KR20030054825A - Method for the Uplink Outer-loop Power Control of the Wireless Communication System - Google Patents

Abstract

PURPOSE: A method for controlling power of an uplink external circuit in a wireless communication system is provided to compare quality of an originating signal of a mobile station with quality desired by a system, and to increase or decrease a target SIR(Signal-to-Interference Ratio) value of the system used for high-speed power control, thereby controlling power of the uplink external circuit. CONSTITUTION: A wireless communication system reads a QE(Quality Estimate) value of a receiving signal(401). If the receiving signal has an error, the system increases a target SIR value as much as amount proportional to the QE value(403,409). If the receiving signal does not have the error, the system decreases the target SIR value as much as predetermined amount(405,407). The system stores the increased/decreased target SIR value, compares the increased/decreased target SIR value with a previous target SIR value, and sets the increased/decreased target SIR value to a target SIR value if a change of the target SIR value exceeds an optional SIR change(411,413).

Description

Method for controlling uplink external circuit power of wireless communication system {Method for the Uplink Outer-loop Power Control of the Wireless Communication System}

The present invention relates to a method for controlling uplink reverse external circuit power in a wireless communication system and a computer-readable recording medium storing a program for realizing the method.

Hereinafter, a mobile communication system using a code division multiple access method will be described as an example.

In the external circuit power control, the system capacity can be optimized only by periodically changing the target SIR value of the system according to the quality of the signal frame received from the base station. To this end, the conventional system uses a method of increasing or decreasing a target SIR by determining only an error of a signal frame.

However, since the conventional method as described above increases or decreases the received signal by a predetermined value (Step Size) depending on the presence or absence of an error regardless of the degree of damage of the received signal, an error occurs in converging the received signal to the target SIR. The problem appears.

As a conventional technique for solving such a problem, an external loop power control method of a communication system using a digital code division multiple access method has been published in Korean Patent Application No. '10 -1998-0008633 ', and also referred to as BR Park , SJ Lee, YM Jang, and GJ Jeon, 'Outer-loop power control for IMT-2000 system based on the Leaky Bucket scheme,' (The 5th CDMA International Conference & Exhibition 2000).

In the patent application No. 10-1998-0008633, when a frame is received, whether a frame is error is determined first, and when there is no error, the target SIR is increased or decreased according to the speed of the frame. In other words, if the continuous reception counter of the frame is exceeded at the high rate, the target SIR value is decreased by PWRCTL_DOWN_STEP, and if the frame rate is the low rate, the power is controlled. Decreases by _bar_down_step (PWRCTL_VAR_DOWN_STEP).

As a result of the determination, if there is an error in the frame, it is divided into whether the frame can be distinguished or not, and each case is compared with the continuous counter, and the power control_up_full_step (PWRCTL_UP_FULL_STEP) and the electric control_up_ The target SIR is increased by the eraser_little_step (PWRCTL_UP_ERASURE_LITTLE_STEP) or the power control_up_eraser_step (PWRCTL_UP_ERASURE_STEP).

The patent (Application No. '10 -1998-0008633 ') has the effect of reducing the imperfection that occurs in correcting the target SIR value by determining only the error of the frame, but the step (STEP) value and the reference counter to be used. Because it is not easy to determine the value of, the effectiveness of the method is less effective. In some cases, the imperfection may be further increased by applying the wrong variable.

Meanwhile, although the paper ('Outer-loop power control for IMT-2000 system based on the Leaky Bucket scheme,') proposes a power control algorithm using a leaky bucket scheme, the method presented in the paper Also, since there are many variables to be applied and only frame error is used as an input parameter of an algorithm, there is a problem in that it cannot converge quickly to a target SIR value for high quality service such as wideband code division access (WCDMA). .

The present invention has been proposed to solve the above problems, and compares the quality of the outgoing signal of the mobile station received by the base station with the desired quality of the system and uses the target signal-to-interference of the system to be used for high-speed power control. An object of the present invention is to provide an uplink external circuit power control method for controlling power of an uplink external circuit by increasing or decreasing a ratio value, and a computer-readable recording medium having recorded thereon a program for realizing the method.

That is, the present invention, by using the bit error rate (BER) of the signal frame received at the base station, if there is no error to quickly reduce the target SIR value to reduce the load on the surplus power to the system capacity, the error And an uplink external circuit power control method for suppressing overload of the wireless capacity by adding an adjustment value corresponding to an error rate to the target SIR so as not to overshoot the target SIR value, and a program for realizing the method. An object of the present invention is to provide a computer-readable recording medium having recorded thereon.

1 is a block diagram of a mobile communication system to which the present invention is applied.

