JPH0748699B2 - Adaptive controller of adaptive quantizer - Google Patents

Description

The present invention relates to an adaptive quantizer used in an adaptive differential PCM coding system (hereinafter referred to as ADPCM system) and the like, and particularly to an ADPCM code when a modem signal is input. The present invention relates to an adaptive control unit of an adaptive quantizer suitable for reducing the rise time of the unit.

[Conventional technology]

Regarding the ADPCM system, IEE, Global Telecommunications Conference (1984), pages 23.1.1 and 231.4 (IEE
E, GLOBAL TELECOMUNICATIONS CONFERENCE 1984,23 ・ 1
As discussed in 1-23.1.4), the speed of adaptation of the quantizer is changed depending on whether there is an input signal or a modem signal. DLQ (Dynamic Locking Quantizer) has been used as a method to make this change.
Is used. This speech for fast adaptive variable y _u and modem slow adaptive variable y _l speed control parameters a _l
The quantizer adaptive variable y is y (k + 1) = a _l (k + 1) * y _l (k) + (1-a _l (k + 1) * y _u (k), where a _l = when a modem signal is input
1. By setting a _l = 0 when a voice signal is input, the adaptive speed of the quantizer is set in conformity with the input signal.

[Problems to be solved by the invention]

FIG. 3 shows the high-speed adaptive variable y _u when a modem signal is input.
And the process of changing the slow adaptation variable y _l . t ₀ is the time when the signal is input, t ₁ is the time when the speed control parameter a _l is the first for the modem (a _l = 1), t ₂ is the low speed adaptive variable for the modem y _l is the most _suitable for the input signal represents the time at which converges to a value, m ₁ is the value of time t ₁ slow adaptive variable for in modem y _l, m ₂ is the value of the time t ₂ slow adaptive variable for in modem y _l, m ₃ is the high-speed adaptive variable for voice y _{u at} time t _1.
Indicates the value of.

As can be seen from this graph, the low-speed adaptive variable for modem y _{l at} time t ₁ has the value m ₁ , so it takes an additional time of t ₂ −t ₁ to converge to the value m _2. is there. And during that time, since the speed control parameter a _l is for the modem, it takes a long time to start up the ADPCM encoder,
There arises a problem that the optimum adaptive quantization cannot be performed on the input signal.

An object of the present invention is to provide an adaptive control unit of an adaptive quantizer which can shorten the convergence time of low-speed adaptive variables for modems and can perform optimal adaptive quantization earlier.

[Means for Solving the Problems] The above-mentioned object is to determine the value of the low-speed adaptive variable y _l for the modem at the time when the speed control parameter a _l changes for the modem (time t _{1 in} FIG. 3). by the in speech for high-speed values of the adaptive variable y _u (the value of the third Fig m ₃₎ at the time, it is achieved.

[Action]

The low-speed adaptive variable y _l for the modem is set to the value of the high-speed adaptive variable for voice only when the speed control parameter a _l first becomes the value for the modem (a _l = 1), and thereafter, the variable value is set to the initial value. As a result, the update is performed by the update formula of the slow adaptive variable.
As a result, the value of the slow adaptation variable after convergence does not become unstable, and the start-up time of the ADPCM encoder is shortened.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2.

FIG. 2 is a block diagram of an adaptive control unit of the adaptive quantizer according to an embodiment of the present invention. In FIG. 2, when the output I (k) of the quantizer (not shown) of the adaptive quantizer is input, the speed control parameter a _l calculation circuit 31 outputs a _l = 1 and the input signal is a _l when the input signal is a modem signal. In the case of a voice signal, the parameter a _l is controlled so that a _l = 0 and is output to the adaptive variable calculation circuit 34. High-speed applied variable for voice
The y _l generation circuit 32 calculates, for example, y _l (k + 1) = (1−β ₁ ) _yu (k) + M (I (k)) (1) from the quantization result I (k). Then, the calculation result _yu is output to the adaptive variable calculation circuit 34 and the modem low-speed adaptive variable _yu generation circuit 33. In the equation (1), M (I (k)) is the adaptive variable update amount,
(1-β ₁ ) is a leak constant and 0 <1-β ₁ <1.
Modem low-speed adaptive variable y _l generating circuit 33, the a high-speed application variables y _u (k), for _{example, y l (k + 1)} = (1-β 2) y l (k) + β 2 y u (k) ... The calculation of (2) is performed and the calculation result y _l is output to the adaptive variable calculation circuit 34. Note that β ₂ << β ₁ in the expression (2).

