KR20190056965A - Method and apparatus for controlling uplink power based on downlink path loss estimation - Google Patents

Abstract

Provided is a method and apparatus for controlling uplink power based on downlink path loss estimation. A method for controlling uplink power comprises the steps of: estimating a downlink path loss of a mobile terminal based on information received from the mobile terminal; determining a maximum cumulative power control value assignable to the mobile terminal based on the estimated downlink path loss of the mobile terminal; based on a difference between reception power and target power for a signal received from the mobile terminal, within a range smaller than the maximum cumulative power control value through a differential transmit power control (TPC) mapper, determining a power control value for controlling uplink transmission power; and transmitting the determined power control value to the mobile terminal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an uplink power control method and apparatus based on downlink path loss estimation,

The present invention relates to power control, and more particularly, to a method and apparatus for uplink power control based on downlink path loss estimation in a mobile communication system.

In the wireless communication system, the uplink power control is performed by maintaining the reception quality (Received Signal to Interference-plus-Noise Ratio (SINR)) required by the base station, interference with neighboring base stations (RRM), which minimizes interference and maximizes the battery life of a mobile terminal, and is a key element of Radio Resource Management (RRM). Such uplink power control should be optimized in consideration of radio channel conditions including path loss, shadowing, and the like while minimizing interference to neighboring cells. For this purpose, in the LTE (Long Term Evolution), open-loop power control and closed-loop power control are performed on the PUSCH (Physical Uplink Shared Channel) and the PUCCH (Physical Uplink Control Channel) .

In the open loop power control, the mobile station measures a received power of a reference signal transmitted from a base station and then calculates a downlink path loss. Determines the transmission power according to the open loop power control value set for the mobile terminal, and transmits a message based on the determined transmission power. In this open loop power control, no feedback is made to the base station.

On the other hand, in the closed loop power control, when a message is received from the base station different from the open loop power control, a TPC (Transmit Power Control) command is transmitted to correct the difference between the received power and the target power required And instructs the terminal to adjust the transmission power. Accordingly, when the mobile station receives the TPC command, the mobile station corrects the transmission power by the power offset indicated by the TPC command, and transmits the message to the base station according to the corrected transmission power. Thus, the base station transmits the target target power ). In the case of closed loop power control, there is a need for a method that can efficiently determine the transmission power and path loss of the mobile terminal required for the base station to determine the TPC command.

The present invention provides a method and apparatus for estimating a downlink path loss of a mobile station based on information reported from a mobile station in a mobile communication system and controlling an uplink power of the mobile station based thereon will be.

A method according to an aspect of the present invention is a method for performing uplink power control of a mobile station in a mobile communication system, and is a method for performing uplink power control of a mobile station in a mobile communication system, Estimating a downlink path loss of the mobile station based on the downlink path loss; Determining a maximum cumulative power control value that can be allocated to the mobile terminal based on the estimated downlink path loss of the mobile terminal; Determining a received power for a signal received from the mobile terminal; The uplink transmission power of the mobile station is calculated based on a difference between the determined received power and target power within a range smaller than the maximum cumulative power control value through a differential TPC (Transmit Power Control) mapper Determining a power control value for control; And transmitting the determined power control value to the mobile terminal.

Wherein the step of determining the reception power for the signal received from the mobile terminal comprises the steps of: if the number of signals received from the mobile terminal exceeds a predetermined power down number threshold value, Based on the result of the determination.

Wherein the step of determining the power control value comprises the steps of: if the current power control value determined based on the difference between the reception power and the target power corresponds to a power control value for increasing power, Comparing the power-up number with a set power-up number threshold; When the number of received signals is greater than the power up count threshold, an accumulated power control value including the current power control value is allocated to the mobile terminal at a maximum based on a downlink path loss of the mobile terminal Comparing the accumulated power control value with a cumulative power control value; And an accumulated power control value including the current power control value as a power control value for controlling an uplink transmission power of the mobile terminal when the accumulated power control value is smaller than the maximum allowable accumulated power control value .

Wherein the determining the power control value comprises: if the number of received signals is not greater than the power up number threshold or if the accumulated power control value is not less than the maximum assignable accumulated power control value, And determining a power control value for maintaining the transmission power of the terminal.

Wherein the step of determining the power control value for maintaining the transmission power of the mobile station includes setting the current power control value to 0 dB and transmitting the accumulated power control value including the current power control value to the uplink transmission It can be determined as a power control value for controlling the power.

Wherein the step of determining the power control value comprises: if the current power control value determined based on the difference between the reception power and the target power corresponds to a power control value for powering down or maintaining the power, And determining the accumulated power control value as a power control value for controlling the uplink transmission power of the mobile station.

Meanwhile, the step of determining the reception power may include calculating a reception signal power ratio (SNR) of a signal received from a time point at which the base station transmits the TPC command including the power control value to the mobile terminal until the next TPC command transmission time, , The reception power can be determined.

