JPS6116648A - Loop transmission system - Google Patents

Abstract

PURPOSE:To use plural channel when required and therefore to allow a connection of a high-speed terminal by providing a plural-channel request flag to the circuit connection control part of a signal frame. CONSTITUTION:When terminals which perform 256Kbit/s data transmission have a communication, an originating station obtains the right to use a circuit connection control part and sets a plural-channel request flag 10-5 to ''1'', an in-use channel head number 10-6 to ''50'', and a continuous use channel number 10-7 to ''4'' while setting an originating station address and a receiving station address, thereby sending them to a loop. The receiving station when receiving the frame checks on the plural channel request flag and only; fetches the in-use channel head number and continuous use channel number in a receiving register when the request flag is ''1''. Further, terminals which perform <=64Kbit/s transmission only; set the plural-channel request flag to ''0'' and sets the in-use channel head number.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a loop transmission system, particularly a loop transmission system in high-speed terminal-to-terminal communication (i).

[Prior Art] Loop transmission systems can be broadly classified into packet switching type and circuit switching type.

Among these, since transparent communication is required for data that emphasizes real-time performance such as telephone calls and facsimiles, a line-switched type is suitable, and the present invention relates to this line-switched loop transmission system.

Conventionally, in the line-switched loop transmission system, a transmission frame 1 is divided into a line connection control section 10 and a data channel section 20, as shown in FIG.

Here, the data channel part is a fixed length channel C)-
11,C)(2,C)-13,...CHi, for example, as shown in FIG.
00d are connected through the loop transmission path 200, data to be transmitted from the terminal device 300a connected to the station 100a to the terminal device 300c connected to the station 100G is allocated using the third channel CH3. I was doing it.

By the way, as shown in FIG. 3, each channel of the data channel unit 20 generally has a busy bit indicating whether or not the channel 20-3 is in use, taking Cl-13 (20-3> as an example). It consisted of 2O-3a (1 bit), data valid 2O-3b indicating whether the data is valid, and data bits 2C)-3G (8 pits).

In addition, the frame length is normally set to 125 μs, and 1
It was possible to transfer data at a rate of 64 kbit/s per channel, and generally enabled digital transmission of audio.

On the other hand, the line connection control unit uses busy bits 10-1 (1 bit), source address 10-2, and destination address 10.
-3, transmission channel number 10-4.

[Problems to be Solved by the Invention] As is clear from the above, in the conventional transmission system, it is impossible to connect high-speed terminals of 64 kbit/s or more to a loop transmission path; The drawback was that a separate line had to be used for inter-communication.

[Means for Solving the Problems] An object of the present invention is to eliminate the above-mentioned conventional drawbacks, and to
The object of the present invention is to provide a new loop transmission method that can connect even high-speed terminals of kbit/s or higher.

In other words, the gist of the present invention is that in a loop transmission system in which a plurality of stations are connected in a loop through a transmission path, a transmitted signal frame is composed of a line connection control unit and a plurality of channels. It consists of a data channel section, and the line connection control section is a busy flag,
A loop transmission system characterized by comprising a source address, a receiving address, a multi-channel request flag, a starting channel number in use, and the number of continuously used channels. Providing a channel request flag allows the use of multiple channels if necessary, thus 64 kbit/s
It is designed so that the high-speed terminals mentioned above can also be connected.

[Embodiment] Next, an embodiment of the present invention will be further described with reference to FIGS. 1 and 2.

FIG. 1 shows a fixed frame 1 that circulates at a constant speed in a loop of a line-switched loop transmission system.
0-2, a destination address 10-3, and a multi-channel request flag 10-5, a used channel first number 10-6, and a continuously used channel number 10-7, which are characteristics of the present invention.

For example, when terminals that perform data transmission at 256 kbit/s communicate with each other, the source station obtains the right to use the line connection control unit and then transmits the source address,
In addition to setting the recipient address, as shown in Figure 2,
The multiple channel request flag 10-5 is set to l11I, the first used channel number 10-6 is "50", and the number of consecutively used channels 10-7 is "4".

and send them on the loop.

When the receiving station receives the frame, it checks the multiple channel request flag, and if it is 1'', it can load the leading number of used channels and the number of consecutively used channels into the receiving register.

Furthermore, for terminals with a speed of 64 kbit/s or less, the multiple channel request flag may be set to "0" and the first number of the used channel may be set.

[Effects of the Invention] According to the circuit-switched loop transmission system of the present invention described above, it has the effect of making it possible to connect high-speed terminals of 64 kbit/s or more, and its industrial value is extremely high. There is a third thing.

