KR100983262B1 - Method of adjusting a transmission power of up-ink signal - Google Patents

Abstract

The present invention relates to power control, and more particularly, to a method for controlling transmit power of an uplink signal and a communication terminal therefor. The method for controlling the transmit power of the uplink signal for this purpose comprises the steps of: detecting power adjustment values from power control commands transmitted from the base stations respectively during the handoff; If the power adjustments for base stations are all 'increase' power adjustments, increase power, decrease power if there is at least one 'decrease' power adjustment, and adjust the power adjustment. If there is no 'decreased' power adjustment value among the values, and there is at least one 'maintain' power adjustment value, the method includes 'holding' the power.

Uplink, transmit power

Description

Method of adjusting a transmission power of up-ink signal

1 illustrates an example of a method of controlling transmit power of an uplink signal according to the prior art.

2 is a block diagram showing the configuration of a terminal for controlling the transmission power of an uplink signal according to a preferred embodiment of the present invention.

3 shows a flowchart for controlling the transmit power of an uplink signal according to a preferred embodiment of the present invention.

* Description of the major symbols in the drawings *

10: power adjustment value detection unit

20: transmission power determination unit

30: terminal

The present invention relates to power control, and more particularly, to a method for controlling transmit power of an uplink signal and a communication device therefor.                         

Proper transmission power control of the uplink in a CDMA communication system is essential for increasing system capacity. In particular, when performing soft handover, the CDMA terminal receives power control commands from multiple base stations, and determines the transmit power of the uplink signal in consideration of all these commands. In a typical CDMA system, a terminal determines whether to increase or decrease the transmit power of an uplink signal by using a power control command received from a base station. A terminal performing soft handover receives a power control command received from each base station. Combinations of these are appropriately determined to increase or decrease the transmit power of the actually transmitted uplink signal.

As another example, a power control scheme in which a terminal selects one of three states of increasing, decreasing, and maintaining a transmission power of a current uplink signal using a power control command received from a base station. In practice, the IMT-2000 synchronous CDMA system includes a three-state power control scheme as one of two options (PCA2: power control algorithm 2) for controlling the transmit power of the uplink signal.

The power control operation in the second of the two options may be divided into two types depending on whether the terminal is performing soft handover. The second option when the terminal is not performing soft handover increases the transmit power of the terminal if all of the power control commands during the time slots of the predetermined length are increased, and conversely during the time slots of the predetermined length. If the power control commands are all reduced, then the method is to reduce the transmit power of the terminal. 1 illustrates an operation when the second option is not in the soft handover state.

The second option in the case where the terminal is performing soft handover is that after the terminal finally determines whether to increase, maintain, or decrease the transmit power of the terminal for each of the base stations that are performing the soft handover, the final decision value. If the average value is equal to or greater than a first reference value, the transmit power of the uplink signal of the terminal is increased, and conversely, if it is less than or equal to a second reference value, the transmit power of the uplink signal of the terminal is reduced.

In the IMT-2000 standard, when the terminal is performing a soft handover, the tri-state power control scheme is inefficient and in some cases, excessively increases the transmission power of the uplink signal of the terminal.

For example, a terminal performing a soft handoff associated with two base stations determines to maintain (TPCtemp1 = 0) the transmit power of an uplink signal to a first base station, and uplink signal to a second base station. If it is assumed that the transmission power of TPCtemp1 = -1 is determined, it means that the second base station can obtain the required reception quality even if the transmission power of the uplink signal to the second base station is reduced. In this case, since the reception quality of the uplink signal from the terminal performing soft handover in association with a plurality of base stations on the uplink is guaranteed only at one base station, in this case, the transmission power of the uplink signal of the terminal is reduced. It is desirable to reduce power consumption of the terminal and to improve uplink coverage. Nevertheless, in the prior art, there is a problem in that unnecessary transmission power is wasted by not considering the above situation. In addition, the terminal may satisfy the constant reception quality expectation of the uplink signal with the minimum transmission power due to the unnecessarily increased transmission power, thereby allowing the terminal to communicate with the base station at a certain maximum transmission power that can be supported (or coverage). ) There is a problem that can not make room for maximization.

SUMMARY OF THE INVENTION In view of the problems of the prior art mentioned above, an object of the present invention is to provide a method for controlling the transmission power of an uplink signal.

Another object of the present invention is to provide a method for controlling transmit power of an uplink signal in order to reduce power consumption of a terminal.

Another object of the present invention is to provide a method for controlling the transmit power of an uplink signal that can improve the coverage of the uplink.

According to an aspect of the present invention for achieving the above object, the method for controlling the transmit power of the uplink signal is to detect the power adjustment values from the power control commands respectively transmitted from the base stations during the handoff If the power adjustments to the base stations are all 'increase' power adjustments, increase power, decrease power if there is at least one 'decrease' power adjustment value, If there is no 'decreased' power adjustment value of the power adjustment value, and there is at least one power adjustment value of 'maintain', it comprises the step of 'maintaining' the power.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The present invention proposes a method in which a terminal performing soft handover can efficiently reduce the transmission power of an uplink signal of the terminal while maintaining the call quality (receive quality from a base station) of the uplink signal.

