KR20030075636A - Method for controlling the power of mobile station in mobile telecommunication system - Google Patents

Abstract

PURPOSE: A method for controlling a power of an MS(Mobile Station) in a mobile communication system is provided to maintain a transmission output level of the MS as a uniform value. CONSTITUTION: If a TPC(Transmission Power Control) bit, in which '1' and '0' are alternately repeated, is received(400), a time is detected while the TPC bit is received(402). The detected time is compared with an entrance value(404). If a currently received TPC bit is '1'(406), a temporary TPC bit is set up as '1'(408). If the currently received TPC bit is '0'(406), the temporary TPC bit is set up as '-1'(410). It is judged whether a time for receiving a TPC bit, in which '1' and '0' are not alternately repeated, is over an escape value, using the temporary TPC bit(412,414). If the time for receiving the TPC bit is not over the escape value, a transmission output level of an MS is maintained as a current value without controlling the transmission output level of the MS(430).

Description

METHOD FOR CONTROLLING THE POWER OF MOBILE STATION IN MOBILE TELECOMMUNICATION SYSTEM}

The present invention relates to a code division multiple access terminal, and more particularly, to a power control method of a code division multiple access terminal.

The power control is a technique for adjusting the transmission power of the mobile station (User Equipment, UE, user equipment) and the base station to an appropriate level in order to maintain system performance even at the lowest possible power level of the radiated radio waves. The power control is divided into forward power control (downlink power control) for controlling the transmission power of the base station and reverse power control (uplink power control) for controlling the transmission power of the mobile station. Lose.

1 is a diagram illustrating an example of operating principle of forward and reverse power control in a mobile communication system.

Power control is performed in the forward link 105 of FIG. Perform control. In particular, the forward power control adjusts the transmission power transmitted from the base station 100 to the mobile station 110 and is used for the purpose of reducing interference from neighboring cells. That is, as shown in (a) of FIG. 1, when the transmission power (E _b / N _t ) of the mobile station 110 received from the base station 100 decreases, the base station 100 as shown in FIG. Traffic output increases and is transmitted to the mobile station. On the contrary, when the transmission power (Eb / Nt) of the mobile station 110 received by the base station 100 increases, the traffic output transmitted from the base station 100 decreases accordingly.

In addition, the reverse power control performed in the reverse link 115 of FIG. 1 means adjusting the transmission power of the mobile station 110 in the service area of the base station 100. When the error rate of the mobile station 110 increases as shown in FIG. 1B, the transmit power is controlled by increasing the transmit power of the mobile station 110 as shown in FIG.

In general, the reverse power control is performed by a power control bit (PCB) transmitted by the base station 100. That is, when the base station 100 detects the reception power level and the error rate from the mobile station 110 and determines that the reception power level is decreased or the error rate is increased, the power control bit requesting the transmission power of the mobile station 110 is increased. Is transmitted to the mobile station 110, on the other hand, if it is determined that the reception power level is increased or the error rate is reduced, the power control bit is transmitted to the mobile station 110 requesting the transmission power of the mobile station 110 to be reduced.

On the other hand, there are many cases where it is desired to maintain the transmission output level of the mobile station 110 in the current state during the reverse power control. In general, when a user attempts to make a call, the user may be at a stationary speed or a walking speed even if the user moves. In other words, this means that the wireless environment may not change very rapidly during a call using the mobile station 110, which means that the transmission output level of the mobile station 110 does not change significantly from the time when the call is started.

However, as described above, even when the channel state is not changed, the transmission power level of the mobile station 110 is controlled according to the power control bit transmitted by the base station 100. That is, when the power level received from the mobile station 110 decreases, the base station 100 transmits a power control bit for commanding an increase in the transmission power of the mobile station 110, and the power level received from the mobile station 110 increases. In this case, the power control bit is transmitted which instructs the mobile station 110 to reduce the transmission power. Accordingly, when the transmission output level of the mobile station 110 is to be kept constant as described above, the base station 100 implements this by alternately transmitting power control bits of "0" and "1".

2 is a diagram illustrating a power control bit transmitted by a base station to a mobile station when it is desired to maintain a constant transmission output level of the mobile station.

