JPH11220438A - Forward power control method for mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance the power efficiency by conducting forward power control while utilizing an error indication bit E included in a reverse direction communication channel frame. SOLUTION: A message received by a mobile station is checked for a prescribed period. When a received frame is normal, a fame error indication bit E is set to '0' and when the received frame is an error, the bit E is set to '1' (S20). In the case that the frame error indication bit E is '1' (S30: YES), a base station compares a current power of the base station with a limiting value specifying a maximum transmission power (S40) to control forward power (S50, S60). In the case that the frame error indication bit E is '0' (S30: NO), the base station compares the current power of the base station with a limiting value specifying a minimum transmission power (S70) to control reverse power (S80, S90).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a CDMA (Code Div.)
The present invention relates to control of forward power in a mobile communication system to which an ision Multiple Access (code division multiple access) system is applied, specifically, transmission power from a base station in a personal communication system, and is particularly included in a reverse traffic channel frame. The present invention relates to a forward power control method for a mobile communication system in which power efficiency is improved by controlling forward power using a frame error indication bit to be transmitted.

[0002]

[Related Background Art] The minimum necessary signal interference rate (Signal-to-to-signal) for properly adjusting the transmission power of a mobile station and the transmission power of a base station, respectively, and providing a user with a convenient call service. Interference Ratio)
, Ie, the minimum allowable Eb / No
To maintain (Energy per Bit to Noise Density Ratio), transmission power control is indispensable. This transmission power control is a technique for adjusting the transmission power between the mobile station and the base station to an appropriate level in order to maintain the system performance at the minimum power level so that the user does not feel inconvenience in a call. .

[0003] Transmission power control includes forward power control for controlling the transmission power from the base station to the mobile station and reverse power control for controlling the transmission power from the mobile station to the base station. Incidentally, the forward power control is performed when the mobile station during a call is located in an area where a multipath propagation phenomenon occurs, in an area where external noise (airborne noise) is large, and furthermore, interference between adjacent cells is generated. This is a technique for increasing or decreasing the transmission power from a base station to a mobile station in order to maintain the quality of all calls for which a channel has already been determined when located in a severe cell boundary area.

[0004] In other words, the purpose of forward power control is not only for non-communication but also for mobile stations located relatively close to the base station, in areas where multipath propagation and radio shadowing are less affected, and in other base stations. By reducing the transmission power for mobile stations located in areas where interference with the station is small, the power loss is reduced, while the transmission power for mobile stations located in areas where reception is difficult or located at long distances and having a high error rate is reduced. By increasing the power level, all mobile stations in a cell managed by the base station can receive radio waves at a level substantially equal to a predetermined power level, almost uniformly.

Conventionally, there is a technique for controlling the forward power of a mobile communication system using a frame error rate reported from a mobile station. This technique reduces transmission power to mobile stations located in areas where frame errors do not occur, that is, areas where reception conditions are good, and conversely, reduces transmission power to mobile stations located in areas where frame errors are likely to occur or mobile stations located far away. This is to increase transmission power. At this time, the mobile station assists the forward control by utilizing various limit values related to power control according to the system parameters transmitted from the base station.

FIG. 1 shows a flow of the conventional forward power control described above. In the power control, first, when the forward control from the base station to the mobile station starts, the mobile station inspects the received frame (step S1) and determines that the received frame is an error frame power reference limit value (reference determination value). Is determined (step S2). As a result of this check, if the received frame does not reach the error frame power reference limit value, then the total number of check frames is 57 frames, specifically, the parameter indicating the number m of power control report frames is [7]. If there is, it is checked whether or not 2 ^{m / 2} × 5 = 2 ^7/2 × 5 = 56.5 ≒ 57 (step S3). If the total number of inspected frames does not reach 57 frames, the processing from the frame inspection step shown in step S1 described above is repeated. In this way, the states of the received frames are sequentially inspected, and when the total number of inspected frames reaches 57 frames, the PMRM (Power Measurement R
eport Message (power measurement report message) is transmitted to the corresponding base station (step S4).

[0007] Then, the base station compares the current transmission power of the base station with the minimum transmission power limit value (step S5). The forward power is controlled so as to use the power (step S6). Conversely, if the current transmission power is greater than the minimum transmission power limit, the transmission power is reduced to control the forward power (step S7).

