JP2819549B2 - ADPCM voice detector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an ADPCM (Adaptive Differential Pulse Cod).
e Modulation) signal, and relates to an ADPCM audio detector that determines the presence or absence of an audio signal. [Prior Art] Conventionally, this kind of voice detection circuit is incorporated in a digital voice insertion device capable of effectively using a transmission path, and determines whether or not a voice signal is present in an input channel to the digital voice insertion device. Usually used for nonlinear PC
The M signal is input and the voice is detected. [Problems to be Solved by the Invention] The conventional speech detection circuit described above requires a speech detection circuit for use in a device that combines the digital speech insertion device with an ADPCM encoding device that enables low bit rate transmission. Since an ADPCM decoder needs to be added before and after the circuit, there is a disadvantage that the circuit scale becomes large. [Means for Solving the Problems] The ADPCM voice detection circuit of the present invention calculates a first-order linear combination coefficient from the ADPCM signal and the scale factor, and then uses the first-order linear combination coefficient and the ADPCM signal to re-apply the scale to the speech. Calculate the actor and the scale factor for data optimization, then output the scale factor represented by a linear combination of the two, and compare the scale factor for audio optimization with a predetermined threshold to determine the audio The presence or absence of a signal is determined, and when the signal with the audio signal is changed to the signal without the audio signal, a predetermined time is added to the signal with the audio signal as a sound section and output. [Operation] The present invention does not perform PCM decoding of the ADPCM input signal,
Voice detection can be performed with the ADPCM code as it is. FIG. 1 is a block diagram showing one embodiment of an ADPCM voice detection circuit according to the present invention. In the figure, 1 is an input terminal for inputting an ADPCM signal, and 2 is an ADPCM signal input to an input terminal 2a.
A speed control calculation circuit that obtains a first-order linear combination coefficient from a signal and a scale factor input to the input terminal 2b and outputs the coefficient from the input terminal 2c, 3 inputs to the input terminal 3a
A scale factor for voice optimization is obtained from the ADPCM signal and the first-order linear combination coefficient input to the input terminal 3b, and the output terminal 3c is obtained.
, A scale factor calculation circuit for outputting a scale factor from an output terminal 3d, 4 is a determination circuit, 5 is an input terminal to which a predetermined threshold is input, 6 is an output holding circuit, and 7 is an output terminal. It is. In addition, the above scale factor encodes (or decodes) ADPCM signals.
The coefficient is used to determine the quantization step size used when the input signal is changed, and varies in proportion to the variance of the input signal. Accordingly, the quantization step size also varies according to the variance of the input signal. When a speech signal having a large variance is input, a quantization step size suitable for the speech signal can be determined. Also, when a data signal with a small variance is input, it is desirable to be able to determine a quantization step size suitable for the data signal. Therefore, the scale factor is represented by a linear combination of the scale factor for voice optimization and the scale factor for data optimization, and when a voice signal is input, the weight of the scale factor for voice optimization increases. When a data signal is input, the weight of the data optimization scale factor increases. By the way, the scale factor for voice optimization is calculated by a first-order linear combination of the input ADPCM signal and the scale factor, and therefore sensitively follows the dispersion fluctuation of the input signal. Next, the operation of the ADPCM voice detection circuit having the above configuration will be described. First, speed control calculation circuit 2
Receives the ADPCM signal input from the input terminal 1 and the scale factor input from the scale factor calculation circuit 3, calculates and outputs the first-order linear combination coefficient to the scale factor calculation circuit 3. Therefore, the scale factor calculation circuit 3 receives the ADPCM signal input from the input terminal 1 and the first-order linear engagement coefficient input from the speed control calculation circuit 42, and executes the scale factor for voice optimization and the scale factor for data optimization. Is calculated, a scale factor expressed by a linear combination of the two is obtained and output from the output terminal 3d to the speed control calculation circuit 2, while a scale factor for voice optimization is output from the output terminal 3c to the judgment circuit 4. I do. In this case, since the scale factor for voice optimization is calculated by a linear combination of the input ADPCM signal and the scale factor, it is possible to sensitively follow the variance of the input signal. Therefore, the judgment circuit 4 compares the input scale factor for audio optimization with a predetermined threshold value input from the input terminal 5 to determine the presence or absence of an audio signal, and outputs a signal indicating the presence of an audio signal to the output holding circuit 6.
Output to Therefore, when the output holding circuit 6 changes from an input signal having an audio signal to a signal having no audio signal, the output holding circuit 6 adds a predetermined time as a sound interval to the signal having the audio signal and outputs the signal. 7 to output. If the recommendation G.721 from the International Telegraph and Telephone Consultative Committee (CCITT) is used as the ADPCM coding algorithm, the above-mentioned speed control calculation circuit 2 becomes an adaptation speed control circuit (Adaptation speed c.
An ontrol circuit) can be applied, and the scale factor calculation circuit 3 can apply a contizer scale factor adaptation (Quantizer seale factor adaptation). [Effects of the Invention] As described in detail above, according to the ADPCM voice detection circuit according to the present invention, voice detection is performed with the ADPCM code as it is without PCM decoding of the ADPCM input signal, so that the circuit scale is reduced There are effects such as being able to be converted.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of an ADPCM voice detection circuit according to the present invention. 1 ... input terminal, 2 ... speed control calculation circuit, 3 ... scale factor calculation circuit, 4 ... determination circuit, 5 ... input terminal, 6 ... output holding circuit, 7 ... output terminal.

Continuation of front page (56) References JP-A-63-172526 (JP, A) JP-A-57-192997 (JP, A) JP-A-63-7043 (JP, A) DRAFT RECOMMENDATION G. 7xx, CCITT ST UDY GROOP XVIII, Geneva, 21-25, November 1983 (58) Fields investigated (Int. Cl. ⁶ , DB name) G10L 3/00-9/18 H03M 3/04-7/38 JICST (JOIS)

Claims (1)

(57) [Claims] A speed control calculation circuit that calculates a first-order linear combination coefficient of the scale factor from the ADPCM signal and the scale factor output from the scale factor calculation circuit, in a voice detector that receives the ADPCM signal and determines the presence or absence of a voice signal; A scale factor calculation circuit for calculating a scale factor for voice optimization, a scale factor for data optimization, and a scale factor obtained by a linear combination of the first and second linear combination coefficients output from the speed control calculation circuit and the ADPCM signal; A decision circuit that compares the scale factor for audio optimization output from the scale factor calculation circuit with a predetermined threshold value to determine the presence or absence of an audio signal; and the output of the determination circuit changes from presence to absence of the audio signal. Judge a predetermined time when An ADPCM speech detector, comprising: an output holding circuit that adds a sound section to an output of the circuit.