When the power level received from the mobile station 110 is constant as shown in FIG. 2 (a), it is necessary to keep the transmission output level of the mobile station 110 constant. For this purpose, the base station 100 is connected to FIG. As described above, power control bits of "0" and "1" are alternately transmitted, and the mobile station 110 performs power control according to the received power control bits. That is, according to the prior art, in spite of trying to keep the transmission output level of the mobile station 110 constant, the transmission power is alternately +1 dB and -1 dB (or + -2 dB, which is determined by the system setting). By controlling this, it may cause the surrounding wireless environment to deteriorate. In addition, the power consumption of the mobile station 110 may increase according to the frequent increase / decrease control of the power, which may be a factor of reducing the battery usage time.

Accordingly, an object of the present invention to solve the above problems is to provide a power control method capable of maintaining a transmission output level of a mobile station at a constant value.

Another object of the present invention is to provide a power control method capable of preventing frequent changes in the transmission power level when the transmission power level of the mobile station is to be maintained at a constant value.

It is still another object of the present invention to provide a power control method capable of preventing deterioration of the entire surrounding wireless environment due to frequent changes in the transmission power level of the mobile station.

It is still another object of the present invention to provide a power control method which can increase the battery usage time of a mobile station.

In order to achieve the above objects, the present invention relates to whether a repetitive power control bit value is received in a system for controlling a transmission output of a mobile station by receiving a power control bit having two values, each indicating an increase and a decrease in a transmission power. A first process of determining, a second process of determining whether a time at which the repetitive power control bit value is received exceeds a predetermined first threshold value, and a time of receiving a non-repetitive power control bit value at a predetermined second threshold value And a third process of determining whether the time exceeds the first threshold value and the time when the non-repetitive power control bit value is received does not exceed the second threshold value. The fourth process of keeping the transmission output level of the mobile station constant and the reception if both conditions of the fourth process are not satisfied. It proposes a power control operation at the mobile station characterized in the claim 5, constituted by any process for controlling a transmission output level of the mobile station based on the current power control bit.

1 is a diagram illustrating an example of forward and reverse power control operations in a mobile communication system;

2 is a diagram showing a power control bit transmitted from a base station to a mobile station when it is desired to keep the transmission output level of the mobile station constant.

3 is a diagram illustrating a configuration of a mobile station related to power control;

4 is a flowchart illustrating a transmission power level control procedure of a mobile station according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the reference numerals to the components of the drawings, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings.

The present invention described below relates to reverse power control in a mobile communication system, and relates to a method for maintaining a constant transmission output level of a mobile station. When the transmission power level of the mobile station is to be kept constant, there may be mentioned a case where the mobile station is located where the radio environment does not change rapidly, or when the mobile station moves at a slow speed. Before describing the present invention with specific examples, it will be clear that the technology of the present invention is considered in the Universal Mobile Telecommunication System (UMTS), which is an asynchronous code division multiple access mobile communication system. However, the present invention is not limited to this and can be applied to any communication system that performs power control using the power control bit.

In the present invention described later, when the transmission output level of the mobile station is constantly required, the value indicating the increase in the transmission output by the power control bit of the base station instructing the transmission output control of the mobile station and the value indicating the decrease in the transmission power alternate with the mobile station. Note that it is received by. That is, when the time for which the power control bits are alternately received exceeds a certain time, it is determined that the transmission output of the mobile station needs to be kept constant. Accordingly, the transmission output control of the mobile station is made to maintain the current transmission output level without complying with the power control bit. Further, in the state where the transmission output level of the mobile station is kept constant as described above, when the time for which the power control bit does not appear repeatedly exceeds a predetermined time, the conventional control unit controls the transmission output of the mobile station according to the instruction of the power control bit. Power control is achieved. At this time, a predetermined threshold value, which is a reference value for performing power control for causing the mobile station to maintain the current transmission output level, is referred to as "entry value (ENT_CONDITION)" or "first threshold value". A predetermined threshold value that becomes a reference value for normal power control according to the power control bit while the mobile station keeps the current transmission power level constant is called an "escape value (ESC_CONDITION)" or "second threshold value." It is called.

3 is a diagram illustrating a configuration of a mobile station related to power control.

