JPH0761052B2 - Intercom multiplexer - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multiplexing device applied to a communication device such as a digital car telephone.

2. Description of the Related Art Generally, in a conventional communication device of this type, on the downlink side from the base device to the terminal device and on the reverse side from the terminal device to the base device, respectively, As shown in FIG. 3, normally, a fixed time-division channel is assigned to each communication line.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention However, in the case of the conventional communication device as described above, since the channels are fixedly allocated, for example, even when there is no voice input and there is no voice, the allocation is performed. There is a problem that channels are monopolized.

The present invention is intended to solve the above-mentioned conventional problems, and enables a channel to be enabled.
It is an object of the present invention to provide a multiplexing device for this type of communication device.

Means for Solving the Problems In order to achieve the above object, the present invention provides a means for detecting the information amount of an input speech signal to each encoding device, a means for transmitting the information amount, and encoding according to the information amount. , And means for decoding are provided so that channels can be dynamically assigned for each frame.

That is, the present invention provides necessary J (integer J ≦ N) terminals among M (integer M ≧ N) terminal devices for a base device having N (integer) channel lines. A communication device for connecting devices to perform mutual communication in a time division manner, on the downlink side from the base device to the terminal device, means for setting a frame synchronization signal synchronized with the frame length of the encoder, and the base device. , A means for detecting the information amount of the audio signal input to each encoder, and allocating the total information amount to be multiplexed as a maximum value to each encoder for each frame, and inserting the allocation information into the synchronization signal. Means, means for encoding with each distributed information amount and multiplexing with a frame synchronization signal, and means for decoding to a predetermined channel based on the frame synchronization signal, and from the terminal device to the base device To the upstream side to Means for detecting the amount of information of a voice signal to be transmitted, transmitting it to the base device in synchronization with the downlink frame synchronization signal, and receiving the amount of information transmitted from each terminal device, and Means for determining the amount of information that can be distributed to each terminal device based on the amount, means for inserting each distributed information amount in the downlink frame synchronization signal, and receiving a signal of this information amount in the terminal device, And means for encoding in accordance with the information amount, means for delaying the encoded signal and multiplexing with the signal representing the information amount, and means for decoding in accordance with the information amount given to each channel of the base device. Is provided so that the uplink line and the downlink line can be independently and dynamically assigned to each communication line for each frame, and the line utilization efficiency can be improved. A multiplexer for communication device.

Operation Therefore, according to the present invention, the above-mentioned configuration has the following operation.

That is, since channels are dynamically assigned to each frame according to the amount of information of the terminal device, the line efficiency of the entire system can be improved, and the transmission delay does not cause temporal fluctuations. Highly efficient calls become possible.

Embodiment An embodiment of the multiplexer of the communication device according to the present invention will be described below in detail with reference to FIGS. 1 and 2.

FIG. 1 is a schematic block diagram showing the configuration of a multiplexing device to which the system of this embodiment is applied, and FIG. 2 is an operation explanatory diagram of the same device.

That is, in the configuration of the apparatus of this embodiment shown in FIG.
101 is a base unit (B) having the number of N (integer) channel lines, 111, ... 112, ... 113 is M (integer M ≧ N) terminal units (T, 1) ,. , i), ... (T, M).

First, in the configuration of the base device (B) 101, the signal input terminals (1) 1, ... (K) 2 ,.
(N) 3 are encoders (1) 4, ...
(K) 5, ... (N) 6, and the synchronizer (B) 7 is connected to each of these encoders (1) 4 ,.
(N) 6, and decoders (1) 12, ... (k) 13, ...
(N) 14, the multiplexer (B) 8, and the separator (B) 15. The multiplexer (B) 8 is connected to the encoders (1) 4, ... (K) 5, ... (N) 6, and the demultiplexer (B) 15 and the downlink 121. Each terminal device (T, 1) 111, ... (T, i)
112, ... (T, M) 113 is connected to the synchronizer and the separator, and in the case of the present embodiment, as an example, the terminal device (T,
i) Connected to 112 synchronizer (T) 16 and separator (T) 17. Further, the separator (B) 15 corresponds to the respective signal output terminals (1) of the device via the respective decoders (1) 12, ... (K) 13, ... (N) 14. 9, ‥‥
(K) 10, ... (N) 113, and in the case of the present embodiment, as an example, via the upstream line 131, the multiplexer (T) of the terminal device (T, i) 112 is connected. ) 19 is connected.

Then, each terminal device (T, 1) 111 ,.
In the configuration of (T, i) 112, ... (T, M) 113, that is, in the case of the present embodiment as described above, in the configuration of the terminal device (T, i) 112, the synchronizer (T) 16 is , Separator (T) 17, decoder (T) 18, multiplexer (T) 19, delay device (T) 20, and encoder (T) 21. Also, the separator (T) 17
Is connected to the signal output terminal (T, i) 22 of the device via the decoder (T) 18. Further, the signal input terminal (T, i) 23 of the device is connected to the multiplexer (T) 19 through the encoder (T) 21 and the delay device (T) 20 in this order, and is also described above. As described above, the multiplexer (T) 19 is connected to the separator (B) 15 of the base device (B) 101 via the uplink 131.

Next, the operation of the apparatus configuration according to the above embodiment will be described.

In the description of the configuration of FIG. 1 and the frame format and information flow of FIG. 2, in the case of this embodiment, for example, the communication line (k) of the base device (B) 101, that is, the signal input It is assumed that the terminal (k) 2 and the terminal device (T, i) 112 are connected.