The received signals may be one of a Physical Uplink Shared Channel (PUSCH) or a sounding reference signal (SRS).

According to another aspect of the present invention, there is provided a power control apparatus for performing uplink power control of a mobile station in a mobile communication system, the apparatus comprising: a transceiver configured to transmit and receive a signal through an antenna; And a differential transmit power control (TPC) mapper configured to determine a power control value for control based on information received from the mobile terminal through the transceiver, Estimating a path loss, determining a maximum cumulative power control value that can be allocated to the mobile terminal based on the estimated downlink path loss of the mobile terminal, and determining a received power for a signal received from the mobile terminal Wherein the differential TPC mapper of the processor, And to determine a power control value for controlling an uplink transmission power of the mobile station based on a difference between the determined reception power and target power within a range smaller than the power control value.

The differential TPC mapper repeatedly performs a process of determining a power control value for controlling the uplink transmission power of the mobile station based on the difference between the determined reception power and the target power each time the reception power is determined And the transceiver may be configured to transmit a TPC command including the determined power control value to the mobile terminal.

The received power may be determined based on an average of a received signal-to-noise ratio (SNR) of the received signals.

According to an embodiment of the present invention, a downlink path loss of a mobile station is estimated in a mobile communication system such as an LTE-based small cell base station system, an accumulated power control value that can be allocated to a mobile station is determined based on the downlink path loss, The power control value for controlling the uplink transmission power of the mobile station is determined in a range not exceeding the accumulated power control value that can be allocated to the maximum based on the difference between the power and the reception power, Battery consumption of the mobile terminal can be minimized.

1 is a diagram illustrating a concept of closed-loop power control.
2 is a diagram illustrating a concept of an uplink power control method according to an embodiment of the present invention.
3 is a flowchart of an uplink power control method according to an embodiment of the present invention.
4 is a flowchart illustrating a process of determining a TPC command according to an exemplary embodiment of the present invention.
5 is a structural diagram of an uplink power control apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as " comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Throughout the specification, a mobile terminal (MT), a terminal, user equipment (UE), a mobile station (MS), an advanced mobile station (AMS) a high reliability mobile station (HR-MS), a subscriber station (SS), a portable subscriber station (PSS), an access terminal (AT), a machine type communication device and may include all or some of the functions of a terminal, a UE, an MS, an AMS, an HR-MS, an SS, a PSS,

Also, a base station (BS) includes a Node B, an evolved Node B, an eNB, a gNB, an advanced base station (ABS), a high reliability base station (BS), an access point (AP), a radio access station (RAS), a base transceiver station (BTS), a mobile multihop relay (MMR) a relay station (RS), a relay node (RN) serving as a base station, an advanced relay station (ARS) serving as a base station, a high reliability relay station , HR-RS, a femto BS, a home Node B, a HNB, a pico BS, a macro BS, a micro base station (BS) the BS may be referred to as an NB, eNB, gNB, ABS, AP, RAS, BTS, MMR-BS, RS, RN, ARS, HR- There's also an included feature.

The expressions described in the singular may be interpreted as singular or plural unless an explicit expression such as " a " or " a " is used.

Hereinafter, an uplink power control method and apparatus based on downlink path loss estimation according to an embodiment of the present invention will be described.

1 is a diagram illustrating a concept of closed-loop power control.

In the closed loop power control, when a base station receives a message, it sends a Transmit Power Control (TPC) command to correct the difference between the received power and the target power required to instruct the mobile station to adjust the transmission power. Upon receiving the TPC command, the mobile station corrects the transmission power by the power offset indicated by the TPC command, and transmits the message to the base station according to the corrected transmission power. Accordingly, the base station can maintain the requested target power.

In the closed loop power control, it is necessary to know the transmission power and the path loss of the mobile station in order to determine the TPC command.

The Physical Uplink Shared Channel (PUSCH) transmission power of the mobile station can be expressed as follows.

는 이동 단말이 전송할 수 있는 최대 전송 파워를 나타낸다.

는 기지국에 의해 설정되는 값이며, 예를 들어, 23±2[dBm]의 값을 가지며, 일반적으로 23[dBm]으로 설정될 수 있다.

는 PUSCH에서 전송되는 PRB(physical resource block)의 개수를 나타낸다. From here,

Represents the maximum transmission power that the mobile station can transmit.

Is a value set by the base station and has a value of, for example, 23 2 [dBm], and may be set to 23 [dBm] in general.

Represents the number of PRBs (physical resource blocks) transmitted on the PUSCH.

이 만족된다.

는 기지국에서 요구되는 수신 PSD(power spectrum density)를 나타내는 파라미터이다.

는 셀특정(cell specific)하게 셀 내의 모든 이동 단말이 동일한 PSD로 수신되게 하는 파라미터이며,

는 이동 단말마다 전송 파워 설정과 경로 손실 추정시 발생하는 오차를 보상하기 위한 파라미터이다.

