KR20050068723A - A method for controlling downlink power of the rnc - Google Patents

Abstract

The present invention relates to power control of a WCDMA base station system, which is one of the IMT-2000 service methods. In particular, the base station provides a downlink TPC (hereinafter, referred to as "downlink power control command") in case the base station cannot receive an uplink signal from the terminal. TPC " " information for controlling the downlink power of the base station.

The constituent means constituting the downlink power control method of the base station of the present invention proposed as described above, in the downlink power control method of the base station, according to the inner loop power control in the base station Comparing the target SIR with the uplink received SIR of the terminal to generate a downlink TPC value; Monitoring a generation pattern while continuously storing the generated downlink TPC value in a storage means; determining whether a TPC value of "1" is continuously generated by a predetermined number (N) as a result of the TPC value generation pattern monitoring result; Steps; As a result of the determination, if a predetermined number or more are generated, increasing the amount of downlink power during N slots.

Description

A METHOD FOR CONTROLLING DOWNLINK POWER OF THE RNC}

The present invention relates to power control of a WCDMA base station system, which is one of the IMT-2000 service methods. In particular, the base station provides a downlink TPC (hereinafter, referred to as "downlink power control command") in case the base station cannot receive an uplink signal from the terminal. TPC " " information for controlling the downlink power of the base station.

In the WCDMA system, power control is used to minimize the interference power while maintaining the quality of the link through the power control of the downlink channel and the uplink channel. As shown in Figure 1, inner loop power control between Node-B and UE (User Equipment, hereinafter referred to as "UE") and outer loop performed by RNC and UE It is classified as an outer loop power control (hereinafter, referred to as "outer loop power control").

The inter loop power control may be further divided into downlink inner loop power control and uplink inner loop power control. The downlink inner loop power control may include an uplink dedicated physical control channel (DPCCH) every slot. The uplink TPC is extracted from the " DPCCH " hereinafter to control the power of the downlink channel (which will be described later using a formula). The downlink inner loop power control is used to keep the link quality of the downlink constant. The point of time when the power update occurs is from the first downlink pilot symbol after the TPC is extracted. It applies.

Meanwhile, the uplink inner loop power control determines the downlink TPC by measuring the quality (SIR) of the uplink signal at every slot and comparing the target SIR. The determined TPC is transmitted to the UE through the downlink physical channel (DPCCH) to maintain a constant call quality of the uplink channel.

The outer loop power control may be divided into a downlink outer loop power control and an uplink outer loop power control, which perform a function of setting a target SIR used in the downlink inner loop power control. The UE calculates the target SIR using the measured BLock Error Rate (BLER) of the downlink transport channel.

The uplink outer loop power control is performed by the RNC, and sets the target SIR used in the uplink inner loop power control. The target SIR is calculated using the BLER of the uplink transport channel measured at Node-B.

As shown in FIG. 1, in downlink inter-loop power control, Node-B receives a TPC sent from the UE and evaluates it in the same manner as in Equation (1) below. It is to update the downlink power.

Equation (1)

Ptpc (k) = + Δtpc if TPCest (k) = 1

Ptpc (k) = -Δtpc if TPCest (k) = 0

Equation (2)

P (k) = P (k-1) + Ptpc (k)

P (k): newly updated downlink power

P (k-1): current downlink power

Ptpc (k): kth power control adjustment value by inner loop power control

Before using Equation (1), it is necessary to mention the downlink TPC generation algorithm in the base station system. The uplink receiving SIR of the terminal is compared to the target SIR provided by the NRC and the uplink receiving SIR of the terminal. If larger, the downlink TPCest value is "0", and if the uplink received SIR of the UE is smaller than the target SIR, the downlink TPCest value has a value of "1".

Therefore, the reception (1) means that the power of the uplink channel is weak when the uplink reception SIR of the terminal is smaller than the target SIR, so that the downlink TPCest value is set to a value of "1". This value is then added to the current downlink power and updated with the new downlink power (meaning in equation (2)). On the contrary, if the uplink receiving SIR of the UE is larger than the target SIR, it means that the power of the uplink channel is higher than necessary. Therefore, the downlink TPCest value is set to "0" and the value of -Δtpc is equal to the current downlink power. The subtracted from is updated with the new downlink power (which means in Eq. (2)).

