KR100369997B1 - Method for vocoding apply variable frame rate according error rate - Google Patents

Abstract

In the mobile communication system, a vocoding method using a variable frame rate according to an error rate that determines the frame rate of the vocoder in consideration of the frame error rate generated in the forward or reverse link in order to provide better sound quality even in a poor propagation environment. A frame error rate threshold (T) for maintaining a minimum sound quality for a vocoder operated at a variable frame rate, and an error for a voice frame of a forward or reverse link is observed, and thus the current frame rate Calculating a frame error rate (E), calculating an error rate for each frame rate of a plurality of frame rates, and calculating the frame error rate (E) of the calculated current frame rate and the preset frame error rate threshold value (T). ) And according to the comparison result, In the later frame rate determination process, a frame rate having a high error rate is excluded from the calculated error rates for each of the plurality of frame rates, and a frame rate having a low error rate is selected and vocoded, and the sound quality is improved even in a poor propagation environment. The present invention relates to a vocoding method using a variable frame rate according to an error rate that can be maintained.

Description

Method for vocoding apply variable frame rate according error rate}

According to the present invention, in the vocoding of a mobile communication system, a variable frame rate according to an error rate that determines a frame rate of a vocoder in consideration of a frame error rate generated in a forward or reverse link in order to provide better sound quality even in a poor propagation environment. It relates to a vocoding method applied.

In general, in a CDMA system, a vocoder is designed at a variable rate of 8 Kbps per second, and a variable frame rate bidirectional voice service provides a voice communication using a dynamic variable frame rate vocoder algorithm between a base station and a mobile station.

The transmitting vocoder samples the speech and then generates an encoded speech packet to be sent to the receiving vocoder. The receiving vocoder decodes the received speech packet into speech samples. It communicates using a four-step frame rate of 1200 bps.

The frame rate is selected according to the operating conditions and the message or data entered. The vocoding algorithm used is CELP (Code Excited Linear Predication), and the CDMA system's dedicated algorithm is QCELP ).

More specifically, in the speech coding algorithm, the vocoder's frame rate is determined by the voice activity, which is the silence frame, the voice start, the voice section, the voice end, and then the silence frame. The frame rate is determined by using the adaptive thresholds T1, T2, and T3 that are adjusted according to the energy of each section and the magnitude of the background noise.

In other words, the frame rate of an 8Kbps Vocoder operating at variable rates of 8, 4, 2 and 1Kbps, corresponding to channel rates of 9.6, 4.8, 2.4 and 1.2Kbps, respectively, is determined by the energy [R] of the audio frame input to the vocoder. (0)] and the adaptation thresholds T1, T2, and T3.

Assuming that the adaptive threshold is T1 < T2 < T3, the energy [R (0)] of the speech frame is compared with the thresholds T1, T2, and T3, where R (0) is the threshold T1, T2, T3. If all are greater than Full Rate, choose Full Rate = Rate 1, if R (0) is greater than T1, T2, choose Half Rate = Half 1/2, and if R (0) is Threshold If it is larger than T1, the quarter rate (Quarter Rate = Rate 1/4) is selected. If R (0) is not greater than any of the thresholds T1, T2, and T3, the 1/8 rate is selected.

The initial frame rate thus selected is reduced with a certain constraint according to the voice activity, and there is no limitation in increasing the frame rate.

For example, if the previous frame rate was encoded at full rate (Rate 1) and the frame rate selected for the current frame is rate 1/4 or rate 1/8, then the frame rate is selected as rate 1/2. Similarly, if the previous frame rate was encoded at half rate (Rate 1/2) and the frame rate selected for the current frame is rate 1/8, then the frame rate is selected at rate 1/4.

However, if the previous frame rate was encoded at the quarter rate (Rate 1/4) and the selected frame rate for the current frame is rate 1/2, then the frame rate is selected as rate 1/2, and the previous frame rate is 1 / If it is encoded at 8 rates (Rate 1/8) and the selected frame rate for the current frame is rate 1/2, then the frame rate is also selected as rate 1/2.