는 예를 들어, [-126, 24] dBm 값을 가지며,

는 예를 들어, [-8, 7] dB 값을 가진다.Meanwhile,

Is satisfied.

Is a parameter indicating a received power spectrum density (PSD) required at the base station.

Is a parameter that causes all mobile terminals in a cell to be received in the same PSD cell-specific,

Is a parameter for compensating an error occurring in transmission power setting and path loss estimation for each mobile terminal.

For example, has a value of [-126, 24] dBm,

For example, [-8, 7] dB.

는 다음 수학식 2를 토대로 계산될 수 있다.

Can be calculated based on the following equation (2).

는 경로 손실을 모두 보상해서 전송할 것이지, 일부만 보상해서 전송할 것인지를 나타내는 값으로, 기지국에 의해 설정된다. 예를 들어, {0, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1} 중에 하나의 값이

로 설정될 수 있다. In Equation (1), PL represents the estimated downlink path loss in the mobile terminal.

Is set by the base station as a value indicating whether the path loss is to be compensated for and transmitted only partially. For example, if one of {0, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1}

Lt; / RTI >

는 할당된 MCS(modulation coding scheme)에 따라서 전송 파워를 추가적으로 더하여 전송할지의 여부를 나타내는 파라미터이며, MCS가 바뀔 때마다 송신 PSD를 변경하여 패스트 패딩(fast fading)에 대응할 수 있도록 한다.

는 {disable, enable} 중 하나로 설정될 수 있다.

Is a parameter indicating whether transmission power is additionally added in accordance with an allocated modulation coding scheme (MCS), and changes the transmission PSD every time the MCS is changed to cope with fast fading.

Can be set to one of {disable, enable}.

는 이동 단말의 PUSCH 전송 파워를 조정하기 위한 PUSCH TPC Command의 누적 전력 제어값으로,

로 정의될 수 있으며, PUSCH TPC Command(

)에서 지시되는 파워 오프셋에 의해 지속적으로 누적되어 보정된다.

Is a cumulative power control value of the PUSCH TPC command for adjusting the PUSCH transmission power of the mobile station,

And can be defined as PUSCH TPC Command (

) By the power offsets indicated in FIG.

)는 이전에 수신된 PUSCH의 수신 파워와 기지국에서 요구되는 타겟 파워의 차이를 토대로 전송되는 값으로, 수신 PSD를 일정하게 하기 위한 목적으로 사용되며 다음 표 1과 표 2를 따른다.PUSCH TPC Command (

) Is a value transmitted based on the difference between the reception power of the previously received PUSCH and the target power required by the base station, and is used for the purpose of making the reception PSD constant, and is shown in Table 1 and Table 2 below.

On the other hand, the transmission power of the PUCCH of the mobile station can be determined as follows.

는 PUCCH로 CQI(channel quality indicator)와 HARQ(hybrid automatic repeat request)를 전송할 때 소요되는 전송 파워를 나타낸다.

Represents a transmission power required for transmitting a channel quality indicator (CQI) and a hybrid automatic repeat request (HARQ) in a PUCCH.

가 만족된다. here,

Is satisfied.

는 예를 들어, [-126, 24] dBm 값을 가질 수 있으며,

는 예를 들어, [-8, 7] dB 값을 가질 수 있다.

May have a value of [-126, 24] dBm, for example,

For example, [-8, 7] dB.

는 다음 수학식 4를 토대로 계산될 수 있다. Here, the parameter indicating the received PSD required by the base station

Can be calculated based on the following equation (4).

는 PUCCH 포맷에 따라 전송 파워를 추가적으로 조정해야 하는 값을 나타낸다. On the other hand, in Equation (3)

Represents a value for further adjusting the transmission power according to the PUCCH format.

는 이동 단말의 PUCCH 전송 파워를 조정하기 위한 PUCCH TPC Command의 누적 전력 제어값으로,

로 정의될 수 있으며, PUCCH TPC Command(

)에서 지시되는 파워 오프셋에 의해 지속적으로 누적되어 보정된다.

Is a cumulative power control value of the PUCCH TPC command for adjusting the PUCCH transmission power of the mobile station,

And can be defined as PUCCH TPC Command (

) By the power offsets indicated in FIG.

)는 이전에 수신된 PUCCH의 수신 파워와 기지국에서 요구되는 수신 타겟 파워의 차이를 토대로 전송되는 값으로, 수신 PSD를 일정하게 하기 위한 목적으로 사용되며 다음의 표 3과 표 4를 따른다. PUCCH TPC Command (

) Is a value transmitted based on the difference between the reception power of the previously received PUCCH and the target target power required by the base station, and is used for the purpose of making the reception PSD constant, as shown in Table 3 and Table 4 below.

