KR100358437B1 - Reverse direction power control method of mobile communication system applied is-2000 cdma - Google Patents

Abstract

According to the present invention, an IS-2000 CDMA scheme can improve performance and call quality of a reverse link by performing reverse external circuit and closed circuit power control by setting all reverse traffic channels in use as a reference channel that determines a PCB periodically. The present invention relates to a reverse power control method in a mobile communication system employing the above method, the average FER calculation step of calculating an average FER for all reverse traffic channels being used by a base station according to external circuit power control, and the average FER calculation step After performing the reference signal-to-noise ratio setting step of setting the reference signal-to-noise ratio according to the average FER, and performing the reference signal-to-noise ratio setting step, all the reverse traffic channels being used by the base station every frame period in accordance with the closed circuit power control are used as the reference channel. A reference channel changing step of changing setting; The PCB is determined according to a signal-to-noise ratio comparison step of comparing the received signal-to-noise ratio of the reference channel changed in the quasi-channel changing step with a reference signal-to-noise ratio set in the reference signal-to-noise ratio setting step, and the comparison result of the signal-to-noise ratio comparison step. The PCB determining and transmitting step of transmitting the determined PCB to the mobile station through the forward power control subchannel, and the mobile station receives the PCB transmitted in the PCB determining and transmitting step, and controls the transmit power of the mobile station according to the received PCB Characterized in that the transmission power control step.

Description

REVERSE DIRECTION POWER CONTROL METHOD OF MOBILE COMMUNICATION SYSTEM APPLIED IS-2000 CDMA}

The present invention relates to a reverse power control method in a mobile communication system using an IS (Interim Standard) -2000 Code Division Multiple Access (hereinafter, referred to as "CDMA") method, and particularly, all reverse traffic in use. Implement reverse external and closed circuit power control by setting the channel as a reference channel that periodically determines the power control bit (hereinafter referred to as 'PCB') to improve the performance of the reverse link and reduce the call blocking rate. The present invention relates to a reverse power control method in a mobile communication system employing an IS-2000 CDMA scheme for reducing call quality.

In general, a mobile communication system employing the IS-2000 CDMA scheme is configured to wirelessly transmit and receive data to and from the mobile station 1, the mobile station 1, and control data wireless transmission and reception with the mobile station 1, as shown in FIG. It consists of a base station 2, a control station 3 and a switching station 4 for transmitting and receiving data to and from the base station 2 and controlling data transmission and reception with the base station 2.

In the mobile communication system employing the IS-2000 CDMA scheme configured as described above, in order to solve the source interference problem caused by all mobile stations in the cell using the same frequency band, reverse power control is performed to adjust the transmission power of the mobile station. have.

This reverse power control is one of the important technologies of the CDMA method for maintaining a good call quality, such as preventing power waste by transmitting power of a proper transmission signal from the mobile station.

The reverse power control includes an open loop power control, a closed loop power control, and an outer loop power control.

The open circuit power control is a method of determining a transmission power of a mobile station by estimating a path attenuation between the base station and the mobile station from the power of the received signal, and the closed circuit power control is used to correct an error occurring in the open circuit power control. In this case, the base station transmits the PCB to the mobile station so that the mobile station adjusts the transmission power according to the PCB.

That is, in the closed circuit power control, the base station determines the PCB by comparing the signal-to-noise ratio (Eb / No) of the channel received and averaged every cycle with the reference signal-to-noise ratio, which is a threshold value, and the determined PCB is forward power control. Transmit to mobile station through subchannel.

The mobile station then receives the PCB, and increases or decreases the transmit power of the mobile station by a predetermined unit in accordance with the received PCB.

Finally, the external circuit power control is a method of adjusting the reference signal-to-noise ratio for determining the PCB, and adjusts the reference signal-to-noise ratio according to the average frame error rate (FER) of the channel received from the base station.

Meanwhile, in the mobile communication system using the IS-95 CDMA scheme, only one reverse traffic channel is used during a call. In the mobile communication system using the IS-2000 CDMA scheme, multiple reverse traffic channels may be used simultaneously.

However, in the mobile communication system adopting the IS-2000 CDMA method, since the PCB transmitted through the forward power control subchannel from the base station is fixed to one bit for the reverse closed circuit power control, the single PCB is used to Closed circuit power control should be performed for the reverse traffic channel.

Therefore, by performing the same closed-circuit power control on the remaining channels based on one channel, the reference channel can maintain an appropriate transmit power, but the transmit power of the remaining channels can be too high or too low to use all reverse traffic. There was a problem in that a constant call quality could not be maintained for a channel.