2 is a flowchart for schematically explaining a method for controlling uplink external circuit power in a mobile communication system according to the present invention;

3 is a diagram for explaining a change in a target signal-to-interference ratio (SIR) of external circuit power control according to the present invention;

4 is a flowchart illustrating a method for controlling uplink external circuit power in a mobile communication system according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: mobile terminal 11: base station

13: control station

According to an aspect of the present invention, there is provided a method for controlling uplink external circuit power in a wireless communication system, the method comprising: a first step of reading a quality value (QE) of a received signal; A second step of increasing a target signal-to-interference ratio (SIR) value by an amount proportional to the quality value (QE) when the reception signal has an error as a result of the first step; A third step of reducing a target SIR by a predetermined amount when there is no error in the received signal as a result of the reading in the first step; And store the increased or decreased target SIR value and comparing the increased or decreased target SIR value with a previous target SIR value if the amount of change in the target SIR value exceeds any SIR change that can be accepted by the base station. And a fourth step of setting the increased or decreased target SIR value to the target SIR value.

The present invention also provides a wireless communication system including a processor, comprising: a first function of reading a quality value (QE) of a received signal; A second function of increasing a target signal-to-interference ratio (SIR) value by an amount proportional to the quality value (QE) when there is an error in the received signal as a result of the reading of the first function; A third function of reducing a target SIR by a predetermined amount when there is no error in the received signal as a result of the reading of the first function; And store the increased or decreased target SIR value and comparing the increased or decreased target SIR value with a previous target SIR value if the amount of change in the target SIR value exceeds any SIR change that can be accepted by the base station. A computer readable recording medium having recorded thereon a program for realizing a fourth function of setting an increased or decreased target SIR value to a target sir value.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a mobile communication system to which the present invention is applied.

As shown in FIG. 1, a mobile communication system to which the present invention is applied includes a mobile station carried by a user, that is, a mobile terminal 10, a base station 11 wirelessly connected to a plurality of mobile terminals 10, and the plurality of base stations. And a control station 12 for controlling them.

An uplink external circuit power control method in a mobile communication system having such a configuration will be described in detail with reference to FIGS. 2 to 4.

2 is a flowchart schematically illustrating a method for controlling uplink external circuit power in a mobile communication system according to the present invention.

As shown in FIG. 2, the uplink external circuit power control processor of the mobile communication system compares the quality of the received signal with the quality desired by the system (100), and if the system determines that the reception quality is lower than the desired quality, If the target SIR is raised by a certain amount (104), and conversely it is determined that there is a loss in capacity of the overall system due to too high call quality, the target SIR is again reduced by a certain amount (102).

Then, the adjusted target SIR value is transmitted to the base station 106 and used as the target SIR value of the fast closed circuit power control. For example, a device that performs such a function may be mounted on a processor that processes wireless traffic by programming a 'uplink external circuit power control function' in a control station.

3 is a diagram for describing a change in a target signal-to-interference ratio (SIR) of external circuit power control according to the present invention.

Typical methods used for external circuit power control are as follows.

IF CRC check OK

Eb / No_target (n + 1) = Eb / No_target (n)- ;

ELSE

Eb / No_target (n + 1) = Eb / No_target (n) + K * ;

here, Is the basic magnitude of power increase and decrease, and K is an integer or a value of 1 or more.

3 shows a power increase to satisfy the frame error rate (FER) of 0.01 when there is no change in the channel environment. The SIR value is increased by K times (31). If there is no frame error, continue Decrease by 32.

If FER is selected as 0.01, K is about 99. As a result of system operation, usually 0.01 to 0.05 is used. In this case, the use of K as 99 does not consider how many frame errors have occurred, that is, how far from the normal, so that the value of the target SIR may be overshooted.

4 is a flowchart illustrating an uplink external circuit power control method of a mobile communication system according to the present invention.

As shown in FIG. 4, QE information is included in an uplink data frame in a radio access standard 3G TS 25.427 (UTRAN Iub / Iur Interface User Plane Protocol for DCH Data Streams) applied to a next generation mobile communication system (IMT-2000). QE information can contain the bit error rate (BER) of the transport channel so that the quality of the frame can be quantitatively checked.

The bit error rate of the transport channel that can be contained in the QE is shown in Table 1 below in 3G TS 25.215.

Theoretical value (Reported value) Measured value (Measured quantity value) TrCh_BER_LOG_000 Transport channel BER = 0 TrCh_BER_LOG_001 -∞ <Log10 (Transport channel BER) <-2.06375 TrCh_BER_LOG_002 -2.06375 Log10 (Transport channel BER) <-2.055625 TrCh_BER_LOG_003 -2.055625 Log10 (Transport channel BER) <-2.0475 ··· ··· TrCh_BER_LOG_253 -0.024375 Log10 (Transport channel BER) <-0.01625 TrCh_BER_LOG_254 -0.01625 Log10 (Transport channel BER) <-0.008125 TrCh_BER_LOG_255 -0.008125 Log10 (Transport channel BER) 0

The absolute value of the transport channel (Trch: Transport channel) _BER in [Table 1] is as shown in [Table 2] below.

Theoretical value (Reported value) Measured value (Measured quantity value) 000 Transport channel BER = 0 001 0 <Transport channel BER <8.63475 * 10 ^-3 002 8.63475 * 10 ^-3 Transport channel BER <8.79782 * 10 ^-3 003 8.79782 * 10 ^-3 Transport channel BER <8.96396 * 10 ^-3 ··· ··· 253 0.94542 Transport channel BER <0.96372 254 0.96372 Transport channel BER <0.98146 255 0.98146 Transport channel BER 1

Therefore, the TrCh (Transport channel) _BER value for the theoretical value is represented by the following Equation 1 having a value between 0 and 1.