를 넘지 않게 해야 한다. 만약, 전송 파워가

를 넘게 되면 기지국에서의 PUSCH/PUCCH 수신 성능이 떨어지게 되어, 결국에는 상향링크 성능의 저하와 함께 이동 단말의 배터리 소모가 극심해진다. In Equations (1) and (3) representing the transmission power of the PUSCH / PUCCH of the mobile station, a TPC command is used to adjust the received signal-to-noise ratio (SNR) In order to reduce the battery consumption of the terminal, it is necessary that the transmission power is the maximum transmission power of the mobile terminal

Should not exceed. If the transmission power is

The performance of PUSCH / PUCCH reception at the base station is degraded. Eventually, the uplink performance is deteriorated and the battery consumption of the mobile terminal is drastically reduced.

In an embodiment of the present invention, a downlink path loss of a mobile station is estimated based on a PHR (Power Headroom Report) reported from a mobile station in a mobile communication system (for example, an LTE based small cell base station system) To perform uplink power control of the mobile station.

를 결정한 후에, 주기적으로 수행되는 차동 TCP 매퍼(Differential TCP Mapper)를 통해서 타겟 파워(예를 들어, 타겟 SNR(signal-to-noise ratio))와 수신 파워(예를 들어, 수신 SNR)의 차이를 기반으로 최대 누적 전력 제어값을 넘지 않는 범위에서 TCP Command를 할당한다. 이에 따라 기지국에서 요구되는 수신 전력을 유지하면서 이동 단말의 배터리 소모를 최소화할 수 있다. 여기서는 수신 파워로 수신 SNR을 사용하고 타겟 파워로 타겟 SNR을 사용하지만, 본 발명은 이에 한정되지 않는다. To this end, based on the estimated downlink path loss of the mobile station, the maximum accumulated power control value

(E.g., a target signal-to-noise ratio (SNR)) and a received power (e.g., a received SNR) through a differential TCP Mapper that is periodically performed The TCP command is allocated within a range not exceeding the maximum accumulated power control value. Accordingly, battery consumption of the mobile terminal can be minimized while maintaining the reception power required by the base station. Here, the reception SNR is used as the reception power and the target SNR is used as the target power, but the present invention is not limited thereto.

FIG. 2 is a diagram illustrating a concept of an uplink power control method according to an embodiment of the present invention, and FIG. 3 is a flowchart of an uplink power control method according to an embodiment of the present invention.

In the embodiment of the present invention, to control the uplink transmission power of the mobile station, an Estimated Pathloss (ePL) is first obtained as shown in FIGS. 2 and 3.

The downlink path loss is measured at the mobile terminal and is not reported to the base station. Therefore, every time the base station receives the PHR (Power Headroom Report), the base station estimates the downlink path loss of the mobile station based on the received PHR value (S10). However, in the present invention, the information used in the downlink path loss estimation of the mobile station is not limited to PHR.

PHR represents the amount of power remaining after transmitting the PUSCH, and can be expressed by the following equation (5).

는 이동 단말의 최대 전송 파워를 나타낸다.

는 PUSCH 전송시 사용된 전송 파워를 나타낸다.

Represents the maximum transmission power of the mobile terminal.

Represents the transmit power used in the PUSCH transmission.

는 현재

상태에서 최대 경로 손실(

) 상태가 되면 나타나는 값으로, 다음 수학식 6과 같이 나타낼 수 있다.

Current

Maximum path loss in state (

) State, and can be expressed by the following equation (6).

From Equation (1), Equation (5), and Equation (6), the downlink path loss estimation (ePL) can be obtained as follows.

는 셀을 설계할 때 결정되는 값을 나타낸다.

는 일반적으로 셀 엣지에서의 경로 손실을 나타낼 수 있다. here,

Represents a value determined when the cell is designed.

Can generally indicate path loss at the cell edge.

,

)을 결정한다(S20). Then, based on the obtained downlink path loss estimation (ePL), a maximum cumulative power control value (

,

(S20).

를 결정한다.

은 현재 이동 단말의 경로 손실 상태에서 PUSCH 전송파워가

를 넘지 않게 하는 범위에서 기지국이 최대로 올릴 수 있는 TPC Command의 누적 한계 값을 나타낸다. 즉, 이동 단말이 PUSCH를 최대 전송 파워로 전송하는 것을 막기 위해서 TPC Command(

)의 누적 전력 제어값

는

보다 작은 범위의 값을 가져야 한다. 설명의 편의상,

는 "제1 최대 누적 전력 제어 값"이라고 명명할 수 있다.First, to control the PUSCH transmission power

.

In the path loss state of the current mobile terminal, the PUSCH transmission power is

Of the TPC command that the base station can maximally increase within a range that does not exceed the threshold value. That is, in order to prevent the mobile terminal from transmitting the PUSCH with the maximum transmission power, the TPC command (

) Cumulative power control value

The

Should have a smaller range of values. For convenience of explanation,

Quot; first maximum accumulated power control value ".

