JPH02182042A - High efficiency voice coding/decoding device - Google Patents

Abstract

PURPOSE:To cope with two kinds of frequencies of in-band ringer signals by detecting a single tone signal having 2 kinds of specific frequencies and transmitting the presence of the signal as the presence of a digital signal of a different specific pattern. CONSTITUTION:When an in-band ringer signal with a 1st specific frequency is inputted, a selection circuit 19 sends a 1st specific pattern digital signal outputted from a pattern generating circuit 113 to a transmission line 31 with an in-band ringer signal detection circuit 112, a pattern generating circuit 113 connecting to the circuit 112 and a monostable circuit 14. Moreover, when an in-band ringer signal of a 2nd specific frequency is inputted, the selection circuit 19 sends the digital signal of the 2nd specific pattern outputted from a pattern generating circuit 217 to the transmission line 31 with an in-band ringer signal detection circuit 216, the pattern generating circuit 217 connected to the circuit 216 and a monostable circuit 18.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a high-efficiency speech encoding/decoding device, particularly for processing signals (audio signals) in the audio band (300 Hz to 3.400 Hz) at low bit rates. The present invention relates to a highly efficient speech encoding/decoding device that converts into digital signals and also transmits burst signaling signals within the speech band.

[Conventional technology]

As a conventional high-efficiency speech encoding device, adaptive predictive ADP
CM encoding device, multipath encoding device, and APC-A
There are devices such as B encoding devices. These encoding devices are devices that encode audio so that it can be transmitted at a low bit rate, and convert signals within the audio band to 32 kb/s, 16
kb/s, 8 kb/s, etc. Since these devices are not suitable for transmitting burst signals, they cannot be used for lines using an in-band linger method that transmits signaling signals within the voice band. Therefore, the signaling device within the voice band is transmitted using a conventional method as shown below.

Next, a conventional high-efficiency speech encoding/decoding device will be described with reference to FIG.

In the high-efficiency speech encoding device, an audio input signal 101 is input from the transmission input terminal 1, and the high-efficiency speech encoding circuit]1
and is supplied to the in-band ringer signal detection circuit 12. Then, in the high-efficiency speech encoding circuit 11, it is converted into a digital signal 102 of a low bit rate that has been encoded with high efficiency. On the other hand, the in-band ringer signal detection circuit 12 detects the presence or absence of a single tone signal of a specific frequency, and outputs the result (single tone detection signal) 103. - As an example, assume that when there is a single tone signal of a specific frequency, the output signal 103 is at the rHJ level, and when there is no signal, it is at the "L" level. The output signal 103 is then input to the pattern generation circuit 13 and the monostable circuit 14. The pattern generation circuit 13 outputs a repetitive digital signal of a specific pattern when the input signal 103 is at the rHJ level.

On the other hand, the monostable circuit 14 outputs the "H" level when the input signal 103 changes from the "L" level to the rHJ level, and outputs the rHJ level (selection signal) at a certain time constant. The time constant at this time is that the input signal 103 is rHJ, “L
The value shall be such that the rHJ level continues while the level is repeated.

Then, the output signal 104 of the Ill stabilization circuit 14 becomes "H".
At the level, the high efficiency speech encoding circuit 11 is reset. The selection circuit 15 selects the output signal 10 of the monostable circuit 14.
4, the output signal 102 of the high efficiency speech encoding circuit 11
or the output signal 105 of the pattern generation circuit 13 is selected and sent to the transmission line 31 via the output terminal 2.

Here, the selection circuit 14 selects the input signal 102 when the input signal 104 is at rLJ level, and selects the input signal 105 when it is at rHJ level. Therefore, in a high-efficiency speech encoding device, when an in-band ringer signal is not input, a highly-efficient speech-encoded digital signal is sent to the transmission path, and when an in-band linger signal is input, the digital signal is sent to the transmission path. A digital signal of a specific pattern synchronized with the band ringer signal is sent to the transmission line 31.

In the high-efficiency speech decoding device, a digital signal sent from the transmission line 31 is input to the high-efficiency speech decoding circuit 21 and the pattern detection circuit 22 via the reception input terminal 3.