In other words, by controlling the power of several reverse traffic channels using a single PCB, not only inefficient power control is achieved, but also constant call quality cannot be maintained for all reverse traffic channels in use.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and its purpose is to set all the reverse traffic channels in use periodically as a reference channel without fixing only one reference channel for determining the PCB, and all reverse traffic channels in use. IS-2000 improves the performance of reverse link and reduces call blocking rate by improving reference closed-loop power control for all active reverse traffic channels by setting reference signal-to-noise ratio from average FER of IS-2000. The present invention provides a reverse power control method in a mobile communication system using the CDMA scheme.

1 is a block diagram of a general mobile communication system;

FIG. 2 is a flowchart illustrating a reverse power control method including external circuit and closed circuit power control in a mobile communication system to which an IS-2000 CDM system according to the present invention is applied;

Figure 3 is a flow chart illustrating in detail the power control method of the reverse external circuit in the mobile communication system applying the IS-2000 CDM method according to the present invention.

<Description of the symbols for the main parts of the drawings>

1 mobile station 2 base station

3: control station 4: switching station

The reverse power control method in the mobile communication system using the IS-2000 CDMA method of the present invention for achieving the above object, calculates the average FER for all reverse traffic channels being used by the base station according to the external circuit power control After performing the average FER calculation step, the reference signal-to-noise ratio setting step of setting the reference signal-to-noise ratio according to the average FER calculated in the average FER calculation step, and the reference signal-to-noise ratio setting step, the base station performs frame-by-frame according to the closed circuit power control. A reference channel change step of changing and setting all reverse traffic channels being used as reference channels at a predetermined period of time; and receiving signal-to-noise ratios of the reference channels changed in the reference channel change step and the reference signal-to-noise ratios set in the reference signal-to-noise ratio setting step. Comparing the signal-to-noise ratio comparison step, The PCB is determined according to the comparison result of the signal-to-noise ratio comparison step, and the PCB is determined and transmitted to the mobile station through the forward power control subchannel, and the mobile station determines the PCB transmitted in the PCB decision and transmission step. And a transmission power control step of controlling the transmission power of the mobile station according to the received PCB.

Hereinafter, a reverse power control method in a mobile communication system to which the IS-2000 CDMA scheme according to the present invention is applied will be described in detail with reference to the accompanying drawings.

The reverse power control method in the mobile communication system using the IS-2000 CDMA method according to the present invention performs only one reference channel for determining the PCB in performing the reverse closed circuit power control of the mobile communication system using the IS-2000 CDMA method. Rather than setting it fixedly, it sets the reference channel for PCB decision periodically for all the reverse traffic channels in use so that power control is performed by observing all the reverse traffic channels in use at regular intervals.

In addition, the reverse power control method in the mobile communication system employing the IS-2000 CDMA method according to the present invention performs the control of the reverse external circuit power of the mobile communication system employing the IS-2000 CDMA method. Is not set based on the FER of one channel, but is set from the average FER of all reverse traffic channels in use.

In other words, when calculating the average FER, it is possible to perform the reverse power control on a specific channel by applying different weights to all the reverse traffic channels in use so that the transmit power is adjusted to satisfy the constant FER. Can be.

FIG. 2 is a flowchart illustrating a reverse power control method including external circuit power control and closed circuit power control in a mobile communication system to which the IS-2000 CDMA method according to the present invention is applied. Referring to the reverse power control method in a mobile communication system using the CDMA method as follows.

First, in the average FER calculation step S1, the average FER is calculated for all reverse traffic channels being used by the base station according to external circuit power control.

After the average FER calculation step S1, the process proceeds to the reference signal-to-noise ratio setting step S2, and the base station sets the reference signal-to-noise ratio according to the average FER calculated in the average FER calculation step S1.

Here, the operation of the average FER calculation step S1 and the reference signal to noise ratio setting step S2 will be described in more detail with reference to FIG. 3.

In the average FER calculation step S1, the initial value setting step S11 sets the FER reference value, the initial reference signal-to-noise ratio, and the weight, respectively.

After the initial value setting step (S11), the process proceeds to the step of calculating the number of received frames (S12) to calculate the total number of received frames of all channels being used.

After the reception frame number calculation step S12, the process proceeds to the error frame number calculation step S13 to calculate the total number of error frames of all channels being used.

After the error frame number calculation step S13, the average FER calculation step S14 is performed to calculate an average FER for all reverse traffic channels in use by applying a weight of each channel considering the importance of all the channels in use.

Next, in the reference signal-to-noise ratio setting step S2, in the FER comparison step S21, the average FER calculated in the average FER calculation step S14 is compared with the FER reference value set in the initial value setting step S11.

