KR100416807B1 - Method for Gateway Calling Connection of Gate-keeper - Google Patents

Abstract

The present invention relates to a gateway call connection method of a gatekeeper, and more particularly, a channel count of each gateway as an attribute value in a gateway table, and when there is a call connection, a free connection is possible through a channel count value of each gateway. The present invention relates to a gateway call connection method of a gatekeeper which determines a gateway to perform a call connection through obtaining a channel count value and then obtaining the free channel count value.

According to the present invention, when the gateway call is connected to the gatekeeper, the gateway is connected to the gateway in the order in which the channels are free. Therefore, the call connection is prevented from being concentrated to the gateway located above the gateway table, and the call is transmitted to each gateway. The advantage is that the connections can be evenly distributed.

Description

Gateway Keeper Connection Method for Gatekeeper {Method for Gateway Calling Connection of Gate-keeper}

According to the present invention, when a gateway call of a gate-keeper is connected, the gateway calls are made in the order of a large number of channels, so that the call connection is prevented from being concentrated to the gateway located above the gateway table. The present invention relates to a gateway call connection method of a gatekeeper that can distribute call connections evenly to each gateway.

In general, the gatekeeper is one of H.323 entries, which is a multimedia protocol defined by the International Telecommunications Union-Telecommunication Standardization Sector (ITU-T), as shown in FIG. The H.323 end points existing in the network, such as the gateway 40, the terminal 50, and the main control unit 20 (MCU), are grouped into a single control area. Means a unit that performs control, management and integration functions.

In general, when the gatekeeper 10 performs routing, the gatekeeper 10 may refer to ID names or preset prefixes of endpoints, such as the terminal 50 and the gateway 40 registered with the gatekeeper 10. do.

In particular, when performing a call connection to a gateway 40 registered to the destination, a plurality of gateways 40 registered to the group are grouped by prefix, and then the corresponding group is extracted and extracted with reference to the prefix. Each gateway in the group is searched sequentially to find a gateway that can use the channel, and then connect the call.

FIG. 2 is an exemplary view showing a routing table for the call connection of the gateway 40 of the conventional gatekeeper 10, FIG. 3 is an exemplary view showing the gateway table for the group number 1 of FIG. 2, and FIG. 2 is a flowchart illustrating a method for connecting a gateway 40 to the gatekeeper 10 of the gatekeeper 10.

As shown in Fig. 2, the routing table 100 is composed of an index 101, a prefix 102, and a group number 103, with a telephone number 02-***-**** requesting a call connection. If so, the gatekeeper 10 finds a gateway group of group number 1 corresponding to the prefix '02' (if the requested telephone number is 031-***-****, the gatekeeper 10 prefixes the prefix). (Step S1), the gateways in the group number 1 shown in FIG. 3 are sequentially searched from the gateway table 200, and the gateway status is 'Idle'. That is, after finding a gateway that can use a channel (step: S2), the call is connected (step: S3).

Therefore, the requested call will be connected to the gateway whose gateway IP is '1.1.1.1'.

However, according to the conventional call connection method, as described above, the gateway that can sequentially use the channel is found from the first line of the gateway table 200 of the corresponding group for the call connection. The problem arises that the call can be driven.

The present invention has been made to solve the above problems, and provides a gateway call connection method of a gatekeeper to prevent the centralized connection of the call connection to the gateway located on the gateway table when the gatekeeper accesses the gateway call. There is a purpose.

1 is a block diagram showing a communication network configuration to which a gatekeeper is applied;

2 is an exemplary diagram illustrating a routing table for a gateway call connection of a conventional gatekeeper;

FIG. 3 is an exemplary diagram illustrating a gateway table for group number 1 of FIG. 2.

4 is a flowchart illustrating a conventional gateway call connection method of a gatekeeper;

5 is a flowchart illustrating a gateway call connection method of a gatekeeper according to an exemplary embodiment of the present invention.

6 is an exemplary diagram illustrating a gateway table having such a channel count value as an attribute value.

In order to achieve the above object, the present invention uses a gatekeeper which interworks with a plurality of gateways through a communication network protocol such as H.323 and controls and manages their call connection. Counting the number of channels that are present and recording the channel count value as an attribute value in the gateway table; finding a gateway table of the corresponding gateway group by referring to the prefix value of the requested call when a new call connection is requested; Search the gateways in order to find the accessible gateway, and if the accessible gateway is found, obtain the free channel count value indicating the accessible channel using the channel count value of the found gateway, and then repeat the above process with the next channel. Wow, It made a free channel counting step, and a channel count value of the gateway the call connection after the call connection phase consisting of the value of connecting the requested call by detecting the highest gateway Jin obtained through the clothing step by step to one increases.

