JPH0372760A - Caller number provision system - Google Patents

Abstract

PURPOSE:To attain dialing by other exchange and a caller number notice service using a caller number table with less storage capacity by providing a caller number to a call in an exchange to which a terminal equipment generating the call is connected. CONSTITUTION:Digital exchanges 11a, 11b have a hierarchy call processing software comprising an extension call processing 16 and a trunk call processing 17, a caller number table 18 in which an extension number of a terminal equipment and a caller number are made correspondent with each other and a trunk group operating state table 19 in which each trunk group and the operating state of the group are made correspondent with each other. Then the provision of the caller number to a call generated from a terminal equipment 12 is implemented in an exchange to which the terminal equipment generating the call when the call generated from the terminal equipment 12 is raised by other exchange via a LAN. Thus, the dialing and the caller number notice service by the other exchange are implemented simultaneously by the caller number table with less storage capacity.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a caller number assignment system applied to a communication system connected to, for example, an 15DN network.

(Prior Art) The transition from analog to digital has affected all fields, including communication networks. Currently, CCITT
The International Telegraph and Telephone Advisory Committee (International Telegraph and Telephone Advisory Committee) is currently considering international standardization of l5DN (IntegratCD 5e).
rvlce (formerly known as gitBI Network; Service Integrated Digital Network) is a specific example.

According to l5DN, communication networks that have traditionally been provided independently for each type of terminal, such as the current telephone network, data communication network, and facsimile network, will be integrated into one network. , more versatile services will be realized.

With the realization of such I5DN, private branch exchanges (Pr.
ivate Branch Exchange) will also naturally require conversion to 15DN.

Various attempts have been made to convert this exchange into an I5DN. One example is one in which the call processing software of an exchange is layered into, for example, extension call processing and trunk call processing.

This layering is adopted for ease of functional expansion and maintenance.

On the other hand, one of the services provided by the 15DN is a caller ID notification service that notifies the called party of the calling party's identification number, that is, the caller number.

FIG. 3 is a diagram showing a communication system for explaining such a caller ID notification service.

In the figure, reference numeral 1 denotes a digital exchange compatible with I5DN, and a plurality of terminals 2 compatible with I5DN are connected to this digital exchange 1. Further, the call processing software of the digital exchange 1 includes an extension call processing 3 and a trunk call processing 4. A caller number table 5 in which a terminal extension number and a caller number are associated is connected to the trunk call processing 4 side in order to realize a caller number notification service.

In such a system, when a call request is received from the terminal 2, a "call setup" message is generated at the terminal 2. This "call setup" message is sent to digital exchange 1.
, is sent to the 15DN network side via the central office line 6. The caller ID is assigned when the “call setup” message is sent to digital exchange 1.
When the call is taken in, the trunk call processing 4 searches the caller number table 5 for the caller number corresponding to the extension number of the terminal and adds this to the "call setup" message.

By the way, as shown in FIG. 3, a LAN (Local Area
Network), each node 8 may be connected to the digital exchange 1 described above. and,
In such a system, when the trunk group of the exchange 1 to which the calling terminal is connected is fully busy, it is possible to make a call using the trunk group of the digital exchange 1 belonging to another node 8.

That is, each digital exchange 1 has a trunk group usage status table 10 in which the trunk groups of each digital exchange 1 and the usage status of the groups are associated with each other, and when a call request is received, all trunk groups of the own digital exchange 1 are used. When a call is busy, the digital exchange 1 that has an empty trunk group is searched for by referring to the trunk group usage status table 10, and the call is made via the LAN via the route of the digital exchange 1 that has this empty trunk group. (See the broken line in Figure 3).

Now, when trying to realize the above-mentioned caller ID service in this case, as shown in FIG. This is done by searching for the caller number corresponding to the extension number and adding f;)Lj to the "call setting" message sent from the LAN.

However, each digital exchange 1 needs to store in the caller number table 5 information not only about the terminals accommodated in its own node but also about terminals accommodated by other nodes. Therefore, there is a problem that the storage capacity of the caller number table 5 becomes enormous. Another problem is that the associated processing becomes complicated.

(Problems to be Solved by the Invention) In a communication system in which a plurality of exchanges accommodating divided trunk groups are connected via a LAN, when the trunk group of the exchange accommodating a calling terminal is all busy, The call can be made by a switch that has other free trunk groups.

However, when trying to implement a caller ID notification service at the same time, a caller number table that associates the extension number of a terminal with a caller number needs to store information about all terminals belonging to this system. Therefore, it has the disadvantage that its storage capacity becomes enormous. Also,
Another drawback is that the associated processing becomes complicated.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to simultaneously realize a call by another exchange and a caller ID notification service using a caller number table with a small storage capacity.

[Structure of the Invention] (Means for Solving the Problems) This invention connects a plurality of exchanges that accommodate divided trunk groups via a LAN, and connects calls generated from terminals connected to a predetermined exchange via the LAN. The problem described above is solved by assigning a caller number to the call within the exchange to which the terminal that originated the call is connected when the call is made by another exchange.