In the adaptive variable calculation circuit 34, the first from the input a _l , y _u , y _l
The adaptive variable y (k) is determined by performing the processing shown in the figure.
First, the presence or absence of an input signal is determined by the value of the adaptive variable.
When the result of this determination is that there is no input signal, a flag described later is reset and the adaptive variable y (k) is calculated by the following equation (3).
To calculate.

y (k + 1) = a l (k + 1) * y l (k) + (1-a l (k + 1) * y l (k) ...
(3) The flag indicates whether or not there is a sample determined to be a modem signal before the current sample after the signal is input. That is, the operation is such that the sample is present, the flag is set, the sample is not present, and the flag is reset.

If there is an input signal, it is determined whether the input signal is a voice signal or a modem signal based on the value of the speed control parameter a _l . When the input signal is a voice signal, since the rise time is originally short, the adaptive variable y (k) is updated as it is by the equation (3).

If the input signal is a modem signal, the flag determines whether or not the modem signal was input before the current sample. When the flag is set, the adaptive variable y (k) is updated by the equation (3). If the flag is in the reset state, it is determined that the modem signal is input for the first time. In this case, the adaptive variable y is immediately added to the equation (3).
When (k) is calculated, the start-up time is delayed as described with reference to FIG. Therefore, the slow adaptation variable y _{l at the} current time
_Is set to the value of the fast adaptive variable y _u , and then a flag is set so that y _l → y _u will not be executed in the subsequent processing, and then the calculation of equation (3) is performed.

By doing this, AD at the time of modem signal input
Increase the start-up time of the PCM encoder.

〔The invention's effect〕

According to the present invention, the convergence time of the quantizer adaptation variable can be shortened when a modem signal is input, and more stable adaptive control can be performed.

[Brief description of drawings]

FIG. 1 is a flowchart of an adaptive variable calculation processing procedure executed by an adaptive control unit according to an embodiment of the present invention, and FIG. 2 is a block configuration diagram of the adaptive control unit that performs the processing shown in FIG.
FIG. 3 is a graph showing the changing process of the high speed adaptation variable and the low speed adaptation variable when a modem signal is input. 31 …… Speed control parameter calculation circuit, 32…
… High-speed adaptive variable calculation circuit, 33 …… Slow-speed adaptive variable calculation circuit, 34 …… Adaptive variable calculation circuit.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshiro Suzuki 1-280, Higashikoigakubo, Kokubunji, Tokyo Inside Central Research Laboratory, Hitachi, Ltd. (56) Reference JP-A-61-56533 (JP, A) JP-A-62 -248327 (JP, A)

Claims (1)

[Claims] 1. A means for generating a high-speed adaptive variable for voice from a quantization result, a means for generating a low-speed adaptive variable for a modem from the high-speed adaptive variable for voice, and an adaptation speed being changed based on the quantization result. Of the adaptive quantizer having means for generating an adaptive variable for the quantizer from the speed adaptive parameter for voice, the low speed adaptive variable for modem, and the speed control parameter. The adaptive control unit is provided with means for changing the value of the low-speed adaptive variable for modem at the time when the input signal is first determined to be a modem signal to the value of the high-speed adaptive variable for voice at that time. An adaptive controller of the adaptive quantizer.