Here, the audio signal input to the signal input terminal (1) 1 of the base device (B) 101 is first separated by the encoder (1) 4 from the frame synchronization signal generated from the synchronizer (B) 7. Then, the information amount of the input voice signal is detected for each of the encoders (2), ... (k) 5 ,. It is detected and sent to the multiplexer (B) 8. In addition, the multiplexer (B) 8 determines the number of channels assigned to each communication line, and thus the coding rate, based on each of these information amounts.

Further, the encoder (k) 5 encodes the input voice signal according to the number of channels (encoding speed) assigned to the encoder (k) 5 and sends it to the multiplexer (B) 8 and the respective codes by the multiplexer (B) 8. The device output, the synchronization signal, and the channel allocation signal are multiplexed, and the corresponding terminal device (T, T,
i) sent to 112.

Then, in the terminal device (T, i) 112, the downlink 12
Synchronizer (T) 16 detects synchronism from the transmission signal that has passed through 1, and after finding channel allocation based on this, separator (T) 17 extracts its own channel and decoder. The sound is reproduced by the decoding by the (T) 18 and output from the signal output terminal (T, i) 22.

On the other hand, the signal input terminal (T, i) 2 of the terminal device (T, i) 112
Regarding the audio signal input to 3, the encoder (T) 21 detects the information amount from the audio signal of the section n frames cut out by the synchronizer (T) 16, and the audio signal is multiplexed. After being multiplexed with another signal by the device (T) 19, it is sent to the separator (B) 15 of the base device (B) 101 by the up line 131.

Further, in the separator (B) 15, each terminal device (T, 1) 111, ... (T, i) 112 ,. Device (T, 1) 111, ... (T, i) 112 ,.
.. Each channel to be allocated for encoding in (T, M) 113 is determined and sent to the multiplexer (B) 8. In the multiplexer (B) 8, this channel allocation signal is transmitted to the downlink 12
It is multiplexed with the 1 sync signal and sent to the corresponding terminal device (T, i) 112.

Then, in the terminal device (T, i) 112, the synchronizer (T) 16 detects this channel assignment signal and sends it to the encoder (T) 21 for encoding at a predetermined encoding rate. In this case, in order to shorten the delay of the audio signal, the coded signal previously coded at various coding rates and stored in the delay unit (T) 20 may be used.

Next, the coded signal is multiplexed with the signal indicating the information amount of the previous frame by the multiplexer (T) 19, and then the separator (B) of the base device (B) 101 is transmitted via the uplink 131. ) 15 and finally, with this coded signal, the delay (T) 20 is connected to the multiplexer (T) 19 together with the multiplexer (T) 19 via the uplink 131. Then, the decoder (k) 13 of the base device (B) 101 decodes the sound to reproduce the sound, and the sound is output from the signal output terminal (k) 10.

Here, the frame format and information flow in each of the upstream and downstream lines are as shown in FIG.

EFFECTS OF THE INVENTION The present invention, as is apparent from the configuration of the above embodiment,
The input voice signal can be efficiently time-division multiplexed under a limited line capacity, and as a result, there is an advantage that the channel can be effectively used, and unlike the case of so-called packet transmission, Since they are all synchronized with a frame signal of a constant cycle, there is no deterioration in sound quality due to fluctuations in the transmission delay time of an audio signal, and there are excellent features such that high quality and high efficiency communication can be performed.

[Brief description of drawings]

FIG. 1 is a schematic block diagram showing the configuration of a multiplexing device to which an embodiment of the multiplexing device for a communication device according to the present invention is applied, and FIG. 2 is a signal waveform diagram for explaining the operation of the same device. , FIG. 3 is a signal waveform diagram for explaining the operation of the conventional device. 101 …… Base device (B), 111,112,113 …… Terminal device (T,
1), (T, i), (T, M), 1,2,3 ... Base device signal input terminals (1), (k), (N), 4,5,6 ... Encoder (1 ),
(K), (N), 7 ... Synchronizer (B), 8 ... Multiplexer (B), 9, 10, 11 ... Base unit signal input terminal (1),
(K), (N), 12, 13, 14 ... Decoder (1), (k),
(N), 15 ... Separator (B), 16 ... Synchronizer (T), 17
... Separator (T), 18 ... Decoder (T), 19 ... Multiplexer (T), 20 ... Delay device (T), 21 ... Encoder (T), 22
...... Terminal device signal output terminal (T, i), 23 …… Terminal device signal input terminal (T, i).

Claims (1)

[Claims] 1. Required J (integer J ≦ N) terminal devices among M (integer M ≧ N) terminal devices for a base device having N (integer) channel lines. Is a time-division intercommunicative communication device, and on the downlink side from the base unit to the terminal unit, means for setting a frame synchronization signal synchronized with the frame length of the encoder, and the base unit Means for detecting the amount of information of the voice signal input to each encoder, allocating the total amount of multiplexed information as a maximum value to each encoder for each frame, and means for inserting the allocation information into the synchronization signal. And means for encoding with each distributed amount of information and multiplexing with a frame synchronization signal, and means for decoding to a predetermined channel based on the frame synchronization signal, and from the terminal device to the base device. On the uplink side of A means for detecting the amount of information of the voice signal to be transmitted, transmitting it to the base device in synchronization with the downlink frame synchronization signal, and receiving the amount of information transmitted from each terminal device, and Based on the means for determining the amount of information that can be distributed to each terminal device, means for inserting each distributed information amount into the downlink frame synchronization signal, and the terminal device receiving a signal of this information amount, and Means for encoding according to the amount of information, means for delaying the encoded signal and multiplexing with a signal representing the amount of information, and means for decoding according to the amount of information given to each channel of the base device are provided. A call device characterized by independently allocating a channel to each call line for each frame independently of the uplink and downlink, and improving the line utilization efficiency. Equipment multiplexing equipment.