(Function) That is, in this invention, if the caller number for a call is 4=
Since the call is given within the exchange to which the terminal that originated the call is connected, each exchange only needs to have a caller number table that displays only information about terminals belonging to its own exchange. It is from.

(Example) Next, the present invention will be explained in detail.

FIG. 1 is a diagram showing a communication system according to the present invention.

In the figure, 1las 11. b respectively accommodate trunk groups] These digital exchanges are SDN-compatible digital exchanges, and a plurality of I5DN-compatible terminals 12 . . . are connected to each of these digital exchanges 11a111b.

In addition, the digital exchanges 11a and llb are connected to the LAN 13
is housed in. That is, the nodes 14as14b are connected via the transmission line 15, and each digital exchange 11a
, llb are connected to each node 14a114b.

The digital exchanges 11a and llb perform line 1 call processing 1.
6 and trunk call processing 17.
11 software, a caller number table 18 in which terminal extension numbers and caller numbers are associated with each other, and a trunk group usage status table in which each trunk group and the usage status of that group are associated with each other. has.

Next, the call originating operation of the communication system configured as described above will be explained with reference to the flowchart shown in FIG.

First, when a call request is received from the terminal 12 (for example, the terminal shown in curly brackets 12a in FIG. 1), a "call setup" message is generated at the terminal 12a and is taken into the digital exchange 11a.

When the digital exchange 11a receives the "Call Setup" message, the extension Asahikawa 116 first detects the call originating from the terminal (step a).

Next, pull out the caller number corresponding to the extension number of the terminal 1.2a from the caller number table 18, and select "Call Setup".
Add this caller ID to the message (step b)
.

Then, the trunk call processing 17 refers to the trunk group usage state table 19 and determines whether or not there is a vacant trunk group in the local exchange 11a (step C).

Here, as a result of the judgment, if there is a vacant trunk group in the own exchange 11a (step d), the trunk call processing 17 of the own exchange 11a sends a "call setting" message with a calling party number to the central office line 20a. is sent to the 15DN network side via (step e). In other words, in this case, "
The "Call Setup" message passes through the route of terminal 12a→digital exchange 11a→office line 20a-15DN network.

The assignment of the caller number is performed by the digital exchange 11a to which the terminal 12a belongs.

On the other hand, if there is no vacant trunk group in the own exchange 11a (step d), the trunk group usage state table 19 is referred to and a search is made for another exchange that accommodates the same vacant trunk group (step d). f).

Then, the "call setup" message with the caller number is transferred via the LAN 13 to, for example, the digital exchange 11b that has the same empty trunk group (step g), and the call is made via this route. . That is, in this case, the "Call Setup" message is
Terminal 12a-Digital exchange 11a + LAN]
3 → Digital exchange 11b → Office line 20b → l5DN
Go through the route of the net.

Then, if the caller number is 4=1, the digital exchange 1.1. I can do it by a.

Therefore, in the system of this embodiment, a caller ID is attached to a "call setup" message. j, as in step b above, regardless of the subsequent transmission route,
Since this is done by the digital exchange to which the terminal that generated the "call setup" message belongs, the caller ID table held by each digital exchange only has information about the terminals directly connected to each digital exchange (its own node). It will be a good thing. That is, it is no longer necessary to store information on terminals accommodated by other nodes in the caller number table, as in the conventional case.

Thus, in the system of this embodiment, the storage capacity of the caller number table in which the extension number of the terminal and the caller number are associated is much smaller than in the past.
Furthermore, the associated processing is simplified.

[Effects of the Invention] As explained above, according to the present invention, a plurality of exchanges accommodating divided trunk groups are connected via a LAN, and calls generated from terminals connected to a predetermined exchange are routed to the LAN.
When a call is made by another exchange via N, the caller number is assigned to the call within the exchange to which the terminal that originated the call is connected, so each exchange only receives information about the terminals belonging to its own exchange. Therefore, by using a caller number table with a small storage capacity, it is possible to simultaneously realize a call by another exchange and a caller ID notification service.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the configuration of a communication system according to an embodiment of the present invention, FIG. 2 is a flowchart 1 for explaining the calling operation of this system, and FIG. 3 is a diagram showing the configuration of a conventional communication system. FIG. 11a, llb...Digital exchange, 12...Terminal, 13=-LAN, 14a, 14b-
... Node, 15... Transmission path, 16... Extension call processing, 17... Trunk call processing, 18... Caller number table, 19... Trunk group usage status table.

Claims (1)

[Scope of Claims] A plurality of exchanges each separately accommodating trunk groups are connected via a local area network (LAN), and a call originating from a terminal connected to a predetermined exchange is sent to the LA.
In a communication system in which calls can be made by other exchanges via N, a caller number is assigned to the call within an exchange to which a terminal that has generated the call is connected. method.