On the other hand, when the error frame power reference limit value is reached in step S2 described above,
The mobile station transmits a power report message to the base station (Step S8). Then, the base station compares the current transmission power of the base station with the limit value of the maximum transmission power (step S9). As a result, if the current transmission power is larger than the maximum transmission power limit, the transmission power is set to the maximum transmission power (step S10), and the current transmission power is smaller than the maximum transmission power restriction. in case of,
The forward power is controlled to increase the transmission power (step S11).

According to the conventional power control performed in this way, the mobile station is 1.25 m on the reverse link.
A fixed number of frames on the forward link, ie, [2 ^{m / 2} × 5], as opposed to being able to perform power control every time
After the time required for frame transmission, the power report message is received and power control is performed. At this time, assuming that the number m of power control report frames described above as a parameter for determining the cycle of power control is “7” (a limit value generally used at present), about 57 frames, that is, Converted to time, 20m per frame
Since this is sec, the transmission power is gently controlled with a period of 1.14 sec.

More specifically, in a frame transmitted from the mobile station to the base station, when the mobile station receives a normal frame at the 57th frame, the mobile station reports a PMRM to the base station,
Since the control is performed so as to reduce the transmission power from the base station, the control requires a time of 1.14 sec. If the frame received by the mobile station has reached the error frame power reference limit value, PM
Since RM is reported and control is performed so as to increase the transmission power from the base station, 20 msec × 3 = 60 msec is used for the control.
Time is needed.

As described above, since it takes a long time to control the transmission power in the forward link, for example, as shown by a broken line in FIG. 6, to control the transmission power of the base station to the required appropriate power, It is necessary to increase or decrease the transmission power with a large variation width. For this reason, there arise problems that wasteful power consumption increases and the capacity of the system decreases. On the other hand, U.S. Pat. No. 5,621,723 discloses a power control technique in a CDMA network. The patent includes transmitting signaling traffic from a mobile station to a base station in a packet switched CDMA network for communication between the base station and the mobile station, obtaining signaling traffic transmitted from the base station, A power control technique for a CDMA system is described, comprising responsively communicating power control data from a mobile station, and receiving and interpreting the power control data at the mobile station to arrange for the transmission of signaling traffic. ing.

The patent also discloses that the base station evaluates the received power on average over a frame interval separated into 16 intervals, and determines a power control bit in accordance with the result of comparing the evaluated value with a fixed value. A method of generating and inserting it as a control bit into a forward traffic channel in a willingness random manner and using this control bit to control power is shown. However, this method also has a problem that power control is inefficient.

[0013]

As described above, in the forward power control in the conventional mobile communication system, the control takes time, the transmission power control has a large change width, and the power control is inefficient. There is a problem. An object of the present invention is to solve the above-described problems of the related art. In a mobile communication system, by performing forward power control using an error indication bit included in a reverse traffic channel frame. It is another object of the present invention to provide a forward power control method for a mobile communication system capable of efficiently optimizing and controlling forward power which is transmission power of a base station.

[0014]

A forward power control method for a mobile communication system according to the present invention for achieving the above object is included in a traffic channel frame transmitted from a mobile station to a base station in a mobile communication system. Controlling the forward power of the mobile communication system by using a frame error indication bit, receiving a message transmitted from the base station to the mobile station, and transmitting the message at a predetermined period, for example, one frame (20 msec) ) Is checked for each frame. If the frame is determined to be an error frame, the frame error indicator bit is set to "1" when the frame is determined to be an error frame. Means (step) for transmitting the frame error indication beat to "1" at the base station. First forward power control means (step) for comparing the current transmission power at the base station with a preset maximum transmission power limit value and controlling the forward power according to the result; If the indication bit is set to “0”, the current transmission power in the base station is compared with a preset minimum transmission power limit value, and the forward power is controlled according to the comparison result. And two forward control means (steps), and these means (steps) are sequentially executed to efficiently control forward power.

In a preferred aspect of the present invention, in the first forward power control step, when a current transmission power in the base station is larger than a limit value defining the maximum transmission power, the transmission power is Control the forward power to be the maximum transmission power, if the current transmission power in the base station is smaller than the limit value that defines the maximum transmission power, the forward power in the direction to increase the transmission power It is characterized by controlling.

In a preferred aspect of the present invention, in the second forward power control step, if the current transmission power in the base station is smaller than a limit value defining the minimum transmission power, the transmission power Is controlled to be the minimum transmission power, if the current transmission power at the base station is greater than the limit value that defines the minimum transmission power, the forward power in the direction to reduce the transmission power It is characterized by controlling electric power.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 2 is a schematic block diagram constituting a forward power control system in a mobile communication system to which the present invention is applied. The power control system includes a base station processing unit 100 provided in a base station,
It comprises a terminal processing unit 200 provided in the portable terminal.