[Brief explanation of the drawing]

1 and 2 are explanatory diagrams showing an example of a transmission frame used in the loop transmission system of the present invention, FIG. 3 is an explanatory diagram showing an example of a conventional transmission frame, and FIG. 4 is an explanatory diagram showing an example of a conventional transmission frame. It is an explanatory diagram showing an example. 1: Transmission frame 10: Line connection control section 20: Data channel section 10-5 2 Multiple channel request flag 1
0-6: First number of channels used 10-7 Number of consecutively used channels 3 Figure 4 Voluntary writing of procedural amendments) 2 Name of the invention Loop transmission system Target of amendment (1) Contents of full text amendment of specification (1 ) List of attached documents as shown in the attached sheet (1) Attachment (specification) 1 copy
Specification 1, Title of the invention Loop transmission system 2, Claims (1) In a loop transmission system in which a plurality of stations are connected in a loop through a transmission path, the frame of the transmitted signal is determined by line connection control. and a data channel section consisting of a plurality of channels. A loop transmission method characterized by comprising: 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a loop transmission system, particularly a loop transmission system in high-speed terminal-to-terminal communication. [Prior Art] Loop transmission systems can be broadly classified into packet switching type and circuit switching type. Among these, since transparent communication is required for data that emphasizes real-time performance such as telephone calls and facsimiles, a line-switched type is suitable, and the present invention relates to this line-switched loop transmission system. Conventionally, in the line-switched loop transmission system, a transmission frame 1 is divided into a line connection control section 10 and a data channel section 20, as shown in FIG. Here, the data channel part is a fixed length channel CHI
CH2, CH3, ... CHi, for example, the fourth
As shown in the figure, when stations 1008 to 100d are connected by loop transmission line 200, station i oo
From the terminal device 300a connected to station 10
Data to be transmitted to the terminal fa300c connected to 0G was allocated using the third channel CH3. By the way, as shown in FIG. 3, if we take CH3 (20-3) as an example, each channel of the data channel unit 20 generally has a busy pit 20=3a( 1 bit), data valid 2O-3b indicating whether the data is valid, and data bit 2
It consisted of O-3c (8 bits). Also, the frame length is normally set to 12511s,
It was possible to transfer data at 64 kbit/s per channel, and generally allowed digital transmission of audio. On the other hand, the line connection control unit has busy bit 1O-1 (1 pit), source address 10-2, and destination address 10-2.
3, transmission channel number 10-4. [Problem to be Solved by the Invention 1] As is clear from the above, in the conventional transmission system, it is impossible to connect a high-speed terminal of 64 kbit/s or more to a loop transmission line; The drawback was that a separate line had to be used for inter-communication. [Means for Solving the Problems] An object of the present invention is to solve the above-mentioned conventional drawbacks, and to solve the problems described above.
The object of the present invention is to provide a new loop transmission method that can connect even high-speed terminals of kbit/s or higher. In other words, the gist of the present invention is that in a loop transmission system in which a plurality of stations are connected in a loop through a transmission path, a transmitted signal frame is composed of a line connection control section and a plurality of channels. It consists of a data channel section, and the line connection control section includes a busy flag, a source address, a receiving address, a multiple channel request flag,
It is a loop transmission method characterized by being composed of the first number of used channels and the number of continuously used channels. [Function] By providing a multiple channel request flag in the line connection control section of the signal frame, the present invention makes it possible to use multiple channels as necessary, and therefore enables the use of multiple channels at 64 kbit/S.
This allows high-speed terminals on the IX to also be connected. [Example] Next, an example of the present invention will be further described with reference to FIGS. 1 and 2. FIG. 1 shows a fixed frame 1 that circulates at a constant speed in a loop of a line-switched loop transmission system.
0-2, a destination address 10-3, and a multi-channel request flag 10-5, a used channel first number 10-6, and a continuously used channel number 10-7, which are characteristics of the present invention. For example, when terminals that perform data transmission at 256 kbit/s communicate with each other, the source station obtains the right to use the line connection control unit and then transmits the source address,
In addition to setting the recipient address, as shown in Figure 2,
Set the multiple channel request flag 10-5 to 11I, the first number 10-6 of the used channel 17 to 115Q I+, the number of continuously used channels 10-7 to 4'', and loop.
Send to. When the receiving station receives the frame, it checks the multiple channel request flag, and if it is 1'', it can store the starting channel number in use and the number of consecutively used channels in the receiving register. It is sufficient to set the multiple channel request flag to ``0'' and set the first number of the used channel. [Effects of the Invention] According to the circuit-switched loop transmission system of the present invention as explained above, it has the effect of making it possible to connect high-speed terminals of 54 kbit/s or more, and its industrial value is extremely large. There is something. 4. Brief description of the drawings FIGS. 1 and 2 are explanatory diagrams showing one embodiment of a transmission frame used in the loop transmission system of the present invention. FIG. 3 is an explanatory diagram showing an example of a conventional transmission frame. FIG. 4 is an explanatory diagram showing an example of a loop transmission line. 1: Transmission frame 10: Line connection control section 20: Data channel section 10-5: Multiple channel 17 channel request flag
10-6: First number of channels used 10-7 Number of channels used twice consecutively

Claims (1)

[Claims] (1) In a loop transmission system in which multiple stations are connected in a loop through a transmission path, the transmitted signal frame consists of a line connection control section and a data channel section consisting of multiple channels. The line connection control unit includes the busy flag, source address, destination address, multiple channel request flag, starting channel number,
A loop transmission method characterized by consisting of a number of continuously used channels.