KR100438894B1 - Method for deciding on dropping frame in AAL2 switching apparatus - Google Patents

Abstract

Disclosed are a frame discrimination method and a frame drop method for discarding an AAL2 switching device. In the AAL2 switching device of an ATM system, the method of determining a frame to discard according to the present invention comprises the steps of: (a) initializing a frame drop coefficient indicating a rank of a frame to be discarded; (B) step of determining whether the voice information has continuity or voice / silent change, n (> 0, integer) packets consecutively in the step (b) the packet to be transmitted has the continuity with the previous frame If it is determined that there is no voice / silent change while the voice information is increased, the frame drop coefficient of the packet to be transmitted is increased by one, and the packet to be transmitted in steps (c) and (b) proceeds to step (b). (D) initializing the field drop coefficient of the packet to be transmitted if the voice information is not or is not continuous with the previous frame or has voice / silent change. When a voice information frame is inevitably discarded due to lack of bandwidth in an AAL2 switching device of an ATM, a frame having a relatively small effect on a service based on a continuity of a frame and a change in voice / silence is required. First, determine which frames are intentionally discarded so that they can be lost. As such, after selecting frames to be discarded first and then discarding frames to be discarded first when a band shortage is expected, degradation of voice quality due to band shortage can be minimized.

Description

Method for deciding on dropping frame in AAL2 switching apparatus}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an asynchronous transfer mode (ATM) exchange, and more particularly to a frame to discard (drop) in an AAL2 switching device that exchanges ATM Adaptive Layer type 2 (hereinafter, AAL2) traffic. To determine how to determine

Generally, AAL2 trunking and AAL2 switching functions are provided for AAL2 traffic in packet voice service using ATM. Most voice packets to be multiplexed with AAL2 have a real-time variable bit rate, but currently standardized AAL2 traffic control methods do not fully utilize the multiplexing feature, which is one of the advantages of AAL2. Therefore, cell loss may occur due to congestion on a specific path due to multiplexing. In particular, in case of point-to-point multiplexing using the AAL2 switching function, a congestion rate for a specific path is higher than that of the end-to-end fixed path connection method.

SUMMARY OF THE INVENTION The first technical problem to be solved by the present invention is to provide a method for discriminating a discarded frame, which can intentionally discard (drop) a relatively small portion of a voice information frame when the loss of information is inevitable due to lack of bandwidth. There is.

A second technical problem to be solved by the present invention is to provide a recording medium in which the drop frame discrimination method is recorded in a program code executable by a computer.

The third technical problem to be achieved by the present invention is to provide an ATM system to which the discarded frame discrimination method is applied.

1 is a flowchart illustrating an embodiment of a method for determining a discarded frame performed in an AAL2 switching device according to the present invention.

FIG. 2 is a flow diagram illustrating one embodiment of a method of applying a method shown in FIG. 1 to discarding.

In order to achieve the first task, in the AAL2 switching device of the ATM system, the method of determining a discarded frame according to the present invention comprises the steps of: (a) initializing a frame drop coefficient indicating a rank of the discarded frame; (B) determining whether the packet to be transmitted is voice information having a continuity with the previous frame or having a voice / silent change. In step (b), the n (> 0, integer) packets are continuously transmitted. If it is determined that the packet is voice information having continuity with the previous frame and there is no voice / silent change, steps (c) and (b) proceeding to step (b) by increasing the frame drop coefficient of the packet to be transmitted by one. If the packet to be transmitted is not voice information or voice information that is not continuous with the previous frame or has voice / silent change, the field of the packet to be transmitted In step (d), the drop coefficient is initialized.

In order to achieve the third task, first, frames to be lost are selected according to whether or not the frame to be transmitted is voice information, and if the information is continuity with the previous frame and whether voice / silence changes. And an AAL2 switching device, characterized in that for discarding dropped frames.

Hereinafter, a frame determination method and a frame drop method to discard in the AAL2 switching device according to the present invention will be described with reference to the accompanying drawings.

1 is a flowchart illustrating an embodiment of a method for determining a discarded frame performed in an AAL2 switching device according to the present invention.

