KR19990039333A - Integrated transmission device of power control bit for high speed forward power control - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Integrated transmission device of power control bit for high speed forward power control

2. The technical gist of the invention to solve

It is an object of the present invention to provide an integrated power control bit transmission apparatus for fast forward power control, in which a terminal can improve power forward performance by independently predicting power for each base station signal during soft handover with a plurality of base stations.

3. Summary of the Invention Solution

Power control having different appropriate speeds according to the comparison result by comparing the magnitudes of the reference powers targeted by the plurality of base stations that are already independently set and the predicted powers of the transmission signals of the plurality of base stations transmitted from the power prediction means. Power control bit generating means for generating bits; And a plurality of power control means for controlling the power of a signal for transmission from the base station in response to the power control bit.

4. Important uses of the invention

The present invention is used to effectively realize forward fast power control in soft handover using multiple base stations.

Description

Integrated transmission device of power control bit for high speed forward power control

The present invention relates to a power transmission bit integrated transmission device for high speed forward power control, in particular, in soft handover using a plurality of base stations can be effectively realized in the forward fast power control by predicting the power independently for each base station in the forward direction The present invention relates to a power transmission bit integrated transmission device for high speed forward power control.

In the conventional IS-95, fast power control is not performed in the forward direction. As services are diversified, the wireless environment has shifted from macro cells to micro or pico cells. At this time, since the cell radius is small and the number of paths is small, forward performance is deteriorated. To compensate for this, a method of applying fast power control in the forward direction has been proposed. As a method of realizing this, various types of methods have been proposed, such as a method of separately putting a pilot signal, a method of making a communication channel at a constant transmission rate, and a method of informing the transmission rate in advance. Using this, the power from the base station is estimated, and the power control bit is transmitted in the reverse direction. In the case of no handover, the terminal communicates with one base station. In this case, power is predicted using a signal from the base station, and power control bits are sent to the base station. The base station then controls the power in the forward direction based on the value of the power control bits.

However, in the case of soft handover using multiple base stations, if the power is predicted using the entire signal reached to the terminal and the power control bits are transmitted to each base station accordingly, the channel environment from the terminal to each base station is different. Therefore, the demodulation value for the power control bit may be different for each base station, which causes a problem in power control.

In addition, as a conventional high speed forward power control technique for improving the above problems, a method for performing power control according to power prediction for all signals in the forward direction when a soft handover with a plurality of base stations has been proposed.

However, the conventional method as described above improves overall system performance in consideration of the forward and reverse directions when both the terminal communicates with one base station and the soft handover with multiple base stations. It still implies a limitation that cannot be achieved.

According to the present invention for solving the above problems, when the terminal communicates with one base station, the terminal selects an appropriate power control rate, and the terminal independently powers each base station signal even when performing soft handover with the plurality of base stations. Predictively transmits power control bits at the appropriate power control rate of each base station, and also integrates power control bits for high-speed forward power control that can improve forward performance while maintaining constant backward performance by power control bits. The purpose is to provide a device.

1 is a block diagram of a power control bit integrated transmission device for high speed forward power control according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: power prediction unit 20: power control bit generator

30: alignment unit 40: transmission unit

50-1 to 50-n: selection part

60-1 to 60-n: power control unit

BS1 to BSn: base station

In accordance with one aspect of the present invention, a power control bit integrated transmission apparatus for high speed forward power control includes: power prediction means for predicting power of signals transmitted from a plurality of base stations; Power control having different appropriate speeds according to the comparison result by comparing the magnitudes of the reference powers targeted by the plurality of base stations that are already independently set and the predicted powers of the transmission signals of the plurality of base stations transmitted from the power prediction means. Power control bit generating means for generating bits; Arrangement means for arranging all the power control bits in series to uniformly distribute the power control bits inputted in parallel from the power control bit generating means according to the speed so that the forward power control speed of the plurality of base stations can be made uniform at the corresponding speed. ; Transmitting means for transmitting all power control bits arranged in series by the arranging means at a constant rate; A plurality of selection means mounted on the plurality of base stations, respectively, for selecting power control bits suitable for the base station among the total power control bits transmitted through the transmission means; And a plurality of power control means, each mounted in a plurality of base stations, for controlling the power of a signal for transmission by the base station in response to the power control bits transmitted through the plurality of selection means.