The high-efficiency audio decoding circuit 21 is a circuit that decodes an input digital signal with high efficiency.
1 is encoded by the high-efficiency speech encoding circuit 11 of the high-efficiency speech encoding device on the transmitting side, the output signal 202 of the high-efficiency speech decoding circuit 21 is encoded by the high-efficiency speech encoding circuit 11 Same as input signal. Further, the pattern detection circuit 22 is a circuit that detects a digital signal of a specific pattern inserted from the input signal 201 on the transmission side, and when a specific pattern is detected, the output signal 20 of the pattern detection circuit 22 is
3 becomes the rHJ level (pattern detection signal), and at other times it becomes the "L" level. The output signal 203 of the pattern detection circuit 22 is input to the in-band ringer signal generation circuit 23 and the monostable circuit 24. The in-band ringer signal generation circuit 23 is a circuit that generates a single tone signal of a specific frequency based on the input signal 203.
3 outputs a single tone signal when it is at the rHJ level. Furthermore, the monostable circuit 24 outputs the rHJ level (selection signal) when the input signal 203 changes from the rLJ level to the rHJ level, and outputs the rHJ level with a certain time constant.

The time constant at this time is set to a value such that the rHJ level continues while the input signal 203 repeats the rHJ and rLJ levels. Then, the output signal 204 of the monostable circuit 24
When is at the rHJ level, the high efficiency speech decoding circuit 21 is reset. The selection circuit 25 selects the output signal 2 of the high efficiency speech decoding circuit 21 based on the output signal 204 of the monostable circuit 24.
02 or the output signal 205 of the in-band ringer signal generation circuit 23 is selected and outputted through the reception output terminal 4. Here, the selection circuit 25 selects that the input signal 204 is r
When it is at LJ level, input signal 202 is selected and rHJ
At the level, input signal 205 is selected. Therefore,
The high-efficiency audio decoding device outputs a highly efficient decoded signal when a digital signal other than a specific pattern is input from the transmission line 31, and outputs an in-band signal when a digital signal with a specific pattern is input. Outputs a ringer signal (single tone signal).

Next, the operation of the conventional example will be explained with reference to FIGS. 3 and 4.

FIG. 3(a) shows the waveform 101 of the audio input signal on the transmitting side (high-efficiency speech encoding device), FIG. 3(b) shows the output waveform 102 of the high-efficiency speech encoding circuit 11, and FIG. ) is the output waveform 103 of the in-band ringer signal detection circuit 12, FIG. 3(d) is the output waveform 105 of the pattern generation circuit 13,
3(e) shows the output waveform 104 of the monostable circuit 14, and FIG. 3(r) shows the output waveform 106 of the selection circuit 15.

FIG. 3(a) shows the waveforms of input signals in silent section 1, in-band linger signal transmission section, silent section 2, and speech section, and there is a burst-like single-tone signal in the in-band linger signal transmission section. , indicates that a normal voice signal is present in the call section.

FIG. 3(b) shows a digital signal obtained by high-efficiency encoding the signal of FIG. 3(a) in the high-efficiency speech encoding circuit 11.

FIG. 3(C) shows the in-band ringer signal detection circuit 1 when there is a single signal of a specific frequency in the signal of FIG. 3(a).
2 indicates that the rHJ level is transmitted.

FIG. 3(d) shows that when the input of the pattern generation circuit 13 reaches the rHJ level, a repeating digital signal of a specific pattern is outputted to its output.

Figure 3(e) shows r at the rising edge of the signal in Figure 3(C).
It shows the output of the monostable circuit 14 that operates to reach the HJ level, and shows that its time constant is longer than the repetition period of the in-band ringer signal.

In Fig. 3(f), when the signal in Fig. 3(e) is at the rLJ level, the signals A and E in Fig. 3(b) are output, and when the signal in Fig. 3(d) is at the rHJ level, the signals B and C in Fig. 3(d) are output. , D is output. Here, A and E indicate portions of a digital signal subjected to high-efficiency speech encoding, and B, C, and D indicate portions of a digital signal repeating a specific pattern.

