JPH10285674A - Information transmission method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To transmit signaling information in plural bits through the use of a conventional synchronization network while suppressing degrading of voice quality by transmitting a status information for each frame interval being the least common multiple of a transmission frame interval of the status information used for a transmission path. SOLUTION: Signaling information Dsig and voice information Dsou from a terminal 10 are assembled into a prescribed frame format by an information transmitter 20 and sent via a transmission line to a repeater 50, where the frame format is converted into that suitable for the transmission line through which the frames are transmitted and the resulting frames are transmitted to an information transmitter 40 via the transmission line. The information transmitter 40 decodes the received frames and separates the frames into the signaling information Dsig and voice information Dsou and transmits them to a terminal 30. Thus, for example, in the case of conversion of the frame format between the transmission rate of 1.544 Mbps and 6.3 Mbps, the signaling information is monitored for 24 frames each, the presence of the information is grasped and transmitted to the terminal 30.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for transmitting information such as voice communication including signaling information.

[0002]

2. Description of the Related Art In the transmission of voice information using a synchronous network, for example, a voice signal is sampled at 8 kHz, and is coded at 8 bits per sampling by a PCM (Palse Code Modulation) coding method, and 64 kbp.
s transmission speed. The encoding method in this case includes:
There are μ-LAW (μ-law) represented by Japan and North America, and A-LAW (A-law) represented by Western Europe. Also, in addition to the voice signal, for example, it is necessary to transmit state information such as telephone on-hook or off-hook (hereinafter referred to as signaling information). The transmission speed is set slower than the voice signal.

For example, 6.312 Mbps (96 channels)
, The signaling information transmission rate is 1 kbps / c
h, signaling information of 96 kbps is transmitted. In the case of 1.544 Mbps (24 ch), the transmission speed is 1.3 kbps / ch.
31.2 kbps signaling information is transmitted. However, in each case, the number of bits that can be transmitted is one bit per sampling, and a method for extending this number of bits is not defined.

[0004] In the case of a 1.544 Mbps frame, a bit area for transmitting signaling information is not provided. In an operation mode using signaling information, the least significant bit of voice data is used as a bit for transmitting signaling information. I'm using This is because the audio signal is coded at 8 bits per sampling by the PCM coding method as described above, and the least significant bit has a significantly lower importance than the upper bit. That is.

FIG. 3 shows an example of a frame configuration which is an arrangement of output pulses in the PCM 24 terminal equipment. As shown in the figure, one frame is 193 bits (8 × 24 + 1) composed of an 8-bit PCM word and a 1-bit frame synchronization pulse allocated to each of the communication channels of 24 channels.
It consists of data. Eight bits assigned to each communication path represent one sample pulse amplitude, and one frame length is equal to the sampling period and is 125 μsec. Therefore, the transmission rate of the pulse train transmitted to the transmission path is 19
3 ÷ (125 × 10 ⁻⁶ ) = 1.544 × 10 ⁶ bits /
sec.

[0006] The multi-frame in this example is a 12-multi-frame in which 12 frames are collected.
It is 5 msec (125 μsec × 12). Then, in the sixth and twelfth frames of the twelve frames,
Of the 8-bit pulses assigned to each communication path, the least significant bit is used for transmitting signaling information required for switching connection. Therefore, in this frame, the amplitude of the sample pulse is represented by 7 bits, and the receiving unit performs processing opposite to that of the transmitting unit on the received pulse train, and demodulates the voice signal of the 24 channels. .

Similarly, when transmitting signaling information in 24 multiframes, similarly, the least significant bit of the sixth, twelfth, eighteenth, and twenty-fourth frames is set as a signaling bit every six frames, and the signaling information is transmitted. I do. Thus, with 1.544 Mbps frame transmission,
When transmitting signaling information, signaling information is transmitted by allocating one least significant bit of voice data as a signaling bit every six frames.

[0008]

However, in such conventional transmission of signaling information, only one signaling bit is defined, and when the signaling bit is "0", the first state is set. There is a problem that only two states can be transmitted by defining the state of “1” as the second state. For this reason, for example, even when a terminal device connected to a line is used in addition to a telephone and several control bits are required to control the terminal device, the control bit is transmitted and received using the signaling bit. I couldn't do that.

