a channel that may occur when matching fewer E1 links between a host and a RASM is recommended. mirror copy) function.

1 is a view showing a space switch connection state of the remote access switch module of the conventional exchange system. Mirror copying is based on the Tx direction only, not the Rx direction. Therefore, when selecting a channel, consideration should be given to the configuration of calls between host and host, between host and RASM, between RASM and host, and between RASM and RASM. Table 1 shows cg_ch and cd_ch allocation method states for each call configuration. cg_ch means a calling channel and cd_ch means a called channel.

Host↔host Host↔RASM RASM↔Host RASM↔RASM Search_ch (cg_ch) Search_ch (cg_ch) Search_ch (cd_ch) Search_ch (cg_ch) cd_ch = cg_ch or Search_ch (cd_ch) cd_ch = cg_ch cg_ch = cd_ch cd_ch = cg_ch or Search_ch (cd_ch)

First, in case of connection between host and host, after obtaining cg_ch, cd_ch is equal to cg_ch when originating and receiving subscribers are different ASS, and cd_ch is obtained again when originating and receiving subscribers are the same ASS. Then, between the host and the RASM, and between the RASM and the host, the channel is obtained based on the implementation of the RASM subhighway, and the remaining channels are equalized. In the case of connection between RASMs, after obtaining cg_ch based on the incoming RASM sub-highway implementation, if there is a part where the origin and destination groups overlap, select cd_ch as the same channel as the previously obtained cg_ch, and the overlapping part If not, the channel is idle again in the corresponding group based on the calling party, and cd_ch is obtained.

As described above, the conventional HRC mirror copy function is implemented to allocate two space switch channels when the HRC groups do not overlap each other, thereby reducing the efficiency of the switch channel.

That is, in the conventional channel allocation method, when the corresponding groups on the calling and destination sides overlap each other or when the host and the RASM call, the space switch is connected by selecting cg_ch and cd_ch in the same way. If there is no overlap with each other, the channel should be selected as the cg_ch by the channel based on the incoming call and the cd_ch should be selected as the channel within the group based on the outgoing call. This is because one channel (Tx direction) is selected and the state of the channel and other channels in the same position of each group is busy and another channel among the remaining idle channels (Rx direction) is selected. to be.

Accordingly, an object of the present invention is to provide a space switch channel allocation method of a pulse code modulation remote access switch module that increases the efficiency of a switch channel.

In order to achieve the above object, the present invention provides a method for allocating a space switch channel of a pulse code modulation remote access switch module, the method comprising: determining whether a foot and a called party group overlap each other, and the foot and the called party group overlap each other. If there is no part, the process of obtaining a channel in the sub-highway physically connected to the group based on the remote access switch module having a small copy rate, calculating and assigning a channel in the same position of the other groups, It is characterized by having a process of connecting a space switch between incoming and outgoing calls.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, specific details such as specific components are shown, which are provided to help a more general understanding of the present invention, and it is understood that these specific details may be changed or changed within the scope of the present invention. It is self-evident to those of ordinary knowledge in Esau.

The present invention allocates cg_ch and cd_ch in the same manner as before, if there is a portion where the incoming and outgoing groups overlap each other. In other words, the channel in the sub-highway physically connected to the HRC group is obtained based on a RASM having a small copy rate during call and incoming (referred to as a RASM having a 1: 1 copy rate for a host for convenience). After that, cg_ch and cd_ch are allocated equally.

If the origin and destination groups do not overlap each other, the sub-highway channel is actually calculated in the corresponding HRC group based on the RASM with a small copy rate, and then the channel on the same location of the other groups is calculated and allocated. Once the channel is assigned, connect the space switch between the calling party and the called party.

Accordingly, since two channels are actually different but state management is performed by HRC mirror copying, efficiency can be doubled as compared to when a channel is doubled by a conventional channel allocation method. Hereinafter, with reference to the accompanying drawings will be described in more detail.

2 is a view showing a space switch connection state of the remote access switch module of the switching system according to an embodiment of the present invention, Figure 3 is a space switch connection of the connection connection switch module of the switching system according to an embodiment of the present invention 4 is a flowchart illustrating a process and FIG. 4 is a diagram illustrating a one-way generation state due to a channel allocation error during a space switch connection of a connection connection switch module of an exchange system according to an exemplary embodiment of the present invention.