Therefore, using the variable rate vocoder algorithm according to the related art described above has the advantage that the capacity of the system is increased by varying the frame rate according to the voice activity, but the voice activity is increased. Since only the voice frame rate is changed, it is not possible to improve the degradation of voice quality due to an increase in the frame error rate or bit error rate in the actual vocoding process.

The present invention has been made to solve such a problem, and the variable frame rate caused by the voice activity is not only applied, but may be generated on the channel in consideration of the error rate for each frame rate generated in the forward or reverse link. An object of the present invention is to provide a vocoding method using a variable frame rate according to an error rate for vocoding a relatively strong frame rate against an error.

In the vocoding method using a variable frame rate according to the error rate according to the present invention for achieving the above object, setting a frame error rate threshold (T) that can maintain a minimum sound quality for a vocoder operated at a variable frame rate Observing an error for a voice frame of a forward or reverse link, calculating a frame error rate E of a current frame rate, calculating an error rate for each frame rate of a plurality of frame rates, and Comparing the calculated frame error rate (E) of the current frame rate and the predetermined frame error rate threshold value (T), and according to the plurality of calculated frame rates in the subsequent frame rate determination process according to the comparison result Frame rate with low error rate is excluded by eliminating frame rate with high error rate. It comprises a step of selecting the vocoding.

Preferably, in a subsequent frame rate being determined according to the calculated error rates for each frame rate of the plurality of frame rates, the determination of the frame rate with the low error rate and the frame rate with the high error rate is based on actual field experience. Is done.

In the subsequent frame rate determination process, the maximum frame rate and the minimum frame rate are used in the step of excluding a frame rate having a high error rate among the error rates for each frame rate and selecting and vocoding a frame rate having a low error rate.

In addition, among the frame rate error rates, a high error rate frame rate and a low error rate frame rate are used to reset the maximum frame rate and the minimum frame rate, and an optional vocoder may be selectively used to vocode at a relatively good frame rate. You will use dual vocoder mode.

1 is a block diagram illustrating some components of a mobile communication system for vocoding;

2 is a flowchart illustrating a vocoding method using a variable frame rate according to an error rate according to the present invention.

3 is a flowchart illustrating a method of resetting a maximum frame rate and a minimum frame rate according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: terminal 20: selector / vocoder card

21: Selector 22: Vocoder

Hereinafter, a preferred embodiment of a vocoding method using a variable frame rate according to an error rate according to the present invention will be described with reference to the accompanying drawings.

1 is a block diagram illustrating some components of a mobile communication system for vocoding.

In the present invention, when the selector 21 observes the frame error rate in the forward and reverse directions, and the observed frame error rate is higher than any other, the vocoder 22 included in the terminal 10 and the base station controller 30 is generated on the channel. It is controlled to change at a relatively strong frame rate against possible errors.

In addition, if it is determined that the vocoder 22 of the terminal 10 and the base station control device 30 is a poor propagation environment, another vocoder may be vocoded at a strong frame rate to the actual poor propagation environment under the control of the selector 21. You can also adopt dual vocoder mode that can be switched to.

2 is a flowchart illustrating a vocoding method using a variable frame rate according to an error rate according to the present invention.

Referring to FIG. 2, a vocoding method applying a variable frame rate according to the frame error rate will be described in more detail.

First, a frame error rate threshold T that can maintain minimum sound quality is set for a vocoder operated at a variable frame rate (S1). Here, the frame error rate threshold T is determined based on the statistical value after collecting the frame error rate that can guarantee the minimum sound quality in consideration of various channel environments.

The selector observes the frame error rate of the forward link or the reverse link (S2), calculates the frame error rate E accordingly (S3), and calculates the error rate for each frame rate (S4).