Also, a 6.312 Mbps frame and 1.
Since the transmission method of the signaling information is different from that of the 544 Mbps frame, the conventional transmission condition of the signaling information between any two points requires that the transmission speed in the information transmission path between the two points is constant. However, in the actual transmission path, the path between two points is 6.312M.
bps or 1.544 Mbps is rarely standardized, and a plurality of paths having different transmission speeds are generally mixed. For this reason, in order to reliably transmit signaling information via paths having different transmission rates, the transmission terminal apparatus needs to understand all transmission rates in each path connecting the terminals and perform complicated control. Therefore, transmission of signaling information between a plurality of paths having different transmission rates has been extremely difficult.

Further, in the operation mode using signaling information in a 1.544 Mbps frame, since the least significant bit of the voice information is always used as a bit for transmitting the signaling information, the voice quality when using the signaling information is as follows. There is a problem that the frame becomes worse when compared with the 6.312 Mbps frame. This is one of the audio signals for transmitting signaling information.
This is because the bits are always occupied.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is possible to suppress a decrease in voice quality while suppressing a decrease in voice quality.
An object of the present invention is to reliably transmit signaling information of a plurality of bits using a conventional synchronous network.

[0012]

SUMMARY OF THE INVENTION An information transmission method according to the present invention transmits predetermined digital information composed of a plurality of frames on the basis of different transmission rates for each transmission path in a communication network, and is determined for each transmission rate. A method for transmitting state information indicating the state of an information transmission device connected to the communication network at every frame interval, wherein the transmission frame interval of the state information used in the transmission path between any two points is determined. The state information is transmitted at each frame interval that is the least common multiple.

[0013] Further, predetermined information consisting of a plurality of frames is transmitted based on different transmission rates for each transmission path in a communication network, and information connected to the communication network is provided at every frame interval determined for each transmission rate. An information transmission method for transmitting state information indicating a state of a transmission device, comprising: a delimiter position of information for each frame interval that is a least common multiple of a transmission frame interval of state information used in a transmission path between two arbitrary points; Is transmitted. It is effective that the position information is an alternating pattern signal composed of repetitions of “1” and “0”.

[0014]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail. FIG. 1 is an overall configuration diagram showing an outline of a transmission system to which an information transmission method according to the present invention is applied. In the figure, a plurality of terminals 10a to 10n including a terminal 10
The information transmission device 20 connected to the information transmission device 20 is connected via the repeater 50 to the information transmission device 40 connected to a plurality of terminals 30a to 30n including the terminal 30 in the same manner as the information transmission device 20.

The terminal 10 exchanges signaling information Dsig and voice information Dsou with the information transmission apparatus 20, and the information transmission apparatus 20 has 1.544Mb.
Information is transmitted in ps. Similarly, terminal 30 communicates signaling information D with information transmitting apparatus 40.
sig and voice information Dsou are exchanged.
The information transmission device 40 transmits information at 6.3 Mbps.

The repeater 50 has a 1.544 Mbps frame decryption / frame generation device 51 connected to the information transmission device 20 and a 6.3M frame connected to the information transmission device 40.
and a frame decoding / frame generating device 52 for bps.
By exchanging the signaling information Dsig and the voice information Dsou between the two, a speed conversion function between the information transmission devices 20 and 40 is provided.

That is, the signaling information Dsig and the voice information Dsou from the terminal 10 are assembled into a predetermined frame format by the information transmission device 20 and transmitted to the repeater 50 via the transmission path. In the repeater 50, when connecting to transmission lines having different speeds, the frame is decoded by the frame decoding / frame generation device 51, and the signaling information Dsig and the voice information Dsou are transmitted to the frame decoding / frame generation circuit 52. The decoding / frame generation circuit 52 reassembles the frame into a frame format suitable for the transmission path to be transmitted, and transmits the frame format to the information transmission apparatus 40 via the transmission path.

The information transmission device 40 decodes the transmitted frame and decodes the signaling information Dsig and the voice information Dsig.
sou are separated and transmitted to the terminal 30. As described above, when exchanging the frame format between 1.544 Mbps and 6.3 Mbps, the presence or absence of the signaling information is grasped by monitoring the signaling information every 24 frames, and the information is delivered.