Based on the 3GPP TS 25.433 and 25.214, the technical standards of the WCDMA system as described above, in the conventional power control technique, the downlink power when the base station does not receive the uplink signal of the terminal, that is, when the uplink TPC information is not available. There is no mention of how to control this, leaving it as an implementation issue.

Inner loop power control as defined in 3GPP TS 25.214 operates correctly only when the base station normally receives the uplink signal of the terminal and the terminal receives the downlink signal normally. That is, a call cannot be maintained with only inner loop power control when the base station does not receive the uplink signal of the terminal or the terminal does not receive the downlink signal during the call progress. This is because the downlink power is controlled by the uplink TPC received by the base station and the uplink power is controlled by the downlink TPC received by the terminal.

One case in which the base station does not receive the uplink signal of the terminal is a case where the uplink channel state is rapidly deteriorated. Examples of such an uplink channel state are deteriorated or the terminal enters a shaded area or a severe fading state. Occurs when met. As described above, when the uplink channel condition is deteriorated, a problem arises in that information of an uplink TPC controlling downlink power is not available to the base station.

Another case where the base station does not receive the uplink signal of the terminal is when the terminal stops transmitting the uplink signal because the terminal does not receive the downlink signal. When the terminal does not receive the downlink signal, the state of the downlink channel is deteriorated.

If only the state of the uplink channel deteriorates, it is necessary to fix the downlink power and wait until the state of the uplink channel improves. This is because the uplink power will be increased by the downlink TPC information by the uplink power control. However, when the state of the downlink channel is deteriorated, it is difficult to receive downlink information from the terminal, and the terminal stops transmitting uplink power as suggested in the specification 25.214.

As a result, since the base station cannot receive the uplink signal and the terminal does not receive the downlink signal, it is difficult to maintain the call only by fixing the downlink power. Therefore, there is a need for a method of maintaining a call considering the downlink channel as well as the downlink channel.

The present invention has been made to solve the above-mentioned problems of the prior art, the call interruption occurs when the base station does not receive the uplink signal of the terminal in the process of adjusting the downlink power by the inner loop power control. It is an object of the present invention to provide a method for adjusting downlink power of a base station capable of adjusting downlink power through downlink TPC information.

In order to solve the technical problem as described above, the configuration means for forming a downlink power control method of the base station of the present invention,

In the downlink (Downlink) power control method of the base station,

Generating a downlink TPC value by comparing a target SIR with an uplink received SIR of a terminal according to an inner loop power control at a base station;

Monitoring the generation pattern while continuously storing the generated downlink TPC value in storage means;

Determining whether a TPC value of "1" is continuously generated by a predetermined number (N) as a result of monitoring the TPC value generation pattern;

And, if the predetermined number or more is generated, increasing the amount of downlink power during the N slots.

Monitoring a pattern of downlink TPC values that are continuously generated while increasing downlink power during the N slots.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and the preferred embodiment of the method for adjusting the downlink power of the base station of the present invention consisting of the above configuration means. 2 is a flowchart illustrating a method for adjusting downlink power of a base station of the present invention.

The present invention relates to downlink power regulation during power control used in WCDMA systems. Therefore, the description of other power control is omitted because there is a fear of obscuring the gist of the present invention.

Once in a conventional manner, the base station adjusts the downlink power according to the inner loop power control. In doing so, the target SIR provided by the NRC is compared with the uplink received SIR of the UE to generate a downlink TPC value. The operation of generating the downlink TPC value will now be described in detail.

When the uplink receiving SIR of the terminal is compared with the target SIR and the uplink receiving SIR of the terminal is larger than the target SIR (SIRtarget), the downlink TPC value is set to "0", and the uplink receiving SIR of the terminal is If it is smaller than the target SIR, the downlink TPC value is generated as "1" (S10, S20 to S22).

The downlink TPC value as described above is for adjusting the downlink power based on the following equation.

