JPH0226830B2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to a sound source connection device.

FIG. 1 shows an example of how to connect sound sources for sending out tones (sound sources; the same applies hereinafter) in time-division exchange. The terminals 1, 1' are connected to the sound source 3 via one link in the distribution stage (time division switch) 2. Figure 1a shows a method in which a terminal is connected to one predetermined link.
A plurality of terminals 1, 1' are connected to the link 7. FIG. 1b shows a method in which a separate link is selected for each terminal. The tones in the scheme of FIG. 1a are pre-assigned links, and link blocking cannot occur. However, since the assigned link cannot be used for general calls, the number of tones that can be used in the method shown in FIG. 1a is limited to frequently occurring tones such as DT, BT, and RBT. On the other hand, the method shown in Figure 1b has been used for other tones, but this method requires a link for each call, and if multiple terminals request a tone, the link will be used accordingly. rate becomes higher. Further, a storage area for storing link information is required for handling calls, and a large storage area is required. Furthermore, the process of selecting a link is necessary for handling a call, which has the disadvantage of placing a large load on the exchange.

An object of the present invention is to provide a sound source connection device that reduces link utilization, saves storage space, and reduces load.

The gist of the present invention is that even for tones of the connection method shown in FIG. 1b, a new link is not selected for each call, and the connection is made in the same way as the connection method shown in FIG. 1a. As a result, the link utilization rate will be reduced. In other words, when connecting tones using the method shown in Figure 1b, if there is a terminal that has already received the same tone, the tone can be transmitted using the already connected link without selecting a new link. Connecting. When no more subscribers are receiving this tone, the link is released. Hereinafter, the present invention will be explained in detail with reference to the drawings.

FIG. 2 is a diagram showing an embodiment of the present invention. This embodiment consists of a communication path system 1, a central processing system 2, and subscribers 3.
The communication path system 1 includes a communication path network 4, a trunk 5, a sound source 6,
It consists of a communication path control device 10. The communication path network 4 consists of switches 7 and 9 and links 8. The central processing system 2 includes a central processing unit 11 and a storage device 12. The communication path control device 10 drives and controls the communication path network 4. The central processing unit 11 communicates information with the communication path control device 10. Furthermore, the central processing unit 11 writes and reads data to and from the storage device 12 . This data includes program data and data necessary for exchange processing. This latter data includes position information of the switches 7 and 9, information regarding switch control, and the like. Furthermore, the storage device 12 dynamically stores link information and the number of tone receiving terminals, which are data that play an important role in this embodiment. The data format of the link information differs depending on the switch configuration, but in this example, the data format of the fifth
Create a data format as shown in the figure. In the figure, 1 word is 16 bits, TS is the time slot number, SHW ₁ is the terminal side SHW number, SHW ₂ is the tone side SHW number, SJHW ₁ is the upstream SJHW number,
SJHW ₂ is the downlink SJHW number. Note that a hardware register may be used instead of the storage device 12. This is effective in cases where there are a maximum of 16 tone types.

Explain the operation. FIG. 3 shows the timing relationship of call and link states. In FIG. 3, it is assumed that a call occurs at a time, a call occurs at a time, and a call occurs at a time. First, when switches 7 and 9 are turned on due to a call and link 8 is selected, this link information and the number of terminals receiving that tone are stored in a specific area of storage device 12 under the direction of central processing unit 11. is stored in On this occasion,
The tone information has the data format shown in FIG. 5, and exists for each tone type. At the time of the call, the number of terminals is set to "1". Next, for a call that occurs at that time, the same link as the call is used based on the already stored link information. Also, “1” is added to the number of terminals using the tone.
Add. Since "1" has already been set by the call, the number of terminals using the tone becomes "2" by adding "1". The reason for adding “1” is
By displaying (storing) the number of terminals using the tone, it is possible to know the number of terminals using the tone, and when it is "0", it is possible to know that the tone is in a released state.

Now, at the time, since the call ends, the number of terminals receiving the tone is subtracted by "1", and since the result is not "0", the link is not released. At that time, the call is terminated, and the number of terminals receiving the tone is thereby subtracted by "1".
The result of this subtraction is that the number of terminals receiving the tone is "0" and therefore the link is released. This link release is performed by instructions from the communication path control device 10 based on instructions from the central processing unit 11. In reception, if a call requesting the tone occurs again, "1" is added as the number of terminals for the tone. Since the original value is "0", the result becomes "1" by adding "1". Further, link selection processing is performed, and link 8 becomes in use. At the time, "1" is subtracted from the number of tone terminals "1" and becomes "0", and the link is in a released state. still,
In FIG. 3, the hatched area represents the state of use of the link, a white triangle indicates a link selection process, and a black triangle indicates a link release process.

FIG. 4 is a comparative diagram of the conventional example and this embodiment. The relationship between calls A, B, and C is the same as in Figure 3,
Method 1() is the method shown in FIG. 1a, and method 2() is the method shown in FIG. 1b. In method 1 of FIG. 1a, only one link is required, but it is always in use. In method 2 of FIG. 1b, a plurality of links are required, and a link selection process is required for each of calls A, B, and C. However, in the method of the present embodiment (), only one link is required, and there is no need for link selection processing while the tone continues. Furthermore, in the method of this embodiment, one common area for storing link information is provided, and link information is always obtained from there. The method shown in FIG. 1b requires an area corresponding to the maximum number of connections, but this results in a significant area savings.

According to the present invention, it is possible to reduce link utilization, save storage space, and reduce load. Specifically, in the system shown in FIG. 1b, the number of links is required for each subscriber who is simultaneously connected, but in the present invention, only one link is required, and the link usage rate is significantly reduced. Further, in FIG. 1b, the area for storing link information is required for the maximum number of simultaneous connections, but in the method according to the present invention, only the number of tones is required. When there are successive calls requesting the same tone as shown in FIG. 3, link selection processing becomes unnecessary and the load can be reduced. That is, the effect is particularly large during congestion.

[Brief explanation of drawings]

Figures 1a and b are explanatory diagrams of the conventional system, Figure 2 is an embodiment of the present invention, Figure 3 is a time chart, and Figure 4 is an explanatory diagram of the conventional system.
The figure is a time chart for comparison between the conventional example and this embodiment, and FIG. 5 is an example of a data format in the embodiment of the present invention. 1...Communication path system, 2...Central processing system, 3...Subscriber,
4... Channel device, 7, 9... Switch, 8... Link, 5... Trunk, 6... Sound source, 10... Channel control device, 11... Central processing unit, 12... Storage device.

Claims (1)

[Scope of Claims] 1. A sound source connection device for an automatic exchange equipped with a time division switch capable of multiplex distribution, comprising means for capturing and connecting a link between a sound source and a terminal requesting connection to the sound source; means for storing link information and the number of receiving terminals connected to the link; and when the number of receiving terminals is not zero, using the link already captured by the link information in response to a new sound source connection request; A sound source connection device comprising: means for distributing sound sources in multiplex; and means for cutting and releasing a link being captured when the number of receiving terminals becomes zero.