Referring to FIG. 1, when an AAL2 device is requested to transmit a packet (step 10), first, the AAL2 device initializes a frame drop coefficient FD indicating a rank of a frame to be discarded to zero. The packet header is checked to determine whether the frame to be transmitted is voice information having a continuity with the previous frame or having a voice / silent change (step 22). In step 22, if the packet to be transmitted is not voice information or voice information that is not continuous with the previous frame or has voice / silent change, the frame drop coefficient FD of the packet to be transmitted is initialized (100). step).

Specifically, in step 22, the AAL2 device determines whether the packet to be transmitted is voice information having continuity (step 20). If the packet to be transmitted is not voice information or is a discontinuous voice signal, the AAL2 device determines the frame drop coefficient ( FD) is initialized to 0 (step 100). In this case, the continuity of the packet voice information may be determined using the UUI field indicating the continuity in the CPS packet header. If it is not a packet for voice information such as frame mode data, it is determined as a discontinuous frame and the frame drop coefficient FD is initialized. In other cases, the discontinuity is determined when the frame extracted from the packet buffer is for discarding the frame, or when the frame is extracted from the voice buffer to silent or silent to silent when the frame is extracted from the packet buffer for transmission. As described above, in the case of non-voice information, voice / silent change, or discontinuous voice information, data loss greatly affects voice quality, and thus the frame drop coefficient FD is initialized to zero.

After step 22, the AAL2 device attempts to transmit when it is determined that the packet to be transmitted in step (b) is n (> 0, integer) packets consecutively as voice information having continuity with the previous frame and there is no sound / silent change. The frame drop coefficient of the packet is increased by one (step 24). On the other hand, the determination of the threshold value n can be determined differently according to the characteristics of the voice coding and the connection, such as 6 frames if the silence / silent change discrimination function is used in the case of G.729, or 16 frames. Specifically, when the AAL2 device determines that the packet to be transmitted is voice information having continuity with the previous frame and there is no change in voice / silence, the AAL2 device indicates the continuity with the previous frame. It is determined whether the threshold value n (step 40). At this time, in step 22, if the packet to be transmitted is not voice information or voice information that is not continuous with the previous frame or has a voice / silent change, the continuous coefficient is also included in the packet drop coefficient (FD) of the packet to be transmitted. Initialize to 0 (step 100).

If the continuous coefficient has not yet reached n in step 40, the AAL2 device increases the continuous coefficient by one (step 50). On the other hand, when the continuous coefficient reaches the threshold value n, the AAL2 device initializes the continuous coefficient to 0 (step 60) and increases the value of the frame drop coefficient FD by one (step 32). Here, the continuous coefficient n means that the packet to be transmitted is a voice signal that has continuous continuity for n frames and has no voice / silent change, and thus has continuous continuity for n frames and no voice / silent change. When the voice signal is transmitted, the frame drop coefficient FD is increased by one. At this time, a larger value of the frame drop coefficient FD indicates that the frame does not significantly affect the transmitted audio signal even if discarded.

In detail, in step 32, the AAL2 device determines whether the frame drop coefficient FD has reached m (step 70), and maintains the value if it is determined that the frame drop coefficient FD has been reached m (step 70). Step 90). In contrast, if the frame drop coefficient FD has not reached m in step 70, the frame drop coefficient is increased by one (step 80). Here, m is a value that can be arbitrarily changed, and m = 3 is set in FIG. 3. That is, the frame drop coefficient FD, which indicates the degree of allowance for discarding frames, is from 1 to 3, and when 3 becomes 3, it is a coefficient used to determine frame discard depending on the degree of congestion. The FD factor 3, which has maintained the continuity of the frame for the longest period, is the object of the first discarded frame. This is because the longer the continuity of the frame, the smaller the effect of the loss.

As described above, when the AAL2 switching device of ATM must inevitably discard voice information frames due to lack of bandwidth, frames with relatively small influence on the service based on the continuity of the frame and the change in the voice / silence are lost first. Determine which frames to discard intentionally. As such, after selecting frames to be discarded first and then discarding frames to be discarded first when a band shortage is expected, degradation of voice quality due to band shortage can be minimized.