In a state where the downlink path loss estimation (ePL) is obtained according to Equation (7), Equation (6) representing the maximum transmission power of the mobile terminal can be changed as follows.

는 다음과 같이 계산될 수 있다. From Equations (1), (5) and (8) above, the first maximum power control value

Can be calculated as follows.

을 결정한다. As described above, in the embodiment of the present invention, the downlink path loss estimation (ePL) is obtained based on the received PHR value and the PUSCH transmission power of the mobile station is controlled based on the obtained downlink path loss estimation The first maximum accumulated power control value

.

를 결정한다.

은 현재 이동 단말의 경로 손실 상태에서 PUCCH 전송 파워가

를 넘지 않게 하는 범위에서의 기지국이 최대로 올릴 수 있는 TPC Command의 누적 한계 값을 나타낸다. 즉, 이동 단말이 PUCCH를 최대 전송 파워로 전송하는 것을 막기 위해서 TPC Command(

)의 누적 전력 제어값

는

보다 작은 범위의 값을 가져야 한다. 설명의 편의상,

는 "제2 최대 누적 전력 제어 값"이라고 명명할 수 있다.next,

.

In the path loss state of the current mobile terminal, the PUCCH transmission power is

Of the TPC command that the base station can raise to the maximum in the range that does not exceed the TPC command. That is, in order to prevent the mobile terminal from transmitting the PUCCH with the maximum transmission power, the TPC Command

) Cumulative power control value

The

Should have a smaller range of values. For convenience of explanation,

Quot; second maximum accumulated power control value ".

In a state where the downlink path loss estimation (ePL) is obtained according to Equation (7), Equation (3) representing the maximum transmission power of the mobile terminal can be changed as follows.

는 다음과 같이 계산될 수 있다. From Equation (10), the second maximum accumulated power control value

Can be calculated as follows.

는 이동 단말이 최대로 전송할 수 있는 PUCCH 데이터에 대한 전송 파워를 나타낸다. here,

Represents the transmission power for the PUCCH data that the mobile terminal can transmit at the maximum.

을 결정한다. As described above, according to the embodiment of the present invention, the downlink path loss estimation (ePL) is obtained based on the received PHR value and the PUCCH transmission power of the mobile station is controlled based on the obtained downlink path loss estimation The second maximum accumulated power control value

.

Next, the reception power for PUSCH / PUCCH is determined (S30).

)를 결정한다. Specifically, the PUSCH Received SNR (

).

₎은 PUSCH에 대한 수신 파워를 나타내며, PUSCH에 대해 기지국이 이동 단말로 마지막으로 전송한 PUSCH TPC Command 시점부터 다음 TPC Command 전송 시점까지 수신한 PUSCH 또는 SRS(sounding reference signal)의 수신 SNR들의 평균을 토대로 획득될 수 있다. PUSCH rSNR (

₎ Represents the reception power for the PUSCH. Based on the average of the reception SNRs of the PUSCH or the SRS (sounding reference signal) received from the PUSCH TPC Command to the TPC Command transmission time last transmitted to the mobile station by the PUSCH ≪ / RTI >

)를 결정한다. Also, PUCCH Received SNR (

).

₎은 PUCCH에 대한 수신 파워를 나타내며, PUCCH에 대해 기지국이 이동 단말로 마지막으로 전송한 PUCCH TPC Command 시점부터 다음 TPC Command 전송 시점까지 수신한 PUCCH(CQI, HARQ)의 수신 SNR들의 평균을 토대로 획득될 수 있다. PUCCH rSNR (

₎ Represents the reception power of the PUCCH, for the PUCCH base station to be obtained on the basis of the average of the received SNR from PUCCH TPC Command the time of the last transmission by the mobile terminal, and then TPC Command transmission PUCCH (CQI, HARQ) is received and the time .

As described above, the PUSCH / PUCCH is received from the mobile terminal by a threshold number, and the reception SNR is averaged to determine the reception SNR as the reception power for the PUSCH / PUCCH.

,

)를 결정하며, 특히, 위의 단계(S20)에서 추정된 하향링크 경로 손실을 토대로 결정된 최대로 할당 가능한 누적 전력 제어값(제1 최대 누적 전력 제어값, 제2 최대 누적 전력 제어값)보다 작은 누적 전력 제어값(

, )을 가지도록, TPC Command를 결정한다(S50). 이와 같이 결정된 TPC Command는 이동 단말로 전송된다(S60).Next, as shown in FIG. 2, a TPC command is determined through a differential TCP Mapper (Differential TPC Mapper). 3, the difference between the target power (for example, the target SNR) and the received power (for example, the received SNR) is obtained (S40), and the power control value TPC Command

,

), And in particular, is smaller than the maximum assignable accumulated power control value (the first maximum accumulated power control value, the second maximum accumulated power control value) determined based on the downlink path loss estimated in the above step S20 Cumulative power control value (

, , The TPC command is determined (S50). The thus determined TPC Command is transmitted to the mobile terminal (S60).