The base station processing unit 100 includes a transmission power control unit 101 for controlling forward power, and the terminal processing unit 2.
The amplifier 102 amplifies the weak signal (frame) transmitted from the P.00, the demodulator 103 demodulates the received signal obtained through the amplifier 102, and the demodulator 103 demodulates the signal obtained through the demodulator 103. Deinterleaver / deco for interleaving and decoding
der) 104 and this deinterleaver / decoder 104
, An error rate determining unit 105 for determining the error rate from the output signal, and the error rate determining unit 105 and the demodulator 10
Eb / No sensor 106 for detecting energy / noise power per bit from the output signal of No. 3 and selector 10 for selecting the output of Eb / No sensor 106 and transmission data
7 and a high-power amplifier 108 that can vary the transmission power for the output signal from the selector 107 under the control of the transmission power control unit 101.

Note that the terminal processing unit 200 has a gain (reception level) for a reception signal transmitted from a base station.
AGC amplifier 201 for automatically controlling the signal, and a demodulator 2 for demodulating a received signal obtained through the AGC amplifier 201.
02; an adder 203 for adding the output signal of the demodulator 202 to the output signal of the AGC amplifier 201; a deinterleaver / decoder 204 for deinterleaving and decoding the signal passed through the demodulator 202; / Error rate determining unit 205 for calculating an error rate from the output signal of decoder / decoder 204, and error rate determining unit 2
And a high-power amplifier 20 that varies the transmission power of the transmission data output from the transmission data processing unit 206 according to the output signal of the adder 203.
Consists of seven.

Next, a forward power control method according to a preferred embodiment of the present invention applied to a power control apparatus in a CDMA mobile communication system configured as described above will be described with reference to FIGS. This will be described in detail. FIG.
Shows a reverse traffic channel frame structure used in a mobile communication system. By the way 13kbps
Is used, a communication channel frame having a transmission rate of 14.4 kbps to 1.8 kbps can be used between the mobile station and the base station. The feature of this frame structure is that it includes a frame error indication bit E, and the present invention uses the above-mentioned frame error indication bit E to receive a frame received two frames before, as described below. Error occurrence situation) to the base station.

In FIG. 3, E is a frame error indicator bit (Erasure Indicator Bit), and F is a frame quality indicator (Frame Quality Indicator) for checking the quality of the frame using a CRC (Redundancy Code Check) method.
cator). T is an encoding tail bit indicating the frame end. Further, in the present invention, in using the error indication bit E,
In order to shorten the time required for the power control, a method is used in which the traffic channel frame itself has a function of notifying a frame error.

FIG. 4A shows the timing of a reception frame at the mobile station, and FIG. 4B shows the timing of a transmission frame at the mobile station. As shown in FIGS. 4A and 4B, the transmission timing of the frame error indication bit E is two frames later. By the way, Fig. 4 (a)
In (b), i indicates data on an arbitrary time axis. As shown in FIGS. 4A and 4B, when the mobile station receives an error frame at the [i + 1] frame, for example, the mobile station notifies the base station by PMRM that the error frame has been received at the [i + 3] frame. Will be reported to
Such a time delay is due to a time gap when the terminal processing unit 200 performs a predetermined process.

The frame error indication bit E
Is. If it is determined that the received frame is an error frame, it is set to "1", and if it is determined that it is a normal frame, it is set to "0" and transmitted to the base station. The base station that has received such a frame from the mobile station performs power control in the base station processing unit 100 according to the information indicated by the frame error indication bit E. That is, instead of the conventional power control once every 1.14 seconds (currently used value), the base station processing unit 100 performs the power control once every frame, that is, once every 20 msec. Execute.

The process of actual forward power control in the present invention will be described in more detail by applying such a principle. This power control is executed according to the processing procedure shown in FIG. That is, the mobile station checks the power control message received from the base station when the forward power control starts, in units of one frame (20 msec), and when the frame is a normal frame, sets the error indication bit E to “0”. ", And if the frame is an error frame, it is set to" 1 "(step S20).

