JPH02121540A - Synchronous multiple converting device - Google Patents

Abstract

PURPOSE:To improve the availability of a transmission line by deciding the next terminal circuit information and circuit setting information respectively based on the traffic information on each terminal circuit given from a terminal interface part and controlling two line concentrating/separating parts and a switch part. CONSTITUTION:A terminal interface part 102 secures the interface to a terminal 101 and fetches the signal to an internal data buffer through the terminal 101. Then the part 102 sends the signals received via the terminal 101 to a line concentrating/separating part 1031 after the conversion of speed and converts the signals received from the part 1031 into various terminal interfaces to output them to each terminal 101. A control part 106 decides the circuit setting information on the next multi-frame based on the traffic information 107. This circuit setting information 108 is used for control of the line concentrating/separating parts 1031 and 1032 and a switch part 104. Then the transmission value of each terminal circuit is decided on a transmission line in proportion to the traffic.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention is applied to a synchronous multiplex conversion device for digital communication.

〔overview〕

The present invention uses a multi-frame system in which a control frame containing each terminal line information is added in a synchronous multiplex converter, and determines the next terminal line information and line setting information based on the traffic information of each terminal line. , which enables adaptive multiplexing with effective and simple equipment, allowing efficient use of transmission lines.

[Conventional technology]

Conventionally, in a synchronous multiplex converter, line setting information is not set according to the traffic condition of each terminal line, but the set line setting information is fixed.

[Problem that the invention seeks to solve]

However, in such a conventional synchronous multiplex converter, the line setting information is almost fixed and is not set according to the traffic condition, so there is a drawback that the transmission path cannot be used efficiently.

Also, it is conceivable to configure the line in accordance with the traffic condition of the terminal line, but this requires statistical analysis of the traffic condition and has the drawback of increasing the scale of the equipment.

The present invention solves the above-mentioned drawbacks, and aims to provide a synchronous multiplex conversion device that can effectively and effectively perform line settings with a simple device, and can efficiently use transmission paths. .

[Means for solving problems]

The present invention provides a transmission system that provides an interface between a terminal interface section that interfaces with a plurality of terminals, a first concentrator and demultiplexer that is connected to the terminal interface section and performs concentration and separation of signals, and a transmission line. a line interface unit, a second line concentrator and demultiplexer connected to this transmission line interface unit to concentrate and separate signals, and a line setting unit inserted between the first concentrator and this second concentrator and demultiplexer. In a synchronous multiplex converter equipped with a switch section that performs
The above signal has a multi-frame configuration to which a control frame containing each terminal line information is added, and the next each terminal line information and line setting information are determined based on the traffic information of each terminal line from the above terminal interface section. The present invention is characterized in that it includes a control section that controls two line concentrators and separation sections and the switch section.

[Effect]

Based on the traffic information of each terminal line from the terminal interface section, the following terminal line information and line setting information are determined to control the two line concentrators and the switch section. This operation allows adaptive multiplexing to be performed with an effective and simple device, and enables efficient use of the transmission path.

〔Example〕

Embodiments of the present invention will be described with reference to the drawings. 1st
The figure is a block diagram of a synchronous multiplex conversion apparatus according to an embodiment of the present invention. In FIG. 1, the synchronous multiplex conversion device includes a terminal interface unit 102 that interfaces with a plurality of terminals 101, and a first line concentrator unit that is connected to the terminal interface unit 102 and performs line concentration separation of signals. A transmission line interface B105 that interfaces between the transmission line interface section 1031 and the transmission line 110, a line concentrator 1032 as a second line concentrator and demultiplexer that is connected to this transmission line interface section 105 and performs line concentration and separation of signals; A switch section 104 is inserted between the section 1031 and the line concentration/separation section 103 to perform line settings.

Here, the feature of the present invention is that the above-mentioned signal has a multi-frame structure to which a control frame containing information on each terminal line is added, and the following signals are transmitted based on the traffic information of each terminal line from the terminal interface section 102. Determine terminal line information and line setting information and line concentration separation unit 1030.10
32 and a control section 10 that controls the switch section 104.
6.

The operation of the synchronous multiplex converter having such a configuration will be explained.

FIG. 2 is a diagram showing the structure of a multi-frame signal on a transmission path of the synchronous multiplex converter of the present invention.

In FIG. 2, 201 is a frame focus, 202 is a basic frame, 203 is a multiframe consisting of consecutive basic frames, 204 is a control frame which is the final basic frame of the multiframe, and 205 is a time slot.