FIG. 4(a) shows the waveform 201 of the input signal from the transmission line 31 on the receiving side (high-efficiency speech decoding device), and FIG.
) is the output waveform 203 of the pattern detection circuit 22, Figure 4 (e) is the output waveform 205 of the in-band ringer signal generation circuit 23, and Figure 4 (d) is the output waveform 20 of the monostable circuit 24.
4. FIG. 4(e) shows the output waveform 202 of the high-efficiency speech decoding circuit 21, and FIG. 4() shows the output waveform 206 of the selection circuit 25.

FIG. 4(a) shows digital signals inputted from the transmission line 31, including digital signals A and E that have been subjected to high-efficiency speech encoding, a repetitive digital signal B with a specific pattern,
Indicates that it consists of C and D.

In FIG. 4(b), the above-mentioned repeating pattern is detected from the signal in FIG. 4<a), and when the repeating pattern exists, the rHJ level is output from the pattern detection circuit 22.

FIG. 4(C) shows that when the input signal of the in-band ringer signal generation circuit 23 reaches the rHJ level, a single tone signal of a specific frequency is output.

Figure 4(d) shows "
It shows the output of the monostable circuit 24 that operates to attain the "H" level, and its time constant is the same as that on the transmitting side.

FIG. 4(e) shows the output of the high-efficiency audio decoding circuit 21. When the signal in FIG. 4(d) is at the rHJ level, the output is made silent, and when the signal is at the rLJ level, it is output from the input digital signal. Indicates that the signal will be played back.

Figure 4 () shows that when the signal in Figure 4 (d) is at the rLJ level, the signals A' and E' in Figure 4 (e) are output, and when the signal in Figure 4 (c) is at the rHJ level, the signal B' in Figure 4 (c) is output. , C' and D' are output. Here, A' and E' are high-efficiency speech decoded parts, and B'C' and D' are in-band ringer signal parts.

[Problem to be solved by the invention]

High-efficiency speech coding compatible with conventional in-band ringer signals/
A decoding device is a device that detects a burst-like single tone signaling signal of a specific frequency within the audio band, converts it into a specific pattern of digital signal, and transmits it. The drawback is that it can only support in-band ringer signals of specific frequencies.

[Means to solve the problem]

In order to solve the above problems, a highly efficient audio encoding/decoding device according to the present invention encodes an audio input signal input from a transmission input terminal, and sends the encoded signal to a transmission path via a transmission output terminal. a high-efficiency speech encoding device that sends out a transmission signal as a transmission signal to a reception input terminal, which receives the transmission signal from the transmission path as a reception signal through a reception input terminal, decodes the reception signal, and sends the decoded signal to a reception input terminal; and a high-efficiency audio decoding device that outputs the audio output signal as an audio output signal via the high-efficiency audio encoding/decoding device, the high-efficiency audio encoding device highly-efficiently encodes the audio input signal, a high-efficiency audio encoding circuit that outputs a highly efficient encoded signal; an in-band ringer signal detection circuit; a first pattern generation circuit that outputs a first specific pattern of digital signals while the first single-tone detection signal is present; and the first single-tone detection circuit; While the signal is present in bursts,
a first monostable circuit that resets the high-efficiency audio encoding circuit at the same time as outputting a first selection signal; and a single tone signal of a second specific frequency different from the first specific frequency from the audio input signal. a second in-band ringer signal detection circuit that detects and outputs a second single-tone detection signal, and outputs a second specific pattern of digital signals while the second single-tone detection signal is present; a second pattern generating circuit for detecting a single sound; while the second single sound detection signal exists in a burst manner;
a second monostable circuit that resets the high-efficiency speech encoding circuit at the same time as outputting a second selection signal; receiving a digital signal of a specific pattern, selecting the digital signal of the first specific pattern in response to the first selection signal, and selecting the digital signal of the second specific pattern in response to the second selection signal; a first selection circuit that selects the signal, otherwise selects the high-efficiency encoded signal, and outputs the selected signal as the transmission signal via the transmission output terminal; The high-efficiency audio decoding device includes: a high-efficiency audio decoding circuit that decodes the received signal with high efficiency and outputs the highly efficiently decoded signal; and a digital signal of the first specific pattern from the received signal. detect,
While the first pattern detection circuit outputs the first pattern detection signal and the first pattern detection signal is present,
a first in-band ringer signal generation circuit that outputs a first single-tone signal equal to the first specific frequency; a third monostable circuit that outputs a selection signal and simultaneously resets the high-efficiency audio decoding circuit; detects a digital signal of the second specific pattern from the received signal and outputs a second pattern detection signal; Second to do
a second in-band ringer signal generation circuit that outputs a second single tone signal equal to the second specific frequency while the second pattern detection signal is present; a fourth monostable circuit that continuously outputs a fourth selection signal while the second pattern detection signal exists in a burst manner and simultaneously resets the high efficiency audio decoding circuit; the first rli-tone signal, and the second single-tone signal, select the first single-tone signal in response to the third selection signal, and select the first single-tone signal in response to the third selection signal; selecting the second single tone signal in response to a selection signal, otherwise selecting the high efficiency decoded signal, and using the selected signal as the audio output signal to output the receiving output terminal; and a second selection circuit that outputs the output through the second selection circuit.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of a high-efficiency speech encoding/decoding apparatus according to an embodiment of the present invention, and the same parts as in the conventional example are indicated by the same symbols and explanations will be omitted.