In this case, the free panel count value is determined by subtracting the channel count value of each gateway from the total number of channels allocated to each gateway.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

In addition, it should be noted that the same reference numerals are given to the same components, although belonging to different drawings for convenience of understanding.

5 is a flowchart illustrating a gateway call connection method of a gatekeeper according to an exemplary embodiment of the present invention.

In order to realize a gateway call connection method of a gatekeeper according to a preferred embodiment of the present invention, the gatekeeper first checks the channel state of each gateway belonging to each gateway group every time there is a call connection and counts the connected channels. Is recorded in the gateway table (step: S10).

6 is an exemplary diagram showing a gateway table having such a channel count value as an attribute value. According to the gateway table 400, since the first (index value 1) gateway has a channel count of 2, the gateway state is 'Idle'. The second (index value 2) gateway has a channel count of 32, so the gateway status is 'Busy', indicating that the channel cannot afford to open. The tenth (index value 10) gateway has a channel count of 0, indicating that the gateway status is 'Idle'. Can be.

In this state, when the channel count value of each gateway is recorded in the gateway table, when a new call is requested, the gatekeeper finds the corresponding gateway group by referring to the prefix value of the requested call (S11).

If the telephone number of the requested call is '02-***-**** ', the gatekeeper finds the gateway group having the group number 1 of FIG. 3 having the prefix value' 02 '.

Subsequently, the gatekeeper searches the gateway table of the found group from the top in order (step S12), and if a gateway with status 'Idle' is found (step S13), the channel of the gateway is found. After the free channel count value is obtained through the count value (step: S14), it is repeatedly performed until the index of the gateway table 400 ends (step: S15).

In this case, the free channel count value is obtained by subtracting the channel count value from the total channel value assigned to each gateway. If 32 channels are allocated to each gateway, the first gateway has a channel count value of 2, and thus the free channel count value is 30. The second gateway has a channel count value of 32, so the free channel count value is 0. The tenth gateway has a channel count value of 0, so the free channel count value is 30.

Of course, in this case, since the second gateway has a status of 'Busy', the channel count value is not calculated.

When the free channel counts of all 'Idle' gateways of the gateway table are obtained, the gatekeeper selects the gateway having the highest free channel count value and connects the requested call (step S16).

As a result, since the free channel count value of the first gateway having the gateway state 'Idle' is 30 and the free channel count value of the tenth gateway is 32, the tenth gateway having the high free channel count value, that is, the gateway IP is '1.1'. The call connection is made to the gateway of .2.2 '.

If the conventional call connection method is used, the call connection is made to the first gateway because the gateway is searched for gateways that are 'Idle' in order from the top of the gateway table. Thus, the first gateway may have concentrated the call connection. will be.

However, as described above, according to the preferred embodiment of the present invention, since the call connection is made to the tenth gateway with sufficient channel space for performing the call connection, the call connection is evenly distributed to each gateway.

On the other hand, when the call connection is made, the channel count value of the tenth gateway is changed to 1 and the free channel count value is changed to 31, which is referred to at the next requested call connection (step S17).

Although the preferred embodiments of the present invention have been described in detail above, those skilled in the art will appreciate that the present invention may be modified without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made.

In particular, the algorithm for finding the gateway with the most channels through the free channel count value and the free channel count value indicating the channel margin in each gateway can be variously changed according to the above-described embodiment.

Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

As described above, according to the present invention, when a gateway call is connected to a gatekeeper, the gateway is connected to the gateway in the order in which the channels are free, rather than sequentially looking for a channel to be accessible from the top of the gateway table. do.

Therefore, there is an advantage that the call connection is prevented from being concentrated to the gateway located above the gateway table, and the call connection is evenly distributed to each gateway.

Claims (4)

By using a gatekeeper interlocked with a plurality of gateways through a communication network protocol to control and manage call connection of the plurality of gateways, Counting the number of channels already connected among the channels allocated to the gateways and recording the channel count values as attribute values in the gateway table; If a new call connection is requested, finding a gateway table of the corresponding gateway group by referring to the prefix value of the requested call; Search the gateways in the gateway table one by one to find an accessible gateway, and if an accessible gateway is found, obtain a free channel count value representing the accessible channel by using the channel count value of the found gateway, and then go to the next channel. Repeating the above process; And detecting the gateway having the highest free channel count value obtained through the repetition step, and connecting the requested call. 2. The method of claim 1, further comprising, after the call connection step, increasing the channel count value of the gateway to which the call is connected. The method of claim 1, wherein the free panel count value is a value obtained by subtracting a channel count value of each gateway from a total number of channels allocated to each gateway. The method of claim 1, wherein the communication network protocol is an H.323 protocol.