The process of determining the TPC command through the differential TCP Mapper will be described in more detail.

의 차이를 보정하는 TPC Command(

)를 결정한다. 여기서,

는 PUSCH 의 타겟 SNR을 나타내며,

는 PUCCH의 수신 SNR을 나타낸다.

는 PUSCH 에 대한 TPC Command이며, 설명의 편의상 "제1 전력 제어값"이라고 명명될 수 있다.

는 PUCCH에 대한 TPC Command이며, 설명의 편의상 "제2 전력 제어값"이라고 명명될 수 있다.

와

는 위의 표 1 내지 표 4를 따를 수 있다. The differential TPC mapper may be periodically operated and may be configured to receive the received SNR of the PUSCH / PUCCH received from the mobile terminal and the target SNR

The TPC command (

). here,

Represents the target SNR of the PUSCH,

Represents the received SNR of the PUCCH.

Is a TPC command for the PUSCH, and may be named " first power control value " for convenience of explanation.

Is a TPC command for the PUCCH, and may be referred to as " second power control value " for convenience of explanation.

Wow

Can follow Table 1 to Table 4 above.

,

라고 하며,

는 PUSCH에 대한 전송 파워 다운을 위한 수신 개수의 임계값으로, 설명의 편의상 "제1 파워다운 개수 임계값"이라고 명명될 수 있다.

는 PUCCH에 대한 전송 파워 다운을 위한 수신 개수의 임계값으로, 설명의 편의상 "제2 파워다운 개수 임계값"이라고 명명될 수 있다.In order to transmit the TPC command to the mobile terminal and correct the transmission power of the mobile terminal, a reception number equal to or greater than a certain threshold value is required in order to increase the reliability of the radio channel that changes frequently. When the reception power (reception SNR) is high, the transmission power is quickly lowered for stabilization of the channel. If the reception power is low, the transmission power is slowly increased to exclude the case where the wireless channel temporarily deteriorates. Lt; / RTI > In the embodiment of the present invention, when the transmission power is lowered by the TPC command, the threshold of the number of reception

,

And,

Quot; first power down count threshold " for convenience of description, and is a threshold of the number of receivings for transmission power down to the PUSCH.

Quot; second power down number threshold " for convenience of description, and is a threshold of the number of reception powers for transmission power down for the PUCCH.

,

라고 하며,

는 PUSCH 에 대한 전송 파워 업을 위한 수신 개수의 임계값으로, 설명의 편의상 "제1 파워업 개수 임계값"이라고 명명될 수 있다.

는 PUCCH에 대한 전송 파워 업을 위한 수신 개수의 임계값으로, 설명의 편의상 "제2 파워업 개수 임계값"이라고 명명될 수 있다. In addition, the threshold value of the number of reception in the case of increasing the transmission power

,

And,

Quot; first power-up count threshold " for convenience of description, and is a threshold of the number of receivings for transmission power-up for the PUSCH.

Quot; second power-up number threshold " for convenience of description, and is a threshold value of the number of receivings for transmission power-up for the PUCCH.

이고,

를 만족할 수 있다. 이와 같이, 파워 다운과 파워 업을 차등적으로 결정하여 수시로 변하는 무선채널 환경에 유연하게 대처할 수 있다.here,

ego,

Can be satisfied. In this manner, power down and power up can be determined differentially and flexibly coped with a wireless channel environment that changes from time to time.

4 is a flowchart illustrating a process of determining a TPC command according to an exemplary embodiment of the present invention.

Here, a process of determining a TPC command using an example of the operation of the differential TCP Mapper with respect to the PUSCH will be described. The procedure described below can be similarly applied to the operation of the differential TPC mapper for the PUCCH.

As shown in FIG. 4, when the PUSCH / SRS is received from the mobile station, the differential PC mapper for PUSCH power control increases the PUSCH_RX_COUNT and stores the received SNR value (S100, S110). Here, PUSCH_RX_COUNT represents a counter for counting the number of PUSCH reception.

를 비교한다(S120). PUSCH_RX_COUNT의 값이

보다 작거나 같으면 계속하여 PUSCH/SRS를 수신하고, PUSCH_RX_COUNT를 증가시키고 수신된 SNR 값을 저장한다. The value of the current counter, i.e., the value of PUSCH_RX_COUNT, and the reception threshold value for transmission power down

(S120). If the value of PUSCH_RX_COUNT is

If it is less than or equal to, it continuously receives PUSCH / SRS, increases PUSCH_RX_COUNT and stores the received SNR value.

