KR100824296B1 - Method for controlling transmission power of control channel timeslots in a radio communication terminal - Google Patents

Abstract

The present invention provides a transmission power of a second uplink control channel that can be received by two or more cell base stations to help demodulate a first uplink control channel for controlling a downlink shared channel provided by a cell in a cellular wireless communication system. It relates to a technique for efficiently controlling. In the present invention, while controlling the transmission power of the second uplink control channel in units of two or more timeslots, one time slot control is performed in the vicinity of the provided timeslot of the first uplink control channel. In particular, the present invention relates to a technique for controlling uplink DPCCH transmission power of a terminal in a soft handover state in an IMT-2000 HSDPA system. Determining a transmission power of the DPCCH in units of slot groups (N> 1); After the transmission of the HS-DPCCH is terminated, a predetermined slot (k_algo1) is achieved by a second process of determining the DPCCH transmit power in a proper manner using power control commands received from all base stations in every transmission slot.

Description

TECHNICAL FOR CONTROLLING TRANSMISSION POWER OF CONTROL CHANNEL TIMESLOTS IN A RADIO COMMUNICATION TERMINAL}

1 is a diagram illustrating a case where N terminals are in soft handover state with several base stations.

2 is an explanatory diagram showing a conventional first power control method;

3 is an explanatory diagram showing a conventional second power control method;

4 is an explanatory diagram showing a conventional modified power control scheme.

5 is an explanatory diagram showing another modified power control scheme in the prior art.

6 is an explanatory diagram showing a power control method according to the present invention;

7 is an explanatory diagram showing another power control method according to the present invention;

*** Description of the symbols for the main parts of the drawings ***

11A-11N: Base Station 12: Terminal

According to the present invention, a transmission power of a second uplink control channel that can be received by two or more cell base stations to help demodulate a first uplink control channel for controlling a downlink shared channel provided by one cell in a cellular wireless communication system. The present invention relates to a technique for more efficiently controlling slot units. In particular, the present invention relates to a technique for controlling the uplink DPCCH transmission power of a terminal in a soft handover state in the IMT-2000 HSDPA system, and in particular, when the HS-DPCCH transmission ends, the DPCCH transmission power is quickly required. A transmission power control method of a control channel timeslot of a wireless communication terminal to be restored.

Proper transmit power control of the uplink in a CDMA communication system is essential for increasing system capacity. In particular, a CDMA terminal in a soft handover state receives power control commands by a plurality of base stations, and considers all of these commands, and transmits them to the uplink according to a level that can be received by one of the base stations. Determine the transmit power of. When one terminal in a soft handover state transmits a plurality of channels at the same time, some of the channels are received only by one base station, not a plurality of base stations. In this case, the terminal needs to adjust the power control scheme of the uplink channels for efficient reception at the base station.

In a cellular wireless communication system, a base station of a cell provides a downlink shared channel to a plurality of terminals in a cell. The downlink shared channel is exclusively owned by a specific terminal for a specific time, so that one terminal is dedicated. In order to control the downlink shared channel, the specific terminal transmits control information to the cell base station through an uplink channel. In order to receive the uplink control channel signal from the base station, a general control channel signal of the terminal should be used.

However, the general control channel is not only received by one base station, but can be simultaneously received by several base stations, and thus the transmission power may be sufficient to be received by only one base station among several base stations. If the base station transmitting the downlink shared channel is different from the base station transmitting the downlink shared channel, the base station transmitting the downlink shared channel may not receive a signal of a general control channel that controls the transmission power according to the good base station. It was unreasonable.

Therefore, when transmitting a signal to the control channel for controlling the downlink shared channel, the terminal is to adjust the transmission power of the general control channel up. Hereinafter, the IMT-2000 HADPA system will be described as an example.

 The HS-DPCCH of the IMT-2000 HADPA system corresponds to such a channel, and power control schemes for efficient reception of the HS-DPCCH have already been proposed. By using these methods, however, the reception performance of the HS-DPCCH can be improved, but the degree of interference in the system is increased compared with the conventional power control scheme.

The HS-DPCCH of the uplink channel of the IMT-2000 HSDPA is received only by the base station serving the HSDPA to the terminal even if the terminal is in soft handover state with a plurality of base stations. The terminal in the soft handover state transmits the HS-DPCCH at a transmit power proportional to the transmit power of the DPCCH, which is a channel already transmitted on the uplink, and the base station transmits the pilot through the DPCCH to demodulate the information of the HS-DPCCH. Signal is used. At this time, the power control of the DPCCH is transmitted to the minimum power that can be received by any of the base stations participating in the soft handover, so that the power of the pilot transmitted through the DPCCH is received only by one base station. May not be sufficient for demodulation. Therefore, the UE estimates and applies the transmission power of the DPCCH required for demodulating the HS-DPCCH at the moment when the UE starts transmitting the HS-DPCCH, or transmits the DPCCH in accordance with the base station serving the HSDPA from a certain time before transmitting the HS-DPCCH. Two methods of adjusting power have been proposed.