2 is a block diagram showing the configuration of a terminal for controlling the transmission power of an uplink signal according to a preferred embodiment of the present invention.

3 shows a flowchart for controlling the transmit power of an uplink signal according to a preferred embodiment of the present invention.

2 and 3, in a CDMA communication system, each base station measures reception quality of an uplink signal transmitted by a terminal 30 accessing itself periodically or according to a signaling signal from a higher layer, thereby receiving reception quality information. (S10) Each base station transmits a power control command to the terminal 30 to control the transmission power of the uplink signal of the terminal 30 connected to the terminal to an appropriate level based on the reception quality information. (S11) In the 3-state power control scheme, the terminal 30 determines whether to increase / decrease / maintain the transmit power of the uplink signal by using power control commands received from base stations to which it is connected. This is reflected in the transmit power of the actually transmitted uplink signal.

In particular, when the terminal 30 performs a soft handover in association with a plurality of base stations, the uplink signal transmitted by the terminal 30 to the plurality of base stations is transmitted from the terminal 30 to each base station. The base station may detect different reception quality information according to the channel environment up to. Accordingly, each base station independently transmits different power control commands to the terminal 30 based on the reception quality information detected by the base station. (S11) For example, each base station detects itself every time slot. The power control command is transmitted to the terminal 30. The power adjustment value detection unit 10 of the terminal 30 detects the power adjustment value TCPtempi from the power control commands transmitted during the time slots of a predetermined length for each base station. For example, the terminal 30 detects the power adjustment value as an increase (TCPtempi = 1) when all power control commands transmitted from any base station for five time slots are increased, and during the same period, If all decreases, the power adjustment value is detected as a decrease (TCPtempi = -1), otherwise the power adjustment value is detected as a hold (TCPtempi = 0).

If any one of the N power adjustment values for the plurality of base stations is reduced (TCPtempi = -1) (S13), the transmission power determination unit 20 of the terminal 30 transmits from the terminal 30. It is determined that the transmission power of the uplink signal is reduced (S14). However, there is no decrease (TCPtempi = -1) among the N power adjustment values for the plurality of base stations, and the power adjustment values are all If the increase (TPC_tempi = 1) (S15), it is determined to increase the transmission power of the uplink signal transmitted from the terminal 30 (S16). If there is no decrease (TCPtempi = -1) among the N power adjustment values for the plurality of base stations, and if any one of the power adjustment values is maintained (TPC_tempi = 0), then the terminal 30 It is determined to maintain the transmission power of the transmitted uplink signal (S17).

As described above, the present invention meets the principle that the reception quality of the uplink signal from the terminal for the terminal performing the soft handoff in association with the plurality of base stations should be guaranteed at only one base station. If there is a power reduction value of any one of the power adjustment values for these devices, the terminal determines to reduce the transmit power of the uplink signal. Further, if all of the power adjustments for the plurality of base stations are 'increase' power adjustments, the terminal determines to increase the transmit power of the uplink signal. Thus, the present invention does not require a separate average process or threshold.

Table 1 below is an example of applying the method proposed in the present invention.

Case 1 Case 2 Case 3 Case 4 Case 5 Case 6 Case 7 Case 8 Case 9 TPC _temp1 -One -One -One 0 0 0 One One One TPC _temp2 -One 0 One -One 0 One -One 0 One Actual transmit power decrease decrease decrease decrease maintain maintain decrease maintain increase

As can be seen from the example of Table 1, in the scheme proposed by the present invention, the reception quality of the uplink signal transmitted to one or more base stations is guaranteed even if the transmission power of the terminal performing the soft handoff is reduced. In this case, the terminal transmission power is reduced. Therefore, waste of transmission power is prevented while maintaining a desired level of reception quality. In addition, since the transmission power of the terminal can be reduced, the terminal can transmit an uplink signal that can be effectively received by a corresponding base station that maintains the desired level of reception quality at a distance as long as possible with the minimum transmission power. It also provides an improvement in coverage. As a result, uplink transmission power control is more efficient than the conventional power control scheme for the terminal performing soft handover.

As described above, the present invention is applied when the terminal operating in the three-state power control method is performing soft handover to efficiently control the transmission power of the uplink signal, thereby reducing terminal power consumption and improving uplink coverage. There is an effect that can be improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (2)

In the method for the terminal to control the transmission power of the uplink signal, Detecting power adjustment values for the plurality of base stations based on power control commands received from the plurality of base stations during time slots of a predetermined length, respectively, while the terminal is performing a handoff; And If the power adjustment values detected for each base station are all increased, the transmission power of the uplink signal is increased. If at least one of the power adjustment values detected for each base station is 'decreased', the transmission power of the uplink signal is increased. To reduce, and in other cases to maintain the transmission power of the uplink signal, The power adjustment value of each base station is 'increase' if all of the power control commands received during the time slot of the predetermined length are 'increase', 'decrease' if all of the received control commands are 'decrease', The transmission power control method of the uplink signal, characterized in that detected as 'maintain'. The method of claim 1, The time slot of the predetermined length is a transmission power control method of the uplink signal, characterized in that five time slots.

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