* ^v

here, = 8.47533 * 10 ^-3 , Is a constant having a value of = 1.01881, and v is a theoretically reported value (1 to 255).

As shown in FIG. 4, for power control, first, a QE of a frame is compared with a value of 401 to determine whether there is an error in the frame. As a result of the determination, if there is an error in the frame, the SIR value to be increased, that is, Up_SIR, is determined as follows by weighting how far the error value of the frame is from the normal (403).

Up_SIR = K * * * ^v

Therefore, the SIR value is simply K * Compared with the conventional method of increasing by only, it is possible to prevent the target SIR from overshooting 31 as shown in FIG.

Thereafter, the cumulative counter to be used at the time of receiving a good frame is reset and cleaned up in case of receiving a good frame next time (409).

In the step of determining whether there is an error in the frame, when it is determined that there is no error in the frame, Trch (Transport channel) _BER represents 0.

In this case, counting is performed by counting when a good frame comes in continuously (405), and the target SIR value is obtained by using the following Equation 2 to decrease the SIR step by step (407). ).

* ⁱ

Here i is the value of the continuous counter and accumulates when a good frame comes in continuously.

By applying the above method, by decreasing the target SIR value by Down_SIR, It is possible to converge more quickly to the target SIR value than the conventional method, which is lowered as much as possible.

The SIR increase and decrease values calculated in the manner proposed above are added and subtracted from the previous target SIR value and stored as a new target SIR value.

Next, the stored target SIR value is compared with the previously transmitted target SIR value, and it is checked whether the SIR change amount exceeds 0.1 decibel of the SIR change value that the base station can accept (411). As a result of the inspection, when the SIR variation exceeds 0.1 decibel, the external circuit power control function proposed by the present invention transmits a new target SIR value to the base station (413), receives a frame from the mobile station, and compares the QE of the frame with zero. Return to step 401.

As a result of the inspection, if the amount of change in the SIR does not exceed 0.1 decibels, the process returns to step 401 where the frame is received from the mobile station and the QE of the frame is compared with zero.

Here, the SIR change value 0.1 decibel is an arbitrary threshold value that can be changed by an operator according to a system or an environment of use. Thus, the SIR change is a variable value.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above, in the uplink external circuit power control associated with a power control technology for responding to a changing wireless environment, determine the SIR increase and decrease value according to the quality of the mobile station outgoing signal, By applying the value, the target SIR value is updated and quickly converged to the target SIR, thereby suppressing excess output of the mobile station, thereby optimizing the radio capacity of the mobile communication system.

Claims (5)

In the uplink external circuit power control method of a wireless communication system, A first step of reading a quality value (QE) of the received signal; A second step of increasing a target signal-to-interference ratio (SIR) value by an amount proportional to the quality value (QE) when the reception signal has an error as a result of the first step; A third step of reducing a target SIR by a predetermined amount when there is no error in the received signal as a result of the reading in the first step; And Storing the increased or decreased target SIR value, and comparing the increased or decreased target SIR value with a previous target SIR value, if the amount of change in the target SIR value exceeds any SIR change acceptable at the base station; Step of setting the targeted target SIR value to the target sir value Uplink external circuit power control method of a wireless communication system comprising a. The method of claim 1, The second step, According to the degree of deviation of the quality value (QE) of the received signal from the normal using the following equation to calculate the increase value, and adds the increase value to the target SIR value to determine a new target SIR value Uplink external circuit power control method of system. Up_SIR = K * * * ^v (here, Is the basic magnitude of power increase and decrease, K is an integer value of 1 or more, = 8.47533 * 10 ^-3 , = 1.01881, v is the theoretical value (1 ~ 255) in the interval.) The method according to claim 1 or 2, The third step, When a frame enters within a range in which no abnormality occurs in the quality value QE of the received signal, a decrease value is determined using the following equation, and the target SIR is progressively updated using the decrease value. Uplink external circuit power control method of a wireless communication system. Down_SIR = * ⁱ (here, Is the base size of power = 1.01881, i is the value of the continuation counter and is accumulated when good frames are coming in continuously.) The method according to claim 1 or 2, And if the SIR change value exceeds 0.1 decibel, set the increased or decreased SIR value to a new target SIR value. In a wireless communication system having a large capacity processor, A first function of reading a quality value (QE) of the received signal; A second function of increasing a target signal-to-interference ratio (SIR) value by an amount proportional to the quality value (QE) when there is an error in the received signal as a result of the reading of the first function; A third function of reducing a target SIR by a predetermined amount when there is no error in the received signal as a result of the reading of the first function; And Storing the increased or decreased target SIR value, and comparing the increased or decreased target SIR value with a previous target SIR value, if the amount of change in the target SIR value exceeds any SIR change acceptable at the base station; Function to set the targeted target SIR value to the target sir value A computer-readable recording medium having recorded thereon a program for realizing this.