FIG. 2 is a diagram for explaining the principle of the information transmission method according to the present invention. The information transmission method according to the present invention transmits signaling bits in each time slot at a rate of once every eight frames in the case of a 6.312 Mbps frame, while transmitting once every six frames in the case of a 1.544 Mbps frame. By transmitting the same data for 24 frames, which is the least common multiple thereof, by using the transmission of signaling bits in each time slot at a ratio, the transmission speed difference between 6.312 Mbps frame and 1.544 Mbps frame, etc. The transmission of the signaling bits is performed without being aware of this.

For example, when it is desired to transmit four states as signaling information, it can be represented by 2-bit information. Therefore, it is necessary to transmit 2-bit signaling bits on the transmitting side. However, since only one signaling bit can be transmitted in one frame, when a plurality of bits are transmitted in a time series, a means for determining a break position of the signaling bit is required. Therefore, in the present invention, 1-bit position information indicating the delimiter position of the signaling bit is added for every 72 frames, and from this position information, the 24th frame bit and the 48th frame bit are converted into 2 bit signaling bits. I try to recognize.

As the position information, for example, it is conceivable to use an alternating code of "1" and "0". The “1” / “0” alternating code can clearly determine the delimiter position of the signaling bit, and has a higher speed than the signaling bit, so that synchronization can be reliably achieved. As described above, the transmitting side transmits the signaling information in such a manner that the two signaling bits are sandwiched between the alternating codes of “1” or “0”. In this embodiment, since 1-bit information is transmitted in 24 frames, 1 × 2 is required to transmit signaling information.
Transmission of position information for 4 frames and signaling bits for 2 × 24 frames are required.

For this reason, the reception side performs reception every 24 bits and changes the state of reception signaling by receiving the two bits of information following the position information as signaling bits. Thus, in the block that processes the signaling information, the 6.312 Mbps frame or 1.
Without being aware of the difference in transmission speed of 544 Mbps frames, etc.
Since the data is processed as bit data, it is possible to absorb a difference in transmission speed in each transmission path.

As described above, in this embodiment, since the signaling information is transmitted using the voice signal, the problem of the multi-frame configuration due to the difference in the transmission path can be solved. And the signaling information can be transmitted reliably. Further, since signaling information of an arbitrary number of bits can be transmitted, signaling information of three or more states can be transmitted using a conventional synchronous network.

In the above-described embodiment, an example is described in which an alternating code of "1" / "0" is used as position information. However, the present invention is not limited to this, and a pseudo random code or the like is used. It may be something. Further, in the above-described embodiment, the case where four states are transmitted as the signaling information is described. However, it is also possible to further increase the states to be transmitted by increasing the number of signaling bits to be transmitted.

[0025]

As is apparent from the above description, according to the present invention, it is possible to reliably transmit a plurality of bits of signaling information using a conventional synchronous network while suppressing a decrease in voice quality.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram showing an outline of a transmission system to which an information transmission method according to the present invention is applied.

FIG. 2 is a diagram for explaining the principle of an information transmission method according to the present invention.

FIG. 3 is a diagram showing an example of a frame configuration which is an arrangement of output pulses in a conventional PCM 24 terminal apparatus.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 terminal 10a-10n terminal 20 information transmission device 30 terminal 30a-30n terminal 40 information transmission device 50 repeater 51,52 frame decoding and frame generation device

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[Procedure amendment]

[Submission date] May 28, 1997

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

Claims (3)

[Claims] 1. A method for transmitting predetermined digital information consisting of a plurality of frames based on different transmission rates for each transmission path in a communication network and connecting to said communication network at every frame interval determined for each transmission rate. An information transmission method for transmitting state information indicating a state of an information transmission apparatus, wherein the state information is transmitted at every frame interval that is a least common multiple of a transmission frame interval of state information used in a transmission path between two arbitrary points. An information transmission method characterized by: 2. A method for transmitting predetermined information consisting of a plurality of frames based on different transmission rates for each transmission path in a communication network, and for connecting information to the communication network at every frame interval determined for each transmission rate. An information transmission method for transmitting state information indicating a state of a transmission device, comprising: a delimiter position of information for each frame interval that is a least common multiple of a transmission frame interval of state information used in a transmission path between two arbitrary points; An information transmission method characterized by transmitting position information and status information indicating the following. 3. The information transmission system according to claim 2, wherein said position information is an alternating pattern signal consisting of repetitions of "1" and "0".