A general transmission power control method of a terminal in soft handover state in an IMT-2000 system will be described below.

In the IMT-2000 system, the UE continuously transmits the general control channel DPCCH along with the general traffic channel on the uplink. In addition, the terminal transmits a pilot for traffic channel demodulation and other necessary control information through the DPCCH.

로 표시하였다.

= 1 인 경우를 전력 상승(up) 명령으 로,

= -1 인 경우를 전력 하강(down) 명령으로 가정한다면 도 1의 예에서 1번 기지국(11A)은 현재의 DPCCH 수신 전력값이 필요 이상으로 높은 값이라고 판단하여 전력 하강 명령을 내렸으나 N-1 번, N 번 기지국(11N-1),(11N)은 현재의 DPCCH 수신 전력값이 너무 작은 값이라고 판단하여 전력 상승 명령을 내렸다. The terminal in the soft handover state receives a transmit power control command for the DPCCH from all base stations participating in the soft handover. At this time, the received power of the DPCCH received at each base station varies depending on the environment up to each base station, and each base station may send different power control commands according to the received power of the received DPCCH. 1 shows an example in which the terminal (mobile phone) 12 is in a soft handover state with N base stations 11A-11N, and the power control command transmitted from the i-th base station to the terminal 12 is shown in FIG.

Marked as.

= 1 as power up command,

Assuming a case of = -1 as a power down command, in the example of FIG. 1, the base station 11A 1 determines that the current DPCCH received power value is higher than necessary, and gives a power down command. The 1st and Nth base stations 11N-1 and 11N determined that the present DPCCH received power value was too small, and gave a power-up command.

The terminal 12 obtains the power control value TPC_comb to be applied to the DPCCH by using one of the first power control method and the second power control method described later in the received power control commands. TPC_comb has a value of 1 or -1, where the actual transmit power of the DPCCH is increased by TPC_comb x ΔTPC than the transmit power in the previous slot. The ΔTPC is a predefined power control step value.

In the first power control scheme, the terminal determines the DPCCH transmit power in an appropriate manner by using a power control command received from all base stations for each slot as shown in FIG. 2. Thus, the DPCCH transmit power may vary in every slot.

In the second power control scheme, the terminal determines transmission power of the DPCCH in units of N slot groups (N> 1). FIG. 3 illustrates an example in which N is three. As shown here, it is predetermined by the system time of each N slot group. The DPCCH transmit power is not changed for the first N-1 slot of any N slot group, and in the last N-th slot, the DPCCH transmit power is determined in an appropriate manner using the power control commands received from all base stations during the N slot group. Thus, the DPCCH transmit power may change once in N slots.                         

The proposed transmission power control method when a terminal in soft handover state transmits HS-DPCCH will now be described.

The terminal using the HSDPA service in the IMT-2000 system continuously transmits the DPCCH, which is a general control channel, on the uplink, and intermittently transmits the HS-DPCCH, which is a control channel for the HSDPA, in an arbitrary slot. At this time, the base station serving the HSDPA to the terminal uses the pilot signal transmitted through the DPCCH for demodulation of the HS-DPCCH. The transmission power of the HS-DPCCH is determined to be a value proportional to the transmission power of the DPCCH. That is, the transmit power of the HS-DPCCH is changed corresponding to the transmit power of the DPCCH.

Since the DPCCH is received by all base stations participating in soft handover when the terminal is in soft handover, power control from all base stations as described in "General Transmission Power Control Method for Terminals in Soft Handover". Transmission power control taking into account the commands is performed. However, since the HS-DPCCH is only received by the base station serving the HSDPA to the terminal, when the transmission power of the HS-DPCCH is set in proportion to the transmission power of the DPCCH, the HS-DPCCH receiving power at the base station serving the HSDPA is required. May be shorter than power. In addition, the received power of the DPCCH pilot signal at the base station serving the HSDPA may also be insufficient for demodulating the HS-DPCCH. In order to solve this problem, two methods have been proposed as a method of modifying the existing DPCCH transmission power control scheme in consideration of the transmission of the HS-DPCCH in the soft handover state and receiving the HSDPA service. Hereinafter, the two methods are referred to as modified power control scheme (A) and modified power control scheme (B), respectively.

