JPS6243580B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a conference-type communication processing system, particularly a communication system using a loop transmission system in which a plurality of loop transmission units are connected via a loop transmission path, in which a communication processing system that circulates on a loop transmission path is used. At least one channel in the frame information, e.g.
Provide an attenuator that attenuates channel data, for example, each time the frame information circulates once,
The present invention relates to a conference-type communication processing method that allows conference-type communication between three or more parties by using a single channel.

Recently, with the digitization of voice and the introduction of storage program control devices, a loop transmission method has been developed that integrates communication functions such as telephones with functions such as simple image communication and data communication, and has improved the sophistication of services. A communication system is being developed. As described later with reference to FIG. 1, such a system has a plurality of loop transmission lines having, for example, a counterclockwise circulation route and a clockwise circulation route, and connects a plurality of loop transmission units. It will be done like this. Then, communication can be performed between each loop transmission unit using any one of the loop transmission paths as a main transmission path. That is, the frame information is circulated on the main transmission path, and the loop transmission unit on the originating side sends out data using, for example, the P-th channel in the frame information, and the P-th
The data on the channel is received by the receiving loop transmission unit.

In a communication system using such a loop transmission method, in the case of two-party communication, the loop transmission unit on the receiving side only needs to make the received P-th channel an empty channel, and the control is relatively simple. However, in the above communication system, when attempting to perform conference-style communication between three or more parties, even if the loop transmission unit itself is the receiving side, even after receiving the data of the P channel, the downstream side It is necessary to transmit the data of the P-th channel to the loop transmission unit. For this purpose, if only a single channel, for example the P-th channel, is used, the P-th
Past data may be accumulated on the channel.

To solve this problem, if frame information takes, for example, 2.5 ms to make one round, the P channel data sent downstream is delayed by 2.5 ms at one point on the loop transmission path. It is considered that the data is retained and subtracted from the data of the P-th channel in the frame information that has been passed once. That is, it is considered that the previous data is deleted every round. However, it is necessary to retain the data sent to the downstream side, and in reality, it is desirable to have a simpler configuration for conference-style communication.

The purpose of the present invention is to solve the above-mentioned problems, and the conference-type communication processing method of the present invention includes a plurality of loop transmission units, and each of the loop transmission units is connected in a loop shape via a loop transmission path. In a communication system using a loop transmission method, at least one of the loop transmission units or a master station device existing on the loop transmission path transmits at least one N-th frame of information circulating on the loop transmission path. The loop transmission unit includes an attenuator that attenuates the data of the channel, and a receiver that receives the data transmitted through the N-th channel, and a receiver that receives the data transmitted through the N-th channel. It is characterized by having a data synthesis section that adds the data generated within itself and sends it out as new N-th channel data onto the loop transmission path. This will be explained below with reference to the drawings.

FIG. 1 shows the configuration of an embodiment of a communication system to which the present invention is applied, FIG. 2 shows the configuration of an embodiment of the present invention, and FIG. 3 shows the configuration of an embodiment of the data synthesis adder shown in FIG. show.

In FIG. 1, 1 is a master station device that provides frames circulating on a loop transmission path, 2-0 to 2-3 are loop transmission units, 3-0 is a loop transmission path, and 3-1 is a Spare loop transmission line, 4 is maintenance control adapter, 5-1
5 to 5-3 are external line adapters, 6-1 to 6-9 are key telephone adapters, and 7
-1 and 7-2 are data terminal adapters, 8 is a host CPU adapter, KT is a key telephone adapter,
DT represents a data terminal, and HC represents a host CPU.

In a normal state, frame information is circulated on the loop transmission path 3-0, and the channels in the frame information are connected, for example, from loop transmission unit 2-0 to 2-
After writing the address information for the 2nd address, etc., send it with the necessary data. Then, the loop transmission unit 2-2 receives the data on the channel based on the fact that the transmission is addressed to itself, and also writes the fact that it has been received, for example, in the channel of the frame information and sends it to the downstream side.

As mentioned above, data transmission is performed by circulating frame information. For example, one key telephone KT existing in loop transmission unit 2-1 and one key telephone KT existing in loop transmission unit 2-1
-1 key telephone KT existing in 2,
When a three-way conference call is to be held with one key telephone KT present in the loop transmission unit 2-3, the problem described at the beginning of this specification arises.

In order to easily solve this problem, in the case of the present invention, as shown in the configuration of an embodiment in FIG.
An attenuator is used to attenuate channel data, for example, every round of frame information, and conference-type communication is performed using only a single channel as follows. In the case of the present invention, the Nth
It takes, for example, 10ms for the data carried on the channel to become an echo and interfere with the human ear.
Assuming that it takes approximately 2.5 ms for the frame information to complete one round, and that the attenuation amount of the above attenuator is -30%, the received information will be received with a time difference of approximately 10 ms. This can be thought of as taking advantage of the fact that the frame information has circulated four times and the original signal has been attenuated to about 24%.

In FIG. 2, 2-0 to 2-3 and 3-0 respectively correspond to those in FIG. 1, 9-1 to 9-3 are key telephone transmitters, and 10
-1 to 10-3 are key telephone handsets, and 11-1 to 11-3 are analog telephone receivers.
Digital converters 12-1 to 12-3 are digital-to-analog converters 13-1 to 13, respectively.
-3 represents an adder, and 14 represents frame information. Further, N represents the Nth channel.
In the case shown in FIG. 2, the analog-to-digital converter 11-i and the adder 13-i correspond to the data synthesis section according to the present invention, and the illustrated digital-to-analog converter 12-i corresponds to the present invention. It corresponds to the composite data receiving section. Furthermore, in the illustrated case, the loop transmission unit 2-0 may be considered to have an attenuator LOSS.