In this case, when the calculated frame error rate E and the frame error rate threshold T are compared (S5), when the frame error rate E exceeds the frame error rate threshold T, the calculated error rate for each frame rate is calculated. We observe that the relatively good (low error rate) and relatively poor (high error) frame rates are obtained, and the maximum frame rate and the minimum frame rate can be determined so that they can be reflected in subsequent frame decisions. After the resetting process (S7) and vocoding (S9).

However, if the frame error rate E does not exceed the frame error rate threshold value T, the previous maximum frame rate and minimum frame rate are maintained as they are and used for vocoding (S8, S9).

3 is a flowchart illustrating a method of resetting a maximum frame rate and a minimum frame rate according to the present invention.

Referring to FIG. 3, in order to reset the maximum frame rate and the minimum frame rate in the vocoder to which the variable frame rate according to the frame error rate is applied, when the calculated frame error rate E exceeds the frame error rate threshold T Will be followed. In addition, the size of the frame rate to be mentioned in the following description will be smaller in order of full rate, half rate, quarter rate, and 1/8 rate.

First, the maximum frame rate is reset to a relatively excellent frame rate by observing the calculated error rate for each frame rate (S10).

In order to reset the minimum frame rate, the calculated error rate for each frame rate is observed to determine whether a relatively poor (high error rate) frame rate is smaller than a relatively good (high error rate) frame rate (S20).

As a result of the determination, if the poor (high error rate) frame rate is smaller than the good (low error rate) frame rate, the minimum frame rate is reset to a frame rate one greater than the bad frame rate (S30). In addition, if the poor frame rate is greater than the excellent frame rate, the minimum frame rate is maintained in the previous state (S40).

For example, if the relatively good frame rate is full rate and the relatively poor frame rate is half rate, then the maximum frame rate and the minimum frame rate are reset to full rate and then Are all vocoded at full rate.

In addition, when the relatively good frame rate is half rate and the relatively poor frame rate is full rate, the half rate is reset to the maximum frame rate, and the minimum frame rate maintains the previous frame rate.

The vocoding method using a variable frame rate according to the frame error rate described above shows a case where the maximum frame rate is used as the full rate and the minimum frame rate as 1/8 rate.

However, in exceptional cases, the present invention selectively adopts a dual vocoder mode that can be switched to another vocoder so as to vocode at a strong frame rate to the actual poor propagation environment.

As described above, according to the vocoding method using a variable frame rate according to the error rate according to the present invention, a frame rate relatively strong against an error that may occur on a channel in consideration of a frame error rate generated in a forward or reverse link By changing the vocoding to, it is possible to maintain better sound quality even in a poor propagation environment.

Claims (4)

Setting a frame error rate threshold (T) for vocoder operating at a variable frame rate, the minimum sound quality being maintained; Observing an error for a voice frame of the forward or reverse link, and calculating a frame error rate (E) of the current frame rate accordingly; Calculating an error rate for each frame rate of the plurality of frame rates; Comparing the calculated frame error rate (E) of the current frame rate with the preset frame error rate threshold (T); According to the comparison result, in the subsequent frame rate determination process, a frame rate having a high error rate is excluded, and a frame rate having a low error rate is selected and vocoded. A vocoding method using a variable frame rate according to the error rate. The method according to claim 1, wherein the subsequent frame rate is determined according to the calculated error rates for each frame rate of the plurality of frame rates. A vocoding method using a variable frame rate according to the error rate, characterized in that made by. The method of claim 1, wherein in the subsequent frame rate determination process, a frame rate having a high error rate is excluded from the error rate of each frame rate, and a frame rate having a low error rate is selected and vocoded. The vocoding method to which the variable frame rate according to the error rate is applied. 4. The method of claim 3, wherein an error rate frame rate and a low error rate frame rate among the error rates for each frame rate are used to reset the maximum frame rate and the minimum frame rate, and can be vocoded at a relatively good frame rate. A vocoding method using a variable frame rate according to an error rate, characterized by using a dual vocoder mode that can selectively use a vocoder.