KR20000040265A - Power control apparatus in mobile communication system - Google Patents

Abstract

PURPOSE: A power control apparatus in a mobile communication system is provided to rapidly control the power of a signal transmitted from a terminal by estimating and controlling the power, using a synchronous burst used for frame synchronization. CONSTITUTION: A receiving signal processing part(311) converts a signal from a terminal into a mediation frequency for demodulation. A primary synchronization part(312,313) synchronizes the signal from the receiving signal processing part(311) primarily. A signal-to-noise ratio assumption part(314) assumes the signal-to-noise ratio of the signal. A power determination part(315) outputs a power control value to determine the power of the signal received from the terminal. A transmitting signal processing part(316) modulates a transmitting signal comprising the power control value output from the power determination part(315) and transmits it to the terminal. The terminal comprises a receiving signal processing part(321), a demodulation part(322), a power control part(323) and a transmitting signal processing part(324).

Description

Power Control Device in Mobile Communication System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power control apparatus in a mobile communication system, and more particularly, to control power of a signal transmitted and received between a base station and a terminal using a synchronization burst used for frame synchronization in a broadband mobile multimedia system. It relates to a power control device.

In general, a broadband mobile multimedia system is a system for providing a multimedia service using a frequency in the vicinity of the 41 to 43GHz band is composed of a base station and a terminal.

In the code division multiple access system, power control is performed to maximize system capacity.

At this time, there are open-loop power control and closed-loop power control methods.

However, when the power is controlled as described above, in the broadband mobile multimedia system of the multicarrier-code division multiple access method, there is a problem in that it cannot be used during power control because the pilot channel does not exist separately.

Accordingly, the present invention has been made to solve the above problems, by measuring the signal-to-noise ratio quickly transmitted from the terminal by using a synchronization burst (Burst) used for frame synchronization in a broadband mobile multimedia system, It is an object of the present invention to provide a power control apparatus capable of quickly controlling the power of a signal transmitted from a terminal by predicting and controlling the power of a signal transmitted from the terminal through this measured value.

1 is a block diagram of a reverse transmission and reception apparatus in a mobile communication system to which the present invention is applied.

2 is an explanatory diagram for synchronization burst of a wireless mobile multimedia system to which the present invention is applied.

3 is a block diagram of an embodiment of a power control device in a mobile communication system according to the present invention;

Explanation of symbols on the main parts of the drawings

311, 321: Receive processing section 312, 313: Primary synchronization section

314: signal to noise ratio estimation unit 315: power determination unit

316 and 324 transmission processing units 317 to 320 secondary synchronization unit

322: demodulation unit 323: power control unit

According to an aspect of the present invention, there is provided a power control apparatus for controlling power of a signal transmitted and received between a base station and a terminal in a mobile communication system, comprising: synchronization means for synchronizing a signal received from the terminal; Signal-to-noise ratio estimating means for estimating the signal-to-noise ratio of the received signal by receiving the signal output from the synchronization means; Power determining means for comparing the estimated value estimated by the signal to noise ratio estimating means with a predetermined threshold value and outputting a power control value for determining the power of the signal received from the terminal according to a comparison result; First transmission processing means for modulating a transmission signal carrying the power control value output from said power determination means and transmitting it to said terminal; Demodulation means for demodulating a signal transmitted from said first transmission processing means; Power control means for controlling power of a signal transmitted to the base station according to a power control value carried in the signal demodulated by the demodulation means; And second transmission processing means for adjusting the power of the transmission signal and transmitting the power to the base station according to the power control command transmitted from the power control means.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a block diagram of a reverse transmission and reception apparatus in a mobile communication system to which the present invention is applied, and is largely divided into a transmitter and a receiver.

The transmitting end includes a data generator 111, a band modulator 112, a serial / parallel converter 113, an inverse discrete cosine converter 114, a repetitive peak signal inserter 115, The parallel / serial conversion unit 116, the switch 117, and the transmission filter 118 are configured.

The receiving end includes an adder 121, a reception filter 122, a channel estimator 123, a serial / parallel conversion unit 124, a repetitive peak signal removing unit 125, and a discrete cosine transforming unit 126. ), A channel equalizer 127, a parallel / serial converter 128, and a band demodulator 129.

2 is an explanatory diagram for synchronization burst of a wireless mobile multimedia system to which the present invention is applied.

1 and 2, the base station adjusts the initial frame synchronization of the signal transmitted from the terminal by using the synchronization burst signal transmitted from the terminal, and the base station converts the transmission power value of the terminal to this initial frame synchronization synchronization burst. Measure using

Such a synchronization burst signal is generated by the following process.

In order to synchronize the reverse link frame, as shown in FIG. 2, the terminal transmits a data symbol after transmitting a burst signal for frame synchronization estimation every N time.

The synchronization burst signal at this time is a random signal, and uses an M-sequence having an autocorrelation property of Equation 1 having a repetition period characteristic of maximum length.

Where M is the length of the M-sequence and δf _c is the carrier frequency offset normalized to the data rate of the M-sequence.

In the case of the open-loop power control, the path loss power is estimated and the transmission power is determined by taking the average value of the M-sequence power which is the synchronization burst signal for several frames.

Also, in case of closed-loop power control, the power of this synchronization burst signal is measured every frame or several frames when power is measured at the receiving side, and a command for adjusting the power value of the terminal using this measurement value is used. Produce a value (ie ± 1).

3 is a configuration diagram of an apparatus for controlling power in a mobile communication system according to the present invention.

As shown in FIG. 3, the power control apparatus in the mobile communication system of the present invention transmits a signal received from a terminal to a intermediate frequency signal and then demodulates the received signal from the reception processor 311 and the reception processor 311. Primary synchronization units 312 and 313 for firstly synchronizing signals, a signal-to-noise ratio estimator 314 for estimating a signal-to-noise ratio of a received signal by receiving a signal output from the primary synchronizer 313; A power determination unit 315 for comparing the estimated value estimated by the signal-to-noise ratio estimation unit 314 with a predetermined threshold value and outputting a power control value for determining the power of the signal received from the terminal according to the comparison result; The transmission processor 316 modulates a transmission signal carrying the power control value output from the power determination unit 315 and transmits the signal to the terminal. The signal transmitted from the transmission processing unit 316 is an intermediate frequency signal. The base station according to the reception control unit 321 to be converted, the demodulation unit 322 for demodulating the signal down-converted by the reception processing unit 321, and the power control value carried in the signal demodulated by the demodulation unit 322. A power control unit 323 for controlling the power of the signal transmitted to the control unit, and a transmission processing unit 324 for controlling the power of the transmission signal and transmitting the power to the base station according to the power control command transmitted from the power control unit 323. .

Here, the reception processing unit 311, the primary synchronization units 312 and 313, the signal-to-noise ratio estimation unit 314, the power determination unit 315, the transmission processing unit 316, and the like are devices in the base station.

The reception processing unit 321, the demodulation unit 322, the power control unit 323, the transmission processing unit 324, and the like are devices in the terminal.

On the other hand, it further includes a secondary synchronization unit (317 to 320) for resynchronizing the signal synchronized through the primary synchronization unit (312, 313).

The operation of the power control device in the mobile communication system of the present invention having the structure as described above will be described in detail as follows.

First, the power control process in the base station will be described.

Since the signal transmitted from the terminal to the base station is a high frequency signal, it is down-converted into a signal of the intermediate frequency band through the reception processor 311 in the base station, and then the primary synchronization units 312 and 313 and the secondary synchronization units 317 to 320 are used. Are synchronized through the network.

The signal-to-noise ratio estimator 314 receives the synchronized signal through the primary synchronizer 313, estimates the signal-to-noise ratio of the signal received from the terminal, and outputs the estimated signal-to-noise ratio value to the power determination unit 315. .

Subsequently, the power determiner 315 compares the estimated signal-to-noise ratio with a preset threshold to determine the power magnitude of the signal received from the terminal, and outputs a power control value for adjusting the power of the signal transmitted from the terminal. .

At this time, if the estimated signal-to-noise ratio is greater than the threshold value, the power control value of the logic level '1' for reducing the power is transmitted to the terminal.

If the estimated signal-to-noise ratio is less than the threshold value, a power control value of logic level '0' for increasing power is transmitted to the terminal.

In this way, the power control value determined by the power determination unit 315 in the base station is modulated by the transmission processing unit 316 and transmitted to the terminal.

Next, a power control process in the terminal will be described.

When the signal carrying the power control value is transmitted from the base station to the terminal through the above-described process, the reception processing unit 321 in the base station down-converts the high frequency signal transmitted from the base station and delivers the demodulation unit 322.

In this way, the down-converted signal is demodulated through the demodulator 322 and transferred to the power controller 323.

Subsequently, the power control unit 323 controls the power of the signal transmitted from the transmission processing unit 324 in the terminal to the base station according to the power control value contained in the demodulated signal. Reduce the power of the signal.

If the power control value is logic level '0', the power of the transmission signal is increased.

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 present invention measures the signal-to-noise ratio transmitted from the terminal, determines the power value of the signal transmitted from the terminal through the measured value, and quickly determines the power of the signal transmitted from the terminal according to the determined power value. By controlling, it is possible to easily control the power between the base station and the terminal without a separate pilot channel in a broadband mobile multimedia system.

Claims (2)

In the power control device for controlling the power of the signal transmitted and received between the base station and the terminal in a mobile communication system, Synchronization means for synchronizing a signal received from the terminal; Signal-to-noise ratio estimating means for estimating the signal-to-noise ratio of the received signal by receiving the signal output from the synchronization means; Power determining means for comparing the estimated value estimated by the signal to noise ratio estimating means with a predetermined threshold value and outputting a power control value for determining the power of the signal received from the terminal according to a comparison result; First transmission processing means for modulating a transmission signal carrying the power control value output from said power determination means and transmitting it to said terminal; Demodulation means for demodulating a signal transmitted from said first transmission processing means; Power control means for controlling power of a signal transmitted to the base station according to a power control value carried in the signal demodulated by the demodulation means; And Second transmission processing means for adjusting the power of a transmission signal and transmitting the power to the base station according to a power control command transmitted from the power control means; Power control device in a mobile communication system comprising a. The method of claim 1, The power determining means, If the estimated signal to noise ratio value is greater than the predetermined threshold value, output a power control value of logic level '1' for reducing power, And output a power control value of a logic level '0' for increasing power when the estimated signal to noise ratio value is smaller than the predetermined threshold value.