Equation (1)

Ptpc (k) = + Δtpc if TPCest (k) = 1

Ptpc (k) = -Δtpc if TPCest (k) = 0

Equation (2)

P (k) = P (k-1) + Ptpc (k)

P (k): newly updated downlink power

P (k-1): current downlink power

Ptpc (k): kth power control adjustment value by inner loop power control

That is, as described above, when the uplink reception SIR of the UE is larger than the target SIR, "0" is generated as the downlink TPC value (TPCest), and the Ptpc (k) value is -Δ as shown in Equation (1). Determining and substituting it into Equation 2 reduces the newly updated downlink power. That is, when the uplink reception SIR of the terminal is larger than the target SIR, the power of the channel is determined to be larger than necessary, so that the power is reduced and adjusted according to the above equation.

On the contrary, when the uplink reception SIR of the UE is smaller than the target SIR, "1" is generated as the downlink TPC value (TPCest), and the Ptpc (k) value is determined as + Δ as shown in Equation (1). This operation is performed to increase the newly updated downlink power. That is, when the uplink reception SIR of the terminal is smaller than the target SIR, it is determined that the power of the channel is insufficient, so that the power is increased and adjusted according to the above equation.

The downlink TPC values generated by the operation described above are continuously generated with the value of "1" or "0". The operation of monitoring the generation pattern while storing the continuously generated TPC values in the storage means in order. Must be performed (S30). That is, for example, the generated TPC values are ("0", "1", "0", "1", "1", "1", "1", "1", "1", "1" , "1", "1", "1", "0" ......) will be stored in the storage means continuously in order and monitor the pattern for the stored TPC values. To do.

As a result of monitoring the pattern for the TPC values generated and stored as described above, it is necessary to determine whether N or more TPCs having a value of "1" are continuously generated (S40). In other words, it is necessary to determine whether the uplink reception SIR continues to be greater than N times more than the target SIR so that the TPC value continuously generates the value "1" more than N times.

As a result of the determination, if it is determined that more than N TPC values having a value of "1" are continuously generated and generated in the TPC value generation pattern stored in the storage means, the amount of downlink power is increased by a predetermined amount (G) during the N slots. Otherwise, the downlink power is adjusted according to the normal inner loop power control (S50, S60). That is, if the TPC value generated as in the above example continues to generate the value "1" from the fourth to thirteenth, it is determined that the channel state is deteriorated and the power is weak. This increases the power of the channel to maintain call power. On the other hand, the value of "G", which means a certain amount of the increased power and "N", which means the number of TPC patterns, may be changed by the user as a system parameter.

Due to the operation as described above, even if the channel condition deteriorates and the power is dropped, the call can be continuously maintained without interrupting the call. Such a situation may occur continuously.

Therefore, while the TPC generation pattern generates a value of "1" more than N times, increases the power by G to adjust the power of the downlink during N slots to maintain the call. The pattern must be monitored. Thus, if the TPC value of "1" occurs more than N times in succession, it is determined that the channel continues to deteriorate, and the downlink power is adjusted by increasing a certain amount of power.

According to the downlink power adjustment method of the base station of the present invention having the above configuration and operation and the preferred embodiment, when the downlink TPC has a value of "1" by comparing the uplink received SIR of the terminal with the target SIR By performing an operation of increasing the amount of downlink power, there is an effect of increasing the call quality by continuously maintaining the call without interruption even when the downlink channel is bad as well as the uplink channel.

1 is a power control configuration diagram of a conventional base station system.

2 is a flowchart illustrating a method for adjusting downlink power of a base station of the present invention.

Claims (2)

In the downlink (Downlink) power control method of the base station, Generating a downlink TPC value by comparing a target SIR with an uplink received SIR of a terminal according to an inner loop power control at a base station; Monitoring the generation pattern while continuously storing the generated downlink TPC value in storage means; Determining whether a TPC value of "1" is continuously generated by a predetermined number (N) as a result of monitoring the TPC value generation pattern; And if the predetermined number is greater than a predetermined number, increasing the amount of downlink power during N slots. The method according to claim 1, Monitoring a pattern of downlink TPC values that are continuously generated while increasing downlink power during the N slots.