KR20020058610A - Method for Controlling Power in Direct-Spreading CDMA - Google Patents

Abstract

PURPOSE: A method for controlling power in a DS(Direct Spreading)-CDMA system is provided to prevent the power control of transmit power from steeply increasing or decreasing by varying the increment or decrement of a threshold for a reference counter to increase or decrease the threshold, in updating a threshold for signal power control. CONSTITUTION: In case that the initial frame is received to a user, the current threshold(Thcurr) is set as a normal threshold(Thnom)(S20). Afterwards, if another frame is transmitted, a DS-CDMA system checks the error correction code of the frame(S21). In case that the FER(Frame Error Rate) is larger than a target FER, the DS-CDMA system increases the current threshold(Thcurr)(S22). If the FER is larger than a target FER, the DS-CDMA system decreases the current threshold(Thcurr)(S29). If the current threshold(Thcurr) gets larger than the maximum threshold(Thmax)(S23), the DS-CDMA system increases the first counter(Hcnt) by 1(S24). In case that the first counter gets larger than the first reference counter(ΔH)(S25), the DS-CDMA system adds an increment(ΔTh-H) to the current threshold(Thcurr). At this moment, the first counter(Hcnt) is reset to 0(S26). However, in case that the first counter(Hcnt) is not larger than the first reference counter(ΔH), the current threshold(Thcurr) maintains the maximum threshold(Thmax)(S27). If the current threshold(Thcurr) gets smaller than the maximum threshold(Thmax), the first counter(Hcnt) is reset to 0(S28).

Description

Method for Controlling Power in Direct-Spreading CDMA

The present invention relates to a DS-CDMA system, and more particularly, to an outer loop power control method of a DS-CDMA system in which a sliding window method is applied to an existing table without using a fixed range threshold table. It is about.

In general, in the outer loop power control method, the user updates the reference signal-to-noise ratio (hereinafter, referred to as SNR) of the fast closed power receiver power control according to the call quality information so as to satisfy the required reception quality. Has That is, the outer loop control at the user is performed on the call quality after the maximum ratio combined on the diversity handover (hereinafter abbreviated as DHO). In soft handover, the call quality threshold for the cell in the active set must be adapted to the outer loop power control implemented at the network node where the soft handover combination is performed. That is, in the outer loop, the user updates the reference SIR when receiving a frame containing an error detection code (CRC). If the CRC result is not sufficient, the reference SIR is raised by SIR _INC dB, and if the CRC result is sufficient, the reference SIR is decreased by SIR _DEC dB. SIR _DEC is derived from Equation 1 when the SIR _INC has a value of 0.5 dB.

SIR _DEC = SIR _INC * FER _TARGET / (1-FER _TARGET )

Here, the FER _TARGET is a target frame error rate. The initial reference SIR (SIR _INIT ) is service dependent, and the maximum / minimum reference SIR is limited to SIR _MAX / SIR _MIN dB. The SIR _INIT , SIR _MAX , and SIR _MIN are set through three layer messages, and the update of the reference SIR is performed together with the N _ILD frames when the channel interleaving depth has the N _ILD frame number.

For example, an outer-loop power control method in a direct spreading code division multiple access (DS-CDMA) system according to the prior art is shown in FIG. The current threshold Th _curr starts from the normal threshold Th _{nom which} is the threshold of the first frame (S10). If an error occurs according to the error of the reverse link frame (S11), the current threshold ( Th _curr ) is raised (S12), and if there is no error, a threshold (Th _curr ) is lowered (S15). At this time, when the threshold (Th _curr ) reaches the maximum threshold (Th _max ) or the minimum threshold (Th _min ) (S13, S14, S15, S16), it can not go up or down further, the state (S14, S17)

As described above, the conventional outer loop power control method uses a fixed table having a minimum threshold Th _min and a maximum threshold Th _max . As a result, even though the minimum threshold (Th _min ) maintains a good quality (frame error rate (FER) <target (FER)), the threshold cannot be lowered further, and the maximum threshold (Th _max ) is not good. Despite maintaining quality (FER> Target FER), it reveals the limit of not raising the threshold higher.

Therefore, in order to overcome this limitation, the prior art unconditionally lowers the minimum threshold and raises the maximum threshold unnecessarily to cause the ping-pong phenomenon of lowering and then rising again. In addition, if the transmission power of the terminal rises excessively excessively, the communication quality of the corresponding base station is reduced overall, which causes a serious problem.

When using a fixed table like this, there are various problems, so the margin is placed on the minimum and maximum thresholds. Therefore, the terminal that can lower the transmission power cannot be lowered, and the terminal that needs to increase the transmission power. Will make the error of not getting higher.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and in updating a threshold for signal power control, an amount of increase of a threshold relative to a reference counter for increasing or decreasing a threshold or It is an object of the present invention to provide a power control method in a DS-CDMA system that prevents a sudden increase or decrease in power control of a transmission signal by varying a decrease amount.

In addition, another object of the present invention is to update the threshold value for signal power control, and to increase or decrease the threshold value with respect to the reference counter for the threshold value increase or decrease, so that the threshold value even for the maximum or minimum threshold value. An object of the present invention is to provide a power control method in a DS-CDMA system in which a value is changed to enable optimal power control.

According to the method feature of the present invention for achieving the above object, the step of increasing or decreasing the current threshold for power control of the signal to be transmitted according to the error of the received signal, and the increase or decrease is repeated Increasing a counter according to each threshold when a maximum or minimum threshold is reached; and when the first counter that is incremented for the maximum threshold exceeds a first reference counter, first increasing the current threshold. Increasing by a threshold value, decreasing the current threshold by a second threshold value when the second counter that is incremented relative to the minimum threshold value exceeds a second reference counter, and And controlling the transmission signal by applying a current threshold value that is increased or decreased in accordance with the two reference counters.