In selecting a switch channel in a conventional manner, the double selection of the channel can bring inefficiency of the switch channel. In the present invention, one channel is selected and a channel in another group at the position is selected. Proposes to catch one channel in. 3 is a schematic of the algorithm.

First, referring to FIG. 3, first, in step 300, it is determined whether the caller and the called party group overlap each other. If there is an overlapping part, the process proceeds to step 301 and allocates cg_ch and cd_ch as in the conventional method. That is, in steps 303 and 304, the sub-highway channel is physically connected in the corresponding HRC group based on the RASM having a small copy rate during call and incoming, and then in step 307 and 308, cg_ch and cd_ch are equally allocated.

On the other hand, if there is no part overlapping the foot and the called party group in step 300, and then proceeds to step 302, the sub-highway actually connected in the corresponding HRC group in step 305, 306 based on the RASM with a small copy rate After obtaining the channel within, steps 309 and 310 calculate and allocate a channel on the same position of the other groups. After channel assignment is performed as in steps 307, 308, 309, and 310, the space switch between the caller and the receiver is connected in step 311.

2 and 4 are to show which of the originating and receiving RASM RASM group basis to allocate the channel first. The configuration of a call between an outgoing RASM 200, 400 using group 2 with a 4: 1 copy rate and an incoming RASM 220, 420 using a group 0 with a 2: 1 copy rate is shown as an example.

In this case, since the corresponding groups of originating and terminating RASMs do not overlap each other, cg_ch and cd_ch should be allocated in the Tx and Rx directions in each RASM. In the case of FIG. 2, a channel is first allocated based on a RASM having a smaller copy rate. First, the idle channel is searched in the corresponding group of the originating RASM, and cd_ch is assigned. The channel number where cd_ch is located in the corresponding group of the terminating RASM is obtained, and the channel is assigned to cg_ch. In fact, the two channels are different channels, but because they are equally managed by HRC mirror copying, the efficiency can be improved as compared to when a channel is doubled by a conventional channel allocation method.

On the other hand, Figure 4 is a case of first assigning a channel based on the incoming RASM having a larger copy rate. In this way, if cg_ch is determined first based on the incoming RASM with a larger copy rate, and the location of the channel is found in the originating RASM and cd_ch, PCM data is correctly delivered to cg_ch, but the sub highway is actually connected to the originating RASM assigned to cd_ch. Since the PCM data is not delivered to the subscriber, the one-way phenomenon may occur. That is, the channel can be allocated so that PCM data of each group that is identically copied in the corresponding group of the RASM having a large copy rate is not transmitted to a group of the RASM having a small copy rate.

Therefore, as shown in FIG. 3, channels (cg_ch, cd_ch) in sub-highways actually connected to the HRC group based on the RASM having a small copy rate are obtained, and then channels in the same position of the group within the RASM having a large copy rate are obtained. Calculate and allocate the remaining channels (cd_ch, cg_ch).

With the above configuration, the space switch channel allocation of the pulse code modulation remote access switch module according to the features of the present invention can be made.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but by the equivalents of the claims and claims.

As described above, in the RASM call processing, the present invention provides an HRC mirror copy which is used to increase the blocking probability and decrease the call completion rate for a channel that may occur when matching a smaller number of E1 links between the host and the RASM. The function improves the space switch channel assignment. In other words, focusing on the fact that each group is managed in the same state by HRC mirror copying, even when there is no overlapping part between the originating and receiving HRC groups, the space switch channel is allocated to one, so that the existing channel allocation method is used. This improves the efficiency of using the switch compared to catching a channel.

Claims (3)

In the space switch channel allocation method of the pulse code modulation remote access switch module, Determining whether the feet and the called party groups overlap each other; If there is no part where the originating party and the called party group overlap each other, obtaining a channel in a subhighway that is actually physically connected to the group based on a remote access switch module having a small copy rate; Calculating and assigning channels on the same location of the other groups; A method for allocating a space switch channel, comprising: connecting a space switch between a caller and a caller. The method of claim 1, wherein when there is a part where the caller and the called party group overlap each other, a process of obtaining a sub-highway channel that is actually physically connected to the caller based on the remote access switch module having a small copy rate; A method for allocating a space switch channel, the method comprising allocating channels identically. The method of claim 1, wherein if the group on the called and called party is a host, And the remote access switch module has a 1: 1 copy rate.

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