FIG. 2 is a flow diagram illustrating one embodiment of a method of applying a method shown in FIG. 1 to discarding.

Referring to FIG. 2, packets for cell assembly are registered in a packet list for each ATM connection. At this time, it is stored together with the frame drop coefficient (FD). At this time, if bandwidth congestion is expected, the frame may be discarded using the frame drop coefficient FD. For example, cell assembly for transmission starts according to a promised band, and loss due to congestion may occur when there are many frames to assemble compared to the band. In case of cell loss due to congestion, according to the multi-call characteristic of AAL2, not only the frames included in the cell, but also the frame parts or split frames already transmitted and the parts or split frames to be transmitted to the next cell are discarded. This will greatly affect the various connections. Therefore, preventing cell loss due to congestion can be a great help in maintaining voice quality.

For example, when the value of m is set to 3 in FIG. 2, when congestion is expected, frame discard may be performed by dividing into third order using the frame drop coefficient FD. First, if bandwidth congestion is expected (step 110), the AAL2 device first discards frames having a frame drop coefficient FD of 3 (step 120). As such, if bandwidth congestion continues even after the first frame discarding (step 130), the second frame is discarded again (step 140). In addition, if bandwidth congestion continues after the secondary frame discarding (step 150), the frames having the frame drop coefficient FD of 1 are discarded in the third order. In other words, frames can be discarded in the case of frames having a frame drop coefficient (FD) of 1 or more, but the degradation of voice quality can be minimized by discarding a frame having the longest continuous frame first and discarding a recently discontinuous frame later. have.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, which are also implemented in the form of a carrier wave (for example, transmission over the Internet). It also includes. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

The best embodiments have been disclosed in the drawings and specification above. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, according to the method of discriminating a frame to be discarded in the AAL2 switching device according to the present invention, when the AAL2 switching device of ATM must inevitably discard voice information frames due to lack of bandwidth, the frame continuity and silence / silence On the basis of the change, a frame to be discarded intentionally is determined so that a frame having a relatively small impact on the service may be lost. As such, after selecting frames to be discarded first and then discarding frames to be discarded first when a band shortage is expected, degradation of voice quality due to band shortage can be minimized.

Claims (6)

In the AAL2 switching device of the ATM system, in the method of determining the frame to discard, (a) initializing a frame drop coefficient indicating a rank of a frame to discard; (b) checking a packet header to determine whether a packet to be transmitted is voice information having continuity with a previous frame or having a voice / silent change; (c) when the packet to be transmitted in step (b) is nth (> 0, integer) packet consecutively as voice information having continuity with the previous frame and there is no change in voice / silence, dropping the frame of the packet to be transmitted Increasing the coefficient by one and proceeding to step (b); And (d) initializing the field drop coefficient of the packet to be transmitted if the packet to be transmitted in step (b) is not voice information or voice information that is not continuous with the previous frame or has voice / silent change. Frame determination method to drop in the AAL2 switching device, characterized in that. The method of claim 1, wherein if the bandwidth is expected, the AAL2 switching device drops the frames sequentially from the frames having the high frame drop coefficient. The method of claim 1, wherein step (c) (c1) If the packet to be transmitted in step (b) is voice information having continuity with the previous frame and there is no voice / silent change, it indicates whether the packet is continuity with the previous frame and the value of the continuation coefficient whose initial value is 0 is n. Determining authorization; (c2) if it is determined in step (c1) that the value of the continuous coefficient is less than n, increasing the value of the continuous coefficient by one and proceeding to step (b); And (c3) when the continuous coefficient is n in step (c1), increase the frame drop coefficient by one, and proceed to step (b). The method of claim 3, wherein when the frame drop coefficient is m (> 0, an integer), the frame drop coefficient is maintained at m in step c30. A recording medium which records the method of claim 1 as program code executable on a computer. If the frame to be transmitted is voice information, and if it is voice information, the frames to be lost are first selected according to continuity with the previous frame and whether the sound / silence changes, and when the shortage occurs, the selected frames are discarded. ATM system comprising an AAL2 switching device.