KR101469103B1 - Interference cancellation repeater and repeating method thereof - Google Patents

Abstract

Disclosed is an interference removing repeater, which can more accurately cancel a feedback signal without a distortion. To this end, the interference removing repeater according to the present invention includes: a receiving unit to receive an analog signal; a first level measuring unit to measure a level of the received signal; a feedback signal removing unit to remove a feedback signal included in the received signal; a second level measuring unit to measure a level of a signal outputted from the feedback signal removing unit; a signal amplifying unit to amplify the outputted signal; a controller to control amplifying strength based on a result obtained by controlling the first level measuring unit and the second level measuring unit; and a transmitting unit to transmit the signal outputted from the signal amplifying unit.

Description

{INTERFERENCE CANCELLATION REPEATER AND REPEATING METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interference cancellation repeater and a relaying method thereof. More particularly, the present invention relates to an interference cancellation repeater and a relaying method thereof that can eliminate a feedback signal without distortion of a signal and more precisely.

In a mobile communication system, a repeater is installed to cover a radio wave shadow area. In the case of a repeater not including the interference cancellation function, if the signal between the input and output antennas is not isolated, a signal output from the output antenna of the repeater is fed back as a feedback signal to the input antenna of the repeater. As a result, it is impossible to smoothly provide a signal and adversely affect the product.

To solve this problem, an interference cancellation system (ICS) repeater has been proposed. That is, the ICS repeater removes the feedback signal through digital signal processing. However, in the case of the conventional ICS repeater, the processing time of the repeater system is increased through unnecessary processing for removing a signal judged as an interference signal in the input signal even when there is no interference signal, noise is generated in an empty frequency region, A signal is output, and so on.

Also, even if the intensity of the interference signal causes interference with an intensity exceeding the range that the interference cancellation repeater can process, it is impossible to smoothly provide the signal and adversely affect the product.

It is an object of the