In general, the smaller the number of paths in a DS-CDMA system, the greater the power control effect. Therefore, it is advantageous to increase the power control speed because the number of paths is small when close to the base station. Especially for low speed terminals, the greater the power control speed, the greater the power control effect. However, when the forward power control speed is increased, power control bits are transmitted in the reverse direction, so the forward power control speed is selected in consideration of the reverse performance. On the other hand, the soft handover area is usually the edge of the cell, so the number of paths from one base station is relatively large. Moreover, since the signals from multiple base stations are used, the total signal paths are already large, so the influence of the transmission rate of the power control bit is relatively high. Receive less. Therefore, in the present invention, when the power control rate is R bps when communicating with one base station, in the soft handover region, since the effect of the power control rate is relatively smaller than that of the other region, in the present invention, the soft control rate with the n base stations is soft. In case of handover, the power control rate of each base station is set to Ri (i = 1,2, ..., n) bps to determine the transmission rate of all power control bits transmitted from the terminal. To some extent. That is, in the present invention, the power control bit transmission rate is made constant in this way, so that the forward performance can be improved while maintaining the reverse performance degradation as a reference value. In addition, it is possible to set Ri = R / n.

Hereinafter, with reference to the accompanying Figure 1 will be described a preferred embodiment of the present invention.

In an integrated power control bit transmission apparatus for fast forward power control according to an embodiment of the present invention, as shown in the figure, a power prediction unit for predicting the power of signals transmitted from a plurality of base stations BS1 to BSn, respectively. 10 compares the predicted powers of the plurality of base stations delivered from the power predicting unit 10 with the magnitudes of the preset reference powers, and has powers having different appropriate speeds R1 to Rn bps depending on the comparison result. The power control bit generator 20 generating the control bits and the power control bits input in parallel from the power control bit generator 20 are uniformly distributed according to the speeds R1 to Rn bps, thereby providing a plurality of base stations BS1. Arrangement unit for transmitting the entire power control bits arranged in series and transmitting through the transmission unit 40 so that the forward power control speed of ˜BSn) is uniformly achieved at the corresponding speed. 30).

In addition, the integrated power control bit transmission device for the high-speed forward power control of the present invention is mounted in each of a plurality of base stations (BS1 ~ BSn), the base station of the total power control bits transmitted through the transmitter 40 to the base station It is mounted on a plurality of selectors 50-1 to 50-n and a plurality of base stations BS1 to BSn, respectively, for selecting the right power control bits, and through a plurality of selectors 50-1 to 50-n. In response to the transmitted power control bit, the apparatus further includes a plurality of power control units 60-1 to 60-n for controlling the power of a signal for transmission by the base station.

The power estimator 10 includes a plurality of power estimators 10-1 to 10-n for predicting power of signals transmitted from the plurality of base stations BS1 to BSn, respectively.

The power control bit generator 20 is configured to predict powers of the transmission signals of the base stations 10-1 to 10-n and preset reference powers which are predicted by the power predictors 10-1 to 10-n. Comparing the magnitudes of the two and the two, the plurality of power control bit generators 20-1 to 20-n respectively generate power control bits according to the comparison result.

The array unit 30 includes a parallel / serial converter for serially arranging power control bits transmitted in parallel from the power control bit generator 20.

Referring to the operation of the integrated power control bit transmission device for the high-speed forward power control of the present invention having the above structure as follows.

The plurality of power estimators 10-1 to 10-n of the power estimator 10 predict the powers of signals transmitted from the plurality of base stations BS1 to BSn, respectively, and estimate the powers of the power control bit generator 20. ), And the plurality of power control bit generators 20-1 through 20-n of the power control bit generator 20 are transferred from the plurality of power predictors 10-1 through 10-n. It is determined whether the prediction powers for the transmission signals of BS1 to BSn are larger or smaller than the predetermined reference power. If the prediction power is smaller than the reference power, the power of the transmission signal of the base station whose prediction power is smaller than the reference power is smaller. Outputs a power control bit to increase the reference power level, and if the predicted power is larger than the predetermined reference power as a result of the comparison decision, the plurality of power control bit generators 20-1 to 20-n predict the reference power to be the reference power. Transmission of transmit signals from larger base stations The outputs a power control bit to reduce the reference power level. At this time, the power control bits output from the plurality of power control bits 20-1 to 20-n have different appropriate transmission rates (R1 to Rn bps) at the time of n base stations and soft handover, and also in parallel It is transmitted to the arrangement unit 30 in the form.