The base station receives the signal transmitted from the mobile station and confirms the setting of the error indication bit E in the frame (step S30). If the error indication bit E is set to “1”, the current transmission power at the base station is compared with a preset limit value defining the maximum transmission power (step S).
40). As a result of the comparison, if the current transmission power in the base station is larger than the limit value defining the maximum transmission power, the forward power is controlled so that the transmission power becomes the maximum transmission power (step S50). . On the other hand, when the current transmission power in the base station is smaller than the limit value defining the maximum transmission power, the transmission power is increased within the range of the maximum transmission power to control the forward power ( Step S60).

On the other hand, if the confirmed frame error indication bit E is "0", that is, if it is indicated that the received frame at the mobile station is a normal frame,
The current transmission power of the base station is compared with a preset limit value for defining the minimum transmission power (step S70).
Then, as a result of the comparison, if the current transmission power in the base station is smaller than the limit value defining the minimum transmission power, the forward power is controlled so that the transmission power becomes the minimum transmission power (step S80). Conversely, if the current transmission power at the base station is larger than the limit value defining the minimum transmission power, the transmission power is reduced within the range of the minimum transmission power to control the forward power (step S9).
0).

According to the present invention, as described above, the forward power is controlled every frame, that is, every 20 msec. Therefore, the power control can be executed in a short cycle as shown by a solid line in FIG. And by frequent power control,
To the appropriate transmission power required for the base station, the transmission power can be very finely increased or decreased with a small change width, so that waste of power can be effectively prevented and its power efficiency can be increased. it can.

It should be noted that the present invention is not limited to the above-described embodiment, and can be carried out in various modifications without departing from the gist thereof.

[0029]

As described above, according to the present invention, the transmission power of the mobile station is controlled by using the error indication bit included in the reverse traffic channel frame transmitted from the mobile station. Can be shortened, and the power can be used efficiently.

In particular, since the forward power is controlled by performing a frame inspection at a cycle of one frame (20 msec), the overall variation in power increase / decrease can be reduced. Therefore, it is not necessary to increase the power increase / decrease control width in accordance with the conventional control delay, and there is an effect that power waste can be prevented beforehand.

[Brief description of the drawings]

FIG. 1 is a diagram showing a procedure of forward power control in a conventional mobile communication system.

FIG. 2 is a schematic block diagram of a forward power control system of a mobile communication system applied to the present invention.

FIG. 3 is a diagram illustrating a frame structure of a reverse traffic channel in a general mobile communication system.

FIG. 4 is a diagram showing the timing of a frame error instruction bit using the traffic channel frame shown in FIG. 3;

FIG. 5 is a diagram showing a control procedure in a forward power control method of the mobile communication system according to one embodiment of the present invention.

FIG. 6 is a diagram showing a comparison between transmission power control timing and efficiency of the conventional forward power control and the forward power control according to the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 100 base station processing unit 101 transmission power control unit 104 deinterleaver / decoder 106 Eb / No sensor 200 terminal processing unit 204 deinterleaver / decoder 205 error rate determination unit 206 transmission data processing unit 207 high power amplifier

Claims (4)

[Claims] When controlling forward power of a mobile communication system using a frame error indication bit included in a traffic channel frame transmitted from a mobile station to a base station in the mobile communication system, the base station transmits the control signal to the mobile station. The transmitted message is inspected at predetermined intervals, and when the frame forming the message is determined to be an error frame, the frame error indicator bit is set to “1”. When the frame is determined to be a normal frame, the frame error indicator bit is set. Means for setting to "0" and returning to the base station; and when the frame error indication bit included in the frame returned from the mobile station is set to "1", the current transmission power at the base station and A first order for controlling the forward power by comparing with a limit value that defines a preset maximum transmission power When the frame error indication bit is set to “0”, comparing the current transmission power at the base station with a preset limit value defining a minimum transmission power, and And a second forward power control means for controlling the forward power control of the mobile communication system. 2. The method according to claim 1, wherein the predetermined period is given as a unit defining one frame. 3. The first forward power control means, when a current transmission power in the base station is larger than a limit value defining the maximum transmission power, forward transmission power is controlled to be the maximum transmission power. The directional power is controlled, and when the current transmission power in the base station is smaller than a limit value defining the maximum power, the forward power is controlled in a direction to increase the transmission power. A forward power control method for a mobile communication system according to claim 1. 4. The second forward power control means, when a current transmission power at the base station is smaller than a limit value defining the minimum transmission power, such that the transmission power becomes the minimum transmission power. The method according to claim 1, further comprising: controlling directional power, and when the current transmission power at the base station is larger than a limit value defining the minimum power, controlling the forward power in a direction to decrease the transmission power. A forward power control method for a mobile communication system according to claim 1.