In the case of a three-party call using the Nth channel, the following procedure is performed. That is, each loop transmission unit 2-
Each transmitter 9-1, 9 in 1, 2-2, 2-3
The analog signals from -2 and 9-3 are sent to converter 1, respectively.
1-1, 11-2, and 11-3, it is converted into a digital signal. Then, adders 13-1, 13-2, and 13-3 each add data of the Nth channel transmitted from the upstream side of the frame information 14 circulating on the loop transmission path 3-0. The converted digital signals are added, and the added result is sent downstream as new N-th channel data.

Needless to say, when communication is performed using one channel, for example, the Nth channel, the transmission data is sampled on the Nth channel in frame information that circulates repeatedly during transmission, and is sequentially loaded and transmitted. On the other hand, it may be considered that the data on the Nth channel in the frame information that circulates repeatedly is extracted and received in a form arranged on the time axis.

As described above, the transmitted data from the transmitter 9-1 is sampled and placed on the Nth channel via the adder 13-1. And transmitter 9-2
The transmitted data is sampled, added to the data of the Nth channel transmitted from the upstream side by the adder 13-2, and transmitted to the downstream side. The same applies to data transmitted from the transmitter 9-3. For this reason, the data of the Nth channel in the frame information that has circulated once on the loop transmission path 3-0 is transmitted from the three transmitters 9-1, 9-2, and 9-3, respectively. The value is the sum of the sampling results. Loop transmission unit 2-0
Regarding the frame information 14 that has gone through the first round,
The data of the Nth channel is extracted, the data is attenuated by a predetermined amount by an attenuator LOSS, and the attenuated data is placed on the Nth channel and sent to the loop transmission line 3-0 as new frame information.

Each loop transmission unit 2-1, 2-2, 2-3
, the attenuated data of the N-th channel is converted into an analog signal by converters 12-1, 12-2, and 12-3, respectively, and then transmitted to each receiver 10-.
1, 10-2, 10-3. As a result,
Each handset is supplied with an analog signal corresponding to the resultant composite data previously collected using the Nth channel, and the analog signal is supplied one after another corresponding to the circulation of the frame information 14. Therefore, three-way calls are possible.

In the illustration, if the attenuator LOSS does not exist, as described at the beginning of this specification, transmission data will be accumulated on the N-th channel every time the frame information goes around once. However, in the case of the present invention, if the attenuation amount of the attenuator LOSS is l, the size D of the data placed on the Nth channel before the kth cycle is D = (1 - l) ^k , At the timing when the signal becomes a nuisance to the human ear in the form of an echo, it is attenuated to a level that does not cause any practical problems.

Figure 3 shows the data synthesis adder 13 shown in Figure 2.
-2 shows the configuration of an embodiment. The adder 13-2 receives Nth channel data (for example, 8 bits) _Y0 to _Y7 transmitted from the upstream side and data (for example, 8 bits) _X0 from the analog-to-digital converter 11-2. or X ₇ is input. The data Z ₀ to Z ₇ resulting from the addition of both are then placed on the N-th channel in the frame information 14 as new N-th channel data.

As described above, according to the present invention, conference-style communication between three or more parties is possible by simply inserting an attenuator while using a single channel in frame information.

In the case shown in FIG. 2, the attenuator LOSS is provided in the loop transmission unit 2-0, but it goes without saying that the attenuator LOSS may be provided in the master station 1 shown in FIG. In addition, in the case shown in FIG. 2, addition is performed by the adder 13-i in the form of a digital signal, but the data transmitted using the Nth channel from the upstream side is converted into an analog signal, The analog signal from the transmitter 9-i may be added in the form of an analog signal, and the addition result may be converted into a digital signal and sent to the downstream side.

Needless to say, the attenuator LOSS can be any amplitude attenuator, and converts the received N-channel data into an analog signal, passes it through the attenuator, and converts it back into a digital signal to become the N-channel data. That's enough.

[Brief explanation of the drawing]

FIG. 1 shows the configuration of an embodiment of a communication system to which the present invention is applied, FIG. 2 shows the configuration of an embodiment of the present invention, and FIG. 3 shows the configuration of an embodiment of the data synthesis adder shown in FIG. show. In the figure, 1 is a master station, 2-0 to 2-3 are loop transmission units, and 3-0, 3 are respectively loop transmission units.
-1 is a loop transmission line, 9-i is a transmitter, 10
-i represents a receiver, 11-i and 13-i represent a data combining unit, and 12-i represents a combined data receiving unit.

Claims (1)

[Claims] 1. In a communication system using a loop transmission method, which includes a plurality of loop transmission units, each of which is connected in a loop via a loop transmission path, at least one of the loop transmission units or the loop transmission path The master station device located in the master station has an attenuator that attenuates data of at least one Nth channel in the frame information circulating on the loop transmission path, and the loop transmission unit has an attenuator that attenuates data of at least one Nth channel in the frame information circulating on the loop transmission path. A receiving unit that receives the transmitted data, and data that adds the data transmitted through the N-th channel and the data generated within itself and sends it out onto the loop transmission path as new N-th channel data. A conference-style communication processing method characterized by having a synthesis section.