As shown in FIG. 3, the mobile station 110 may be referred to as a " TPC (Tx Power Control) " bit in particular in that it is a power control bit (power control bit for controlling a transmission output of the mobile station) received from the base station 100. ) Is included in the Downlink Dedicated Data CHannel (DL DPCH) 301 and received at the rake receiver 300 via a conventional path. Hereinafter, a case in which the TPC bit has two values of "0" and "1" will be described as an example.

Conventionally, the transmission output level of the mobile station is controlled according to the received TPC bit. That is, if the received TPC bit is 0, the transmit power level of the mobile station is decreased by a predetermined value. On the contrary, if the received TPC bit is 1, the transmit power level of the mobile station is increased by a predetermined value. As a result, if the TPC bit having a value of "0" and the TPC bit having a value of "1" are repeatedly received, the mobile station 110 has to repeat the decrease and increase of the transmission output level. In the present invention, in order to prevent such a phenomenon, when the time for which the repetitive TPC bit is received exceeds a predetermined entry value, the transmission output level of the mobile station 110 is controlled to be constant. Further, in the state where the transmission output level of the mobile station 110 remains constant as described above, if the time at which the TPC bits that are not repeated alternately of "1" and "0" is received exceeds the escape value, the mobile station 110 Transmit power level is controlled according to the received TPC bit. The temp_TPC bit derived at 310 shown in FIG. 3 is used to determine whether the time at which the non-repetitive TPC bit is received exceeds the escape value. According to the power control algorithm of 302, the delta_TPC 320 value obtained using the TPC bit and the temp_TPC bit is input to the amplifier 330 to control the transmission output level of the mobile station 110. A comparison between the power control algorithm indicated by 302 and the entry value and the exit value using the TPC bit and the temp_TPC bit will be described in detail with reference to the flowchart of FIG. 4.

4 is a flowchart illustrating a transmission output level control procedure of a mobile station according to the present invention.

In step 400, the mobile station 110 determines whether the sum of the TPC bits received in the previous frame and the TPC bits received in the current frame becomes one. The step is for determining whether a repetitive power control bit is received. Since the TPC bit has two values of "0" and "1", the following two cases may be the sum of the TPC bit received in the previous frame and the TPC bit received in the current frame. That is, the case where the previous TPC bit is "0", the current TPC bit is "1", and the case where the previous TPC bit is "1" and the current TPC bit are "0". In both cases, the sum of the previous TPC bit and the current TPC bit is 1. If the TPC bits are not alternately received by "1" and "0", power control of the conventional mobile station 110 is performed in step 420. That is, the transmission output level of the mobile station 110 is controlled according to the received TPC bit of the current frame, and in step 422, the TPC bit of the next slot is read and the step 400 is repeated.

In the case where the repeated TPC bits are alternately received between "1" and "0" in step 400, in the steps 402 and 404, the time (entrance N) when the repeated TPC bits are received is an entry value (ENT_CONDITION). Determine if it exceeds. In step 402, "1" and "0" are alternately detected while the repetitive TPC bits are received, and in step 404, the detected time is compared with the entry value. As a result of the determination according to the comparison of the step 404, if the time when the TPC bit is repeatedly received is alternated with "1" and "0", the operation 420 is performed. Perform step 406.

Steps 406 to 410 are steps of converting a TPC bit into a temp_TPC bit to determine whether a time when a TPC bit in which "1" and "0" are not repeated alternately exceeds a predetermined escape value. If the currently received TPC bit is 1, the temp_TPC bit is set to "1". If the currently received TPC bit is not 1, that is, 0, the temp_TPC bit is set to "-1". In steps 412 and 414, the temp_TPC bit is used to determine whether the time when the non-repetitive TPC bit is received (accumulated TPC) exceeds the escape value (ESC_CONDITION). In steps 412 and 414, the time at which the TPC bit of the value "1", that is, the temp_TPC bit of the value "1", exceeds the escape value or the TPC bit of the value "0", that is, "-1" The case where the time at which the temp_TPC bit of the value is received is less than-(escape value) is considered to be the case where the time at which the non-repetitive TPC bit is received exceeds the escape value. If the time for which the non-repetitive TPC bit is received exceeds the escape value, normal power control is performed to control the transmission output level of the mobile station 110 according to the received TPC bit in step 420. On the other hand, if the time at which the non-repetitive TPC bit is received does not exceed the escape value, the transmission output level of the mobile station 110 is maintained at the current value by not controlling the transmission output level of the mobile station 110 in step 430. Be sure to In step 432, the TPC bit of the next slot is read. The transmit power level of the mobile station 110 remains at the current value until the time when the non-repetitive TPC bit is received exceeds the escape value.