보다 크면, 수신 파워 즉, 수신된 PUSCH들에 대한 SNR의 평균값을 구한다(S130). 그리고 SNR의 평균값을 토대로, 이동 단말의 PUSCH의 전송 파워를 업시킬지 또는 다운시킬지를 나타내는 TPC Command(

)를 결정한다(S140). 구체적으로, 수신된 PUSCH들에 대한 SNR의 평균값인

과, 타겟 SNR인

의 차이를 토대로 PUSCH에 대한 TPC Command(

)를 결정한다. On the other hand, if the value of PUSCH_RX_COUNT is

The average value of the SNRs for the received PUSCHs is obtained (S130). Based on the average value of the SNR, the TPC command indicating whether the transmission power of the PUSCH of the mobile station is up or down

(S140). Specifically, the average value of the SNRs for the received PUSCHs

And a target SNR

The TPC command for PUSCH (

).

)가 설정값인 0dB 이하이면(S150), 이는 전송 파워를 다운하거나 전송 파워를 유지하는 경우이며,

의 누적 값을 계산한다. 즉, 이전

에 현재 결정된

를 합산하여 PUSCH에 대한 현재까지 누적된 TPC Command(

)를 획득한다(

=

+

)(S160).TPC Command for the determined PUSCH (

Is equal to or less than the set value of 0 dB (S150), this is a case where the transmission power is decreased or the transmission power is maintained,

Is calculated. That is,

Currently determined in

And accumulates the accumulated TPC command for the PUSCH (

) ≪ / RTI >

=

+

) (S160).

)를 이동 단말로 전송한다(S170, S180).Next, After initializing PUSCH_RX_COUNT, the final TPC Command (

To the mobile terminal (S170, S180).

)가 설정값인 0dB를 초과하면, 무선채널이 일시적으로 나빠지는 상황을 극복하기 위해 PUSCH_RX_COUNT가 전송 파워 업을 위한 수신 임계값인

를 넘는지를 결정한다(S190). On the other hand, if the TPC command for the currently determined PUSCH (

) Exceeds the set value of 0 dB, in order to overcome the situation where the radio channel is temporarily deteriorated, PUSCH_RX_COUNT is set to a reception threshold value for transmission power-up

(S190).

를 초과하지 않으면, 최종 TPC Command(

)를 0dB로 하여 이동 단말로 전송한다(S200). 이때, 지속적으로 채널이 안 좋은지를 확인하기 위해서 PUSCH_RX_COUNT를 초기화하지 않고 최종 TPC Command(

)(0dB)를 이동 단말로 전송한다.PUSCH_RX_COUNT is

, The final TPC Command (

) To 0 dB (S200). At this time, in order to continuously check whether the channel is bad, PUSCH_RX_COUNT is not initialized and the final TPC Command

(0 dB) to the mobile terminal.

를 초과하면, 즉,

는 넘을 때까지도 수신 파워가 낮게 나오는 경우에는, 무선 채널 상태가 안 좋은 것으로 판단하여 전송 파워 업을 위한 TPC Command(

)를 전송해야 하지만, 먼저, 해당 전송 파워 업에 의해 누적 전력 제어값(

)이 단말의 현재 위치에서의 경로 손실 상태에서 최대로 올릴 수 있는 누적 최대값

을 넘지 않는지를 확인한다. On the other hand, if PUSCH_RX_COUNT is

, That is,

If the reception power is low even when the reception power is low, the radio channel state is determined to be bad, and TPC Command (

), But first, the accumulated power control value (

) The cumulative maximum value that can be maximized in the path loss state at the current position of this terminal

Is not exceeded.

의 누적 값(

+

)과 최대값

을 비교하고(S210),

의 누적 값(

+

)이 최대값

보다 크거나 같으면, PUSCH에 대한 최종 TPC Command(

)를 0dB로 하고(S220), PUSCH_RX_COUNT를 초기화한 후에 최종 TPC Command(

)(0dB)를 이동 단말로 전송한다(S170, S180).In other words,

Cumulative value of (

+

) And the maximum value

(S210). Then,

Cumulative value of (

+

) Is the maximum value

If greater than or equal to, the final TPC Command for PUSCH (

) Is set to 0 dB (S220), PUSCH_RX_COUNT is initialized, and the final TPC Command (

(0 dB) to the mobile terminal (S170, S180).

의 누적 값(

+

)이 최대값

보다 작으면, PUSCH에 대한 최종 TPC Command(

)(

+

)를 획득하고(S160), PUSCH_RX_COUNT를 초기화한 후에 최종 TPC Command(

)를 이동 단말로 전송한다(S170, S180).

Cumulative value of (

+

) Is the maximum value

The final TPC Command (< RTI ID = 0.0 >

) (

+

) (S160), initializes PUSCH_RX_COUNT, and then transmits the final TPC Command

To the mobile terminal (S170, S180).

As described above, according to an embodiment of the present invention, a downlink path loss of a mobile station is estimated to determine a maximum cumulative power control value assignable to a mobile station, and a maximum The TPC command for controlling the uplink transmission power of the mobile station is determined within a range that does not exceed the allocatable accumulated power control value so that battery consumption of the mobile station can be minimized while maintaining the reception power required by the base station.