번 째 슬롯부터 n 번 째 슬롯까지의 전력 제어 명령들과 전력 제어 이력을 통하여 HS-DPCCH를 전송하는 슬롯에서 필요한 DPCCH 송신 전력을 추정하고 이에 맞춰서 DPCCH 송신 전력을 결정한다. 따라서 HS-DPCCH를 전송하는 슬롯에서의 DPCCH 송신 전력은 이전 슬롯에서의 송신 전력에 비해

TPC보다 큰 값으로 증가하거나 감소할 수 있다. 도 4의 예에서 K_est 값으로는 5를 가정하였다.4 is a diagram illustrating DPCCH transmission power control when a terminal using the second power control method described in "General transmission power control method of a terminal in soft handover state" among modified power control schemes transmits HS-DPCCH. Indicates the method. When the slot for transmitting the HS-DPCCH is called the nth slot,

Through the power control commands and the power control history from the first slot to the nth slot, the estimated DPCCH transmission power in the slot for transmitting the HS-DPCCH is estimated and the DPCCH transmission power is determined accordingly. Therefore, the DPCCH transmit power in the slot transmitting the HS-DPCCH is compared to the transmit power in the previous slot.

It may increase or decrease to a value greater than the TPC. In the example of FIG. 4, 5 is assumed as the K_est value.

In slots other than the slot for transmitting the HS-DPCCH, DPCCH transmission power control is performed by the existing second power control scheme.

슬롯 그룹의 경계에서 전송 전력 제어 방식을 다시 제2 전력 제어방식으로 바꾼다. 여기서, M은 임의의 상수이다.FIG. 5 shows a DPCCH transmission when a terminal using the second power control scheme described in "General transmission power control method of a terminal in soft handover state" in the modified power control scheme (B) transmits HS-DPCCH. Indicates a power control method. When the slot for transmitting the HS-DPCCH is referred to as the nth slot, the terminal describes the transmission power control scheme of the DPCCH starting from the n-K_mod slot, as described in "General transmission power control method of a terminal in soft handover state". 1 The power control method is changed and the power of each slot is determined only by a power control command from the base station serving the HSDPA. In FIG. 5, 5 is assumed as the K_mod value. After the transmission of the HS-DPCCH, the terminal determines the power of each slot in consideration of power control commands from all base stations. In addition, the terminal is the boundary of the N slot group first appearing after the HS-DPCCH transmission, or

The transmission power control scheme is changed back to the second power control scheme at the boundary of the slot group. Where M is any constant.

However, in the conventional method of controlling a transmission power of a wireless communication terminal in a mobile communication system, in units of two or more slots in time slots of a general control channel after signal transmission to a control channel for controlling a downlink shared channel is terminated. Since the transmission power is adjusted, there is a problem that the transmission power of the general control channel is unnecessarily high for a predetermined time.

That is, if the transmission power control method of the terminal in the soft handover state in the IMT-2000 HSPDA system is applied to the DPCCH transmission power control in the slot in which the HS-DPCCH is transmitted to the terminal operating in the second power control method, the HS- In the transmission slots after the end of the DPCCH transmission, since the DPCCH transmission power is changed once in the N slot, it takes much time to adjust the DPCCH transmission power for the HS-DPCCH transmission and then return to the normal DPCCH transmission power. As a result, there is a problem that the degree of interference in the system is increased.

Accordingly, an object of the present invention is another uplink control that can be received by two or more cell base stations that are adjusted up to help demodulate an uplink control channel for controlling a downlink shared channel provided by one cell in a cellular wireless communication system. The present invention provides a control channel transmission power control method of a wireless communication terminal for quickly recovering a transmission power of a channel to a required level. Particularly, in the IMT-2000 HSDPA system, the radio communication terminal transmits the uplink DPCCH transmission power of the terminal in the soft handover state efficiently, thereby reducing the degree of interference in the system due to the DPCCH transmission power during HS-DPCCH transmission. It is to provide a power control method.

A control channel timeslot transmission power control method of a wireless communication terminal according to the present invention includes a first method of controlling transmission power in units of two or more timeslots according to power control commands received from a plurality of cell base stations in a cellular wireless communication system. And a second process of adjusting a transmission power with respect to the timeslot if there is a transmission of a signal for controlling a downlink shared channel provided by a cell; and when the signal transmission ends, more than the two or more timeslots. A third process of controlling transmit power in one time slot unit during a time slot and a fourth process of controlling transmit power in two or more timeslot units according to power control commands received from a plurality of cell base stations.

In particular, the embodiment of the method for controlling the control channel time slot transmission power of the wireless communication terminal according to the present invention is that the terminal in soft handover state in the IMT-2000 HSDPA system transmit power of the DPCCH in units of N slot groups (N> 1). Determining a first process; After the transmission of the HS-DPCCH is completed, a second process of determining the DPCCH transmission power in a proper manner by using a power control command received from all base stations in each transmission slot during a predetermined slot (k_algo1). 6 and 7, the transmission power control method of the present invention will be described in detail as follows.