Preferably, the first reference counter and the second reference counter, and the first threshold value and the second threshold value are varying values.

1 is a diagram illustrating an outer loop power control method according to the prior art.

2 illustrates an outer loop power control method according to the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a diagram illustrating an outer loop power control method according to the present invention.

Referring to FIG. 2, in the present invention, in addition to Th _nom , Th _currr , Th _max , and Th _min , new parameters such as L _cnt, H _cnt , Δ _L , Δ _H , Δ _Th-L , and Δ _Th-H are provided. In addition, it is changed to a sliding window type table instead of a fixed threshold table.

Th _nom is a threshold of the first frame, and is set to a current threshold Th _{curr at the} beginning of outer loop power control. Th _max and Th _min represent a maximum or minimum threshold set in the system. At this time, these thresholds (Th _curr , Th _max , Th _min ) are used to perform a power control process by a user receiving a frame and updating a reference SIR according to the frame error rate.

First, when the first frame is received by the user, the current threshold Th _curr is set to the normal threshold Th _nom (S20), and then another frame is transmitted so that an error detection code (error) of the frame is received. If the frame error rate is larger than the target frame error rate, the current threshold value Th _curr is increased (S22). However, if it is smaller than the target frame error rate, the current threshold Th _curr is reduced (S29). As described above, when the current threshold value Th _curr is increased, and the threshold value is larger than the maximum threshold value Th _max (S23), the first counter H _cnt is increased by one (S24). When the current threshold Th _curr is often larger than the maximum threshold Th _max , and the first counter H _cnt becomes larger than the first reference counter Δ _H (S25), threshold plus a by increment (Δ _Th-H) to (Th _curr) is set to a state that is larger than the current threshold value (Th _curr) up to a threshold value (Th _max) At this time, the first counter (H _cnt) is Reset to zero (S26). However, when the first counter H _cnt is not greater than the first reference counter Δ _H , the current threshold Th _curr maintains the maximum threshold Th _max (S27). When the value Th _curr becomes smaller than the maximum threshold Th _max , the first counter H _cnt is reset to 0 (S28).

On the other hand, if the current threshold (Th _curr ) is smaller than the minimum threshold (Th _min ) is repeatedly performed, if the current threshold (Th _curr ) is smaller than the minimum threshold (Th _min ) (S30) When the second counter L _cnt is increased by one (S32) and the second counter L _cnt is larger than the second reference counter Δ _L (S32), the current threshold value Th _curr By subtracting the decrease Δ _{Th − L} , the value is set to be smaller than the minimum threshold Th _min , where the second counter L _cnt is reset to 0 (S33). However, when the second counter L _cnt is not larger than the second reference counter Δ _L , the current threshold Th _curr maintains the minimum threshold Th _min (S34). When Th _curr becomes greater than the minimum threshold Th _min , the second counter L _cnt is reset to 0 (S35).

In addition, the present invention can be applied in various ways using various newly created parameters. For example, if you do not want to increase the transmission output of the terminal excessively, set the increment (Δ _Th-H ) to 0 or very small so that the current threshold (Th _curr ) does not exceed the maximum threshold (Th _max ). Just do it. In addition, by using the counter increment Δ _H and the counter increment Δ _L , the current threshold value Th _curr is raised and adjusted.

As described above, if the malicious frame does not occur even when the current threshold Th _curr is the minimum threshold Th _min , the present invention sets the current threshold Th _curr to the minimum threshold Th _min . By lowering the transmission power of the terminal below, the interference to other terminals is reduced as a result. Since the capacity of a CDMA system is limited to the total amount of interference, the capacity increases as the interference decreases. Conversely, if a malicious frame occurs even when the current threshold (Th _curr ) is the maximum threshold (Th _max ), the current threshold (Th _curr ) is raised above the maximum threshold (Th _max ), and then a specific shadow area or sudden The effect of improving the reverse link quality of the terminal in a deep fading environment is seen. However, the present invention is not a method of making the current threshold Th _curr larger than the maximum threshold Th _max , but rather the counter H _cnt must be larger than the reference counter Δ _H , and thus the current threshold Th th. _curr ) can be prevented from increasing rapidly. Similarly, even when the current threshold (Th _curr ) is less than the minimum threshold (Th _min ), the counter (L _cnt ) must be larger than the reference counter (Δ _L ) to prevent the current threshold (Th _curr ) from rapidly decreasing. can do. In addition, the present invention can be applied in various ways using various newly created parameters. For example, if you do not want to increase the transmission output of the terminal excessively, set the increment (Δ _Th-H ) to 0 or very small so that the current threshold (Th _curr ) does not exceed the maximum threshold (Th _max ). Just do it. In addition, by using the counter increment (Δ _H ) and the counter decrease (Δ _L ) has the advantage that the current threshold value (Th _curr ) is raised, it is possible to adjust the falling speed.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (2)

Increasing or decreasing a current threshold for power control of a signal to be transmitted according to an error of the received signal; Incrementing a counter according to each threshold if the increase or decrease is repeated to reach a maximum or minimum threshold; Incrementing the current threshold by a first threshold when the first counter incremented for the maximum threshold exceeds a first reference counter; Decreasing the current threshold by a second threshold if the second counter incremented for the minimum threshold exceeds a second reference counter; And controlling a transmission signal by applying a current threshold value that is increased or decreased according to the first or second reference counter. The method of claim 1, wherein the first reference counter and the second reference counter, and the first threshold value and the second threshold value are varying values.