On the other hand, the specific numerical values are used in order to help the understanding of the present invention, but the present invention is not limited thereto.

By performing the present invention as described above, the mobile station transmit power level can be kept constant without frequent fluctuation of the mobile station transmit power level during reverse power control, thereby not only preventing deterioration of the surrounding wireless environment but also accommodating the corresponding service cell. Capacity will also be partially expanded. In addition, it is possible to increase the use time of the mobile station battery by reducing the power consumption of the mobile station.

Claims (7)

In the power control method of a mobile station of a mobile communication system for receiving a power control bit having two values respectively indicating the increase and decrease of the transmission output to control the transmission output of the mobile station, A first step of determining whether a repetitive power control bit value is received; A second step of determining whether a time at which the repetitive power control bit value is received exceeds a predetermined first threshold value; A third step of determining whether a time when a non-repetitive power control bit value is received exceeds a predetermined second threshold value; If the time at which the repetitive power control bit value is received exceeds the first threshold and the time at which the non-repetitive power control bit value is received does not exceed the second threshold, the transmission output level of the mobile station is kept constant. The fourth process, And a fifth process of controlling a transmission output level of the mobile station according to the received current power control bit when both conditions of the fourth process are not satisfied. The method of claim 1, When the power control bit has two values of 0 and 1, The determination of whether the repetitive power control bit of the first process is received is performed by determining whether the sum of the power control bit received in the previous slot and the power control bit received in the current slot becomes one. Control method. A mobile station power control method of a mobile communication system for receiving a power control bit from a base station to control transmission power, Detecting the received power control bits serially and determining whether "1" and "0" are alternately received; Determining whether the power control bit string determined to be alternately received by "1" and "0" exceeds a predetermined first threshold value; And maintaining a current transmission power level when the power control bit string in which the " 1 " and " 0 " are alternately received exceeds the first threshold value. The method of claim 3, And controlling transmission power according to the received power control bit if the power control bit string in which "1" and "0" are alternately received does not exceed the first threshold. Control method. The method of claim 3, When the power control bit string in which the " 1 " and the " 0 " are alternately received exceeds the first threshold and maintains the current transmission power, the power control bits received in series are " 1 " and " 0 ". Determining whether they are detected alternately, Determining whether the power control bit string detected as not receiving the " 1 " and " 0 " alternately exceeds a predetermined second threshold; And controlling the transmission power of the mobile station according to the received power control bit when the power control bit string detected that the " 1 " and " 0 " are not alternately received exceeds the second threshold. Power control method of a mobile station. The method of claim 5, And maintaining the present transmission power if the power control bit string detected as not being alternately received by "1" and "0" exceeds a second threshold value. . A mobile station power control method of a mobile communication system for receiving a power control bit from a base station to control transmission power, Detecting the received power control bits serially and determining whether "1" and "0" are alternately received; Determining whether the power control bit string determined to be alternately received by "1" and "0" exceeds a predetermined first threshold value; Maintaining a current transmission power level when the power control bit strings in which the " 1 " and " 0 " are alternately received exceed the first threshold value; otherwise, controlling the transmission power according to the received power control bit; , When the power control bit string in which the " 1 " and the " 0 " are alternately received exceeds the first threshold and maintains the current transmission power, the power control bits received in series are " 1 " and " 0 ". Determining whether they are detected alternately, Determining whether the power control bit string detected as not receiving the " 1 " and " 0 " alternately exceeds a predetermined second threshold; If the power control bit string detected that the " 1 " and " 0 " are not received alternately exceeds the second threshold, the transmit power of the mobile station is controlled according to the received power control bit; Power control method of a mobile station, characterized in that the step of maintaining.