FIG. 3 is a diagram showing the structure of a control frame of the synchronous multiplex converter of the present invention. In FIG. 3, 301 is terminal line information that uses time slots in each basic frame.

FIG. 4 is a diagram showing the structure of terminal line information of the synchronous multiplex converter of the present invention. In FIG. 4, 401 is the ID (ID) of the line that uses each time slot in the basic frame 202.
identification information), and 402 is usage information indicating whether the line indicated by this ID uses or does not use the time slot on the transmission path 110. 403 indicates that the line indicated by ID401 is transmission path 1
When using time slots above 10 (Usage information 40
2. ) indicates the number of time slots used.

In FIGS. 1 to 4, the terminal interface unit 102
interfaces with the terminal 101, captures the signal from the terminal 101 into an internal data buffer, converts the speed of the signal from the terminal 101 to the line concentrator 1031, and transmits the signal from the line concentrator 1031. is converted into various terminal interfaces and output to each terminal 101.

The line concentration/separation unit 1031.2 concentrates the signals from the plurality of terminal interface units 102 or the plurality of transmission line interface units 105 and sends them to the switch unit 104, and separates the signals from the switch unit 104 to connect the signals from the plurality of transmission line interfaces 105 to the plurality of transmission line interfaces. 105 and is transmitted to the plurality of terminal interface units 102.

The switch section 104 sets up a line based on the line setting information 108 for the signals from the line concentration/separation sections 1031 and 1032. The transmission line interface section 105 includes a line concentration separation H
The signal from the transmission line 1032 is converted to the interface of the transmission line 110, and the signal from the transmission line 110 is converted to the interface of the line concentrator/separator 103°. The control unit 106 determines line setting information for the next multi-frame based on the traffic information 107, and controls the line concentrators 1030 and 1032 and the switch unit 104 as line setting information 108.
Wholesale. The traffic information 107 indicates the traffic of each terminal line, and the control unit 106 determines the transmission amount of each terminal line on the transmission path in proportion to the traffic.

The transmission amount of each terminal line on the transmission path is
It is fixed within one multiframe shown by multiframe 203.

The amount of transmission is an integral multiple of the time slot indicated by time slot 205, and is indicated by the number of time slots 403 used. The control frame 204 is determined by the control unit 106 together with the line setting information 108 for each multiframe. Terminal line information 301 in control frame 204
indicates information on the amount of transmission of the terminal line within the transmission path 110 in each multiframe.

Basic frame 2
At 02, time slot assignment is performed starting from the time slot 205 that is closest to the frame focus 201.

〔Effect of the invention〕

As explained above: 2. The present invention: Well, adaptive multiplexing can be performed with an effective and simple device, and there is an excellent effect that the transmission path can be used efficiently.

...Line setting information, 109...Bus, 110...
Transmission path, 201, Frame bit, 202, Basic frame, 203, Multi frame, 204, Control frame, 205, Time slot, 301...
- Terminal line information, 401... ID (identification information) of the terminal line, 402... Line usage information indicated by ID, 40
3...Number of time slots.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a synchronous multiplex converter according to an embodiment of the present invention. FIG. 2 is a multiframe configuration diagram of the synchronous multiplex conversion apparatus of the present invention. FIG. 3 is a configuration diagram of a control frame of the synchronous multiplex converter of the present invention. FIG. 4 is a configuration diagram of terminal line information of the synchronous multiplex converter of the present invention. 101... Various types of accommodated terminals (telephones), 102...
・Terminal interface section, 1031.103°...
Line concentration/separation unit, 104... Switch unit, 105... Transmission line interface unit, 106... Control unit, 107.
...Traffic information, 108 patent applicant agent
,−

Claims (1)

[Claims] 1. Between a terminal interface unit that interfaces with a plurality of terminals, a first line concentrator and separation unit that is connected to this terminal interface unit and performs line concentration and separation of signals, and a transmission line. a transmission line interface section that performs an interface;
a second line concentrator and separator that is connected to the transmission line interface section and performs line concentration and separation of signals; and a switch unit that is inserted between the first line concentrator and this second line concentrator and separator and performs line settings. In a synchronous multiplex converter equipped with a synchronous multiplex converter, the above-mentioned signal has a multi-frame configuration to which a control frame containing information on each terminal line is added, and based on the traffic information of each terminal line from the above-mentioned terminal interface section, the signal is transmitted to each next terminal line. 1. A synchronous multiplexing and converting device comprising: a control unit that determines information and line setting information and controls the two line concentrators and the switch unit.