In the present invention, the terminal in soft handover state in the IMT-2000 HSDPA system applies a modification to the existing scheme proposed to properly adjust the DPCCH transmission power in the HS-DPCCH transmission interval, and operates in the normal second power control scheme. In case of the UE, the first power control scheme is applied to the DPCCH transmission power for at least K_algo1 slots after the HS-DPCCH transmission is terminated.

The first and second power control schemes are as described in the related art. That is, in the first power control scheme, the terminal determines the DPCCH transmission power in an appropriate manner by using the power control command received from all base stations for each slot as shown in FIG. 2. Thus, the DPCCH transmit power may vary in every slot. In addition, in the second power control scheme, the terminal determines transmission power of the DPCCH in units of N slot groups (N> 1). FIG. 3 illustrates an example in which N is three. As shown here, it is predetermined by the system time of each N slot group. The DPCCH transmit power is not changed for the first N-1 slot of any N slot group, and in the last N-th slot, the DPCCH transmit power is determined in an appropriate manner using the power control commands received from all base stations during the N slot group. Thus, the DPCCH transmit power may change once in N slots.

N 슬롯 그룹의 경계까지 DPCCH 전송에 제1 전력 제어방식을 적용한다. 상기 M은 임의의 상수이다. 이후에는 다시 제2 전력 제어방식을 적용하게 된다.The DPCCH transmit power after the K_algo1 slot again follows the original second power control scheme. That is, in the present invention, when the HS-DPCCH is transmitted in the nth slot, the terminal in the present invention is the boundary of the N slot group first appearing after the n + 1 + K_algo1 slot from the n + 1st slot, or M

The first power control scheme is applied to the DPCCH transmission up to the boundary of the N slot group. M is any constant. After that, the second power control scheme is applied again.

6 and 7 are modified power control schemes described in the "proposed method for controlling transmission power when a UE in soft handover state transmits HS-DPCCH" in the case of K_algo = 5. The example applied to (A) and (B) is shown.

Comparing the example of Figs. 6 and 7 with the example of Figs. 4 and 5, the time taken for the DPCCH transmission power to return to normal power after the HS-DPCCH transmission is completed in the scheme proposed by the present invention is conventional. It can be seen that it is much shorter than the method of.

As described in detail above, the present invention provides a second uplink control that can be received by two or more cell base stations to help demodulate a first uplink control channel for controlling a downlink shared channel provided by a cell in a cellular wireless communication system. The transmission power of the channel can be controlled more efficiently.

In particular, in the IMT-2000 HSDPA system, the terminal in the soft handover state adjusts the DPCCH transmission power appropriately in the HS-DPCCH transmission interval, and when the HS-DPCCH transmission ends, the normal soft handover is performed again. By adjusting the transmission power required for DPCCH transmission in the state so that the DPCCH transmission power is quickly restored to the required level, the uplink DPCCH transmission power of the terminal is adjusted more efficiently, thereby reducing the degree of uplink interference in the system. It is effective.

Claims (9)

In a cellular wireless communication system, a first process of controlling transmission power in units of two or more timeslots according to a power control command received from one or more cell base stations, and transmission of a signal for controlling a downlink shared channel provided by one cell A second process of upwardly adjusting the transmission power with respect to the timeslot, and a third process of controlling the transmission power in one time slot unit for more time slots than the two or more time slots when the signal transmission ends. And a fourth process of controlling the transmission power in units of two or more timeslots according to a power control command received from at least one cell base station. 2. The method of claim 1, wherein the third process controls transmission power according to a power control command received from at least one cell base station. 3. The method of claim 2, wherein the transmission power control according to the power control command received from the cell base station is to reduce the power if any one of the power control command from the received one or more cell base station is a power reduction command. Control channel time slot transmission power control method of a communication terminal. The wireless communication terminal of claim 1, wherein the second process controls transmission power according to a power control command of a base station providing the downlink shared channel among power control commands received from the at least one cell base station. Channel timeslot transmission power control method. 5. The method of claim 4, wherein the second process controls transmission power in units of one time slot. 6. The control channel timeslot transmission power control of a wireless communication terminal according to claim 5, wherein the second process is applied to two or more timeslots before a timeslot in which a signal for controlling the downlink shared channel is transmitted. Way. A first step of determining, by the terminal in soft handover state, the transmission power of the DPCCH in units of N slot groups in the IMT-2000 HSDPA system; And a second step of determining the DPCCH transmission power by using a power control command received from all base stations in each transmission slot during the predetermined slot after the transmission of the HS-DPCCH is terminated. Power control method. 8. The method of claim 7, wherein the second process includes determining the transmission power of the DPCCH in units of N slot groups from the boundary of the N slot group or the boundary of the MN slot group first appearing after a predetermined slot has elapsed. Transmission power control method of a wireless communication terminal characterized in that. The method of claim 7 or 8, wherein the transmission power control method of the wireless communication terminal is variably operated for determining the DPCCH transmission power by using the power control commands received from all base stations in every transmission slot.

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