Subsequently, the array unit 30 uniformly distributes the power control bits according to the speeds of the power control bits transmitted in parallel from the plurality of power control bits 20-1 through 20-n to forward power control bit rate of each base station. All the power control bits are arranged in series and transmitted to the transmitter 40 so that the uniformity is achieved at the corresponding speed, and the transmitter 40 transmits the transmission speed of the entire power control bits. The power control bits are transmitted to a plurality of base stations BS1 to BSn with some constant.

When all power control bits are transmitted from the terminal as described above, the plurality of selectors 50-1 to 50-n of the plurality of base stations BS1 to BSn select the power control bits suitable for the base station and control the selected power. The bit is transmitted to the power control unit of the base station, and the plurality of power control units 60-1 to 60-n increase or decrease the power of the transmission signal of the base station according to the transmitted power control bit. That is, if the power of the transmission signal of the base station is lower than the target reference power, the power controller increases the power of the signal transmitted from the base station to the reference power level, and conversely, the reference power of the transmission signal of the base station is the target power If higher, the power control unit lowers the power of the signal transmitted from the base station to the reference power level.

As described above, when the transmission rate of the power control bit is Rbps when communicating with one base station, when the soft handover with n base stations is performed, the power prediction of the transmission signal of each base station is independent. Power control bits generated at bps (i = 1,2, ..., n) are converted to the transmission speed of all power control bits. In order to improve the forward performance by transmitting a plurality of base stations (BS1 to BSn) to a certain degree.

Although the technical idea of the present invention has been described in detail according to the above preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

As described above, the integrated power control bit transmission device for high speed forward power control of the present invention has a plurality of n devices for effective high speed forward power control in a mobile communication environment in which future services are diversified and micro and pico cells are dominant. During base station and soft handover, power control transmits power control bit at Ri bps (i = 1,2, ..., n) rate By doing so, it is possible to improve the forward performance while maintaining the backward performance, and in particular, has the effect that can be used in the next generation mobile communication system.

Claims (5)

Power predicting means for predicting power of signals transmitted from a plurality of base stations, respectively; Compare the prediction powers of the transmission signals of the plurality of base stations transmitted from the power prediction means with the magnitudes of the reference powers targeted by the plurality of base stations, which are already independently set, to obtain different appropriate speeds according to the comparison result. Power control bit generating means for generating power control bits having; In order to uniformly distribute the power control bits input in parallel from the power control bit generating means according to the speed so that the forward power control speeds of the plurality of base stations are uniformly made at the corresponding speed, the total power control bits are arranged in series. Arrangement means; Transmitting means for transmitting the entire power control bits arranged in series by the arranging means at a constant speed; A plurality of selection means respectively mounted in the plurality of base stations, for selecting power control bits suitable for the base station among the total power control bits transmitted through the transmission means; And A plurality of power control means mounted to the plurality of base stations, respectively, for controlling the power of a signal for transmission by the base station in response to the power control bits transmitted through the plurality of selecting means; Power control bit integrated transmission device for a high speed forward power control having a. The method of claim 1, The power prediction means, A plurality of power prediction unit for predicting the power of the signals transmitted from the plurality of base stations, respectively Power control bit integrated transmission device for high speed forward power control comprising a. The method of claim 2, The power control bit generating means, Generating a plurality of power control bits for generating power control bits according to the comparison result by comparing the predicted powers of the transmission signals of the plurality of base stations predicted by the power predicting means with pre-set magnitudes respectively. part Power control bit integrated transmission device for high speed forward power control comprising a. The method of claim 1, The arrangement means, Parallel / serial converter for serially arranging power control bits transmitted in parallel from the power control bit generating means Power control bit integrated transmission device for high speed forward power control comprising a. The method of claim 1, The power control bits generated from the power control bit generating means are transmitted at transmission rates of R1 to Rn, respectively. When the power control rate is R when communicating with a base station, the total power control bits transmitted from the transmitting means are Power control bit integrated transmission device for high speed forward power control, characterized in that transmitted at a transmission rate of. (Where i = 1 to n, i, n: integer)