When the average FER calculated in the average FER calculation step S14 is greater than the FER reference value set in the initial value setting step S11 as a result of the comparison of the FER comparison step S21, the process proceeds to the reference signal-to-noise ratio increasing step S22. When the initial reference signal-to-noise ratio set in the initial value setting step S11 is increased and the average FER calculated in the average FER calculation step S14 is smaller than the FER reference value set in the initial value setting step S11, the reference signal-to-noise ratio decreases. Proceeding to step S23, the initial reference signal-to-noise ratio set in the initial value setting step S11 is reduced.

Subsequently, after the reference signal-to-noise ratio setting step S2, the process proceeds to the reference channel changing step S3, and according to the closed circuit power control, the base station changes and sets all reverse traffic channels being used as reference channels every predetermined period of the frame unit.

That is, several channels being used are alternately set as reference channels for periodically determining the PCB.

After the reference channel change step S3, the signal-to-noise ratio comparison step S4 is performed so that the base station sets the received signal-to-noise ratio of the reference channel changed in the reference channel change step S3 in the reference signal-to-noise ratio setting step S2. Compare with reference signal to noise ratio.

After the signal-to-noise ratio comparison step S4, the process proceeds to the PCB determination step S5, and the base station determines the PCB every 1.25ms according to the comparison result of the signal-to-noise ratio comparison step S4.

That is, when the received signal-to-noise ratio of the reference channel changed and changed in the reference channel changing step S3 is greater than the reference signal-to-noise ratio set in the reference signal-to-noise ratio adjusting and setting step S2, as a result of the comparison in the signal-to-noise ratio comparing step S4. Determine the PCB as '0' and if it's small, determine the PCB as '1'.

After the PCB determination step (S5) proceeds to the PCB transmission step (S6) and the base station transmits the PCB determined in the PCB determination step (S5) to the mobile station through the forward power control subchannel.

After the PCB transmission step (S6) proceeds to the transmission power control step (S7) and the mobile station receives the PCB transmitted in the PCB transmission step (S6), according to the received PCB to increase the transmission power of the mobile station in a predetermined unit Control to reduce or reduce.

As described above, the present invention sets all reverse traffic channels in use as a reference channel for determining the PCB, and sets a reference signal-to-noise ratio from the average FER of all reverse traffic channels in use, and thus for all reverse traffic channels in use. By simply performing reverse closed circuit and external circuit power control, it is possible to improve the performance of CDMA reverse link at low cost and reduce call blocking rate and improve call quality while being applicable to the system without any change in IS-2000 standard. It works.

Claims (3)

An average FER calculation step of calculating an average FER for all reverse traffic channels being used by the base station according to external circuit power control; A reference signal-to-noise ratio setting step of setting a reference signal-to-noise ratio according to the average FER calculated in the average FER calculation step; A reference channel changing step of changing and setting all reverse traffic channels being used by the base station at a predetermined period in frame units according to a closed circuit power control after performing the reference signal to noise ratio setting step; A signal-to-noise ratio comparison step of comparing the received signal-to-noise ratio of the reference channel changed and changed in the reference channel change step with the reference signal-to-noise ratio set in the reference signal-to-noise ratio setting step; Determining the PCB according to the comparison result of the signal-to-noise ratio comparison step, and determining and transmitting the PCB to the mobile station through the forward power control subchannel; The mobile station receives the PCB transmitted in the PCB determining and transmitting step, and transmits a power control step of controlling the transmission power of the mobile station according to the received PCB. Reverse power control method in mobile communication system. The method of claim 1, wherein the average FER calculation step, An initial value setting step of setting a FER reference value, an initial reference signal-to-noise ratio, and a weight, respectively; Receiving frame number calculation step of calculating the total number of received frames of the entire channel after performing the initial value setting step, An error frame number calculation step of calculating the total number of error frames of all channels being used after the reception frame number calculation step is performed; After performing the error frame count calculation step, the average FER calculation step for calculating the average FER for all reverse traffic channels in use by applying the weight of each channel taking into account the importance of all the channels in use. A method for reverse power control in a mobile communication system using the 2000 code division multiple access method. The method of claim 1, wherein the reference signal to noise ratio setting step, An FER comparison step of comparing the average FER calculated in the average FER calculation step with the FER reference value set in the initial value setting step; A reference signal-to-noise ratio increasing step of increasing an initial reference signal-to-noise ratio set in the initial value setting step if the average FER calculated in the average FER calculation step is greater than the FER reference value set in the initial value setting step; , A reference signal-to-noise ratio reduction step of reducing the initial reference signal-to-noise ratio set in the initial value setting step if the average FER calculated in the average FER calculation step is smaller than the FER reference value set in the initial value setting step as a result of the comparison of the FER comparison step. Reverse power control method in a mobile communication system applying the IS-2000 code division multiple access method characterized in that consisting of.