5 is a structural diagram of an uplink power control apparatus according to an embodiment of the present invention.

5, the uplink power control apparatus 1 according to the embodiment of the present invention includes a processor 110, a memory 120, and a transmitting / receiving unit 130. As shown in FIG. The processor 110 may be configured to implement the methods described above based on FIGS. 1-4. In addition, the processor 110 may be configured to include a differential TPC mapper operating as shown in FIG.

The memory 120 is coupled to the processor 110 and stores various information related to the operation of the processor 110. [ The memory 120 stores instructions to be executed by the processor 110, or may temporarily store an instruction loaded from a storage device (not shown). The processor 110 may execute instructions that are stored or loaded into the memory 120. The processor 110 and the memory 120 are connected to each other via a bus (not shown), and an input / output interface (not shown) may be connected to the bus.

The transmitting and receiving unit 130 is configured to transmit and receive a signal, and may be configured to receive, for example, PUSCH / PUCCH / SRS from the mobile terminal and transmit a TPC command to the mobile terminal.

The embodiments of the present invention are not limited to the above-described apparatuses and / or methods, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It belongs to the scope of right.

Claims (11)

A method for performing uplink power control of a mobile station in a mobile communication system,
Estimating a downlink path loss of a mobile station based on information received from the mobile station;
Determining a maximum cumulative power control value that can be allocated to the mobile terminal based on the estimated downlink path loss of the mobile terminal;
Determining a received power for a signal received from the mobile terminal;
The uplink transmission power of the mobile station is calculated based on a difference between the determined received power and target power within a range smaller than the maximum cumulative power control value through a differential TPC (Transmit Power Control) mapper Determining a power control value for control; And
Transmitting the determined power control value to the mobile terminal
≪ / RTI > The method according to claim 1,
Wherein the step of determining a reception power for a signal received from the mobile terminal comprises:
Determining the received power based on an average of the received signals when the number of signals received from the mobile terminal exceeds a preset power down number threshold. The method according to claim 1,
Wherein the determining the power control value comprises:
When the current power control value determined based on the difference between the reception power and the target power corresponds to a power control value for increasing power, the number of signals received from the mobile terminal is compared with a predetermined power-up number threshold step;
When the number of received signals is greater than the power up count threshold, an accumulated power control value including the current power control value is allocated to the mobile terminal at a maximum based on a downlink path loss of the mobile terminal Comparing the accumulated power control value with a cumulative power control value; And
When the cumulative power control value is smaller than the maximum cumulative power control value, the cumulative power control value including the current power control value is determined as a power control value for controlling the uplink transmission power of the mobile terminal step
/ RTI > The method of claim 3,
Wherein the determining the power control value comprises:
When the number of received signals is not greater than the power up count threshold or when the accumulated power control value is not less than the maximum cumulative power control value that can be allocated, The step of determining the value
≪ / RTI > 5. The method of claim 4,
Wherein the step of determining the power control value for maintaining the transmission power of the mobile terminal comprises:
Sets the current power control value to 0 dB, and determines an accumulated power control value including the current power control value as a power control value for controlling an uplink transmission power of the mobile station. The method according to claim 1,
Wherein the determining the power control value comprises:
When the current power control value determined based on the difference between the reception power and the target power corresponds to a power control value for powering down or maintaining the power control value, And determining as a power control value for controlling the uplink transmission power of the uplink transmission power. The method according to claim 1,
The step of determining the reception power may include determining an average of a received signal to noise ratio (SNR) of a signal received from a time point at which the base station transmits the TPC command including the last power control value to the mobile terminal And determines the reception power based on the received power. 8. The method of claim 7,
Wherein the received signals are one of a physical uplink shared channel (PUSCH) or a sounding reference signal (SRS). 1. A power control apparatus for performing uplink power control of a mobile station in a mobile communication system,
A transmitting and receiving unit configured to transmit and receive a signal through an antenna, and
And a differential TPC (Transmit Power Control) mapper coupled to the transceiver and configured to determine a power control value for power control,
The processor estimates a downlink path loss of the mobile terminal based on information received from the mobile terminal through the transceiver and allocates the maximum path loss to the mobile terminal based on the estimated downlink path loss of the mobile terminal Determine a cumulative power control value and determine a received power for a signal received from the mobile terminal,
Wherein the differential TPC mapper of the processor calculates a power control value for controlling an uplink transmission power of the mobile station based on a difference between the determined received power and target power within a range smaller than the maximum cumulative power control value The power control device comprising: 10. The method of claim 9,
The differential TPC mapper repeatedly performs a process of determining a power control value for controlling the uplink transmission power of the mobile station based on the difference between the determined reception power and the target power each time the reception power is determined Respectively,
And the transceiver is configured to transmit a TPC command including the determined power control value to the mobile terminal. 10. The method of claim 9,
Wherein the received power is determined based on an average of a received signal-to-noise ratio (SNR) of the received signals.

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