On the transmission side (high-efficiency speech encoding device) shown in FIG.
One sends out the high-efficiency encoded digital number 15 to the transmission line 31. When the in-band ringer signal of the first specific frequency is input, the in-band ringer signal detection circuit 112 and the pattern generation circuit 113 connected thereto
Using the monostable circuit 14, the selection circuit 19 sends the first specific pattern digital signal output from the pattern generation circuit 113 to the transmission line 31.

Furthermore, when the in-band ringer signal of the second specific frequency is input, the selection circuit 19 is output from the pattern generating circuit 117 by the in-band ringer signal detecting circuit 16, the pattern generating circuit [17] connected thereto, and the monostable circuit 18. The digital signal of the second specific pattern to be output is transmitted to the transmission line 3.
Send to 1.

Here, the first specific frequency and the second specific frequency are different, and similarly, the digital signal of the first specific pattern and the digital signal of the second specific pattern are also different.

On the receiving side (high efficiency speech decoding device), the transmission line 31
The digital signal inputted through is highly efficiently decoded by the high efficiency audio decoding circuit 21, and the selection circuit 29 normally outputs the highly efficiently decoded signal. When the digital signal of the first specific pattern is input, the pattern detection circuit I22, the in-band ringer signal generation circuit 123 and the monostable circuit 24 connected thereto select the selection circuit 2.
Reference numeral 9 selects and outputs the in-band ringer signal of the first specific frequency output from the in-band ringer signal generation circuit 123. When the second specific pattern digital signal is input, the pattern detection circuit n26 and the in-band ringer signal generation circuit 1127 and monostable circuit 28 connected thereto select the selection circuit 29 from the in-band ringer signal generation circuit 27. The in-band ringer signal of the second specific frequency is selected and output.

〔Effect of the invention〕

As explained above, the present invention detects two types of single tone signals of specific frequencies on the transmitting side (high-efficiency speech encoding device), and determines the presence or absence of the signals based on the presence or absence of digital signals of different specific patterns. The receiving side (high-efficiency speech decoding device) detects two types of specific patterns of digital signals, and outputs the presence or absence of the signals as a single sound with a different specific frequency, thereby creating a high-efficiency speech code. This has the advantage that the encoding/decoding device can handle in-band ringer signals of two types of frequencies. From this, it is easy to guess a method for realizing a highly efficient speech encoding/decoding device that can handle in-band ringer signals of two or more types of frequencies.

Circuit, 22.26...Pattern detection circuit 1. II, 2
3.27...In-band ringer signal generation circuit ■.

■, 24.28... Monostable circuit, 25.29... Selection circuit, 31... Transmission line, 101-109, 201-
208...Signal line.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of a high-efficiency speech encoding/decoding device according to an embodiment of the present invention, FIG. 2 is a block diagram showing the configuration of a conventional high-efficiency speech encoding/decoding device, and FIG. 3 is a waveform diagram showing an example of the waveform of each signal on the transmitting side in FIG. 2, and FIG. 4 is a waveform diagram showing an example of the waveform of each signal f and 7 on the receiving side. 1.3...Input terminal, 2.4...Output terminal, 11.
・・High efficiency speech encoding circuit, 12.16 ・・In-band ringer signal detection circuit T, II, 13.17 ・・Pattern generation circuit I, ■, 14.18 ・・Monostable circuit, 1
5.19... Selection circuit, 21... High efficiency speech decoding Figure 2 Figure Figure 5

Claims (1)

[Claims] 1. A high-efficiency audio encoding device that encodes an audio input signal input from a transmission input terminal and sends the encoded signal as a transmission signal to a transmission path via a transmission output terminal; High-efficiency audio decoding that receives the transmission signal from the transmission path as a reception signal through a reception input terminal, decodes the reception signal, and outputs the decoded signal as an audio output signal through a reception output terminal. High-efficiency speech coding with equipment/
In the decoding device, the high-efficiency speech coding device includes: a high-efficiency speech coding circuit that performs high-efficiency coding on the speech input signal and outputs a highly-efficiently coded signal; a first in-band ringer signal detection circuit that detects a single tone signal of one specific frequency and outputs a first single tone detection signal; a first pattern generation circuit that outputs a digital signal of one specific pattern; while the first single sound detection signal exists in a burst manner;
a first monostable circuit that resets the high-efficiency audio encoding circuit at the same time as outputting a first selection signal; and a single tone signal of a second specific frequency different from the first specific frequency from the audio input signal. a second in-band ringer signal detection circuit that detects and outputs a second single-tone detection signal, and outputs a second specific pattern of digital signals while the second single-tone detection signal is present; a second pattern generating circuit for detecting a single sound; while the second single sound detection signal exists in a burst manner;
a second monostable circuit that resets the high-efficiency speech encoding circuit at the same time as outputting a second selection signal; receiving a digital signal of a specific pattern, selecting the digital signal of the first specific pattern in response to the first selection signal, and selecting the digital signal of the second specific pattern in response to the second selection signal; a first selection circuit that selects the signal, otherwise selects the high-efficiency encoded signal, and outputs the selected signal as the transmission signal via the transmission output terminal; The high-efficiency audio decoding device includes: a high-efficiency audio decoding circuit that decodes the received signal with high efficiency and outputs the highly efficiently decoded signal; and a digital signal of the first specific pattern from the received signal. detect,
a first pattern detection circuit that outputs a first pattern detection signal; and while the first pattern detection signal is present, the first pattern detection circuit outputs the first pattern detection signal;
a first single tone signal that outputs a first single tone signal equal to a specific frequency of
and a third in-band ringer signal generation circuit that continuously outputs a third selection signal while the first pattern detection signal exists in a burst manner and simultaneously resets the high-efficiency speech decoding circuit. a second monostable circuit that detects the second specific pattern digital signal from the received signal and outputs a second pattern detection signal;
a pattern detection circuit; and while the second pattern detection signal is present, the second pattern detection circuit
a second single tone signal equal to a particular frequency of
and a fourth in-band ringer signal generation circuit that continuously outputs a fourth selection signal while the second pattern detection signal exists in a burst manner and simultaneously resets the high-efficiency audio decoding circuit. a monostable circuit; the high efficiency decoded signal, the first monotone signal;
and receiving the second single tone signal, selecting the first single tone signal in response to the third selection signal, and selecting the second single tone signal in response to the fourth selection signal. selecting the sound signal; otherwise selecting the high-efficiency decoded signal;
and a second selection circuit that outputs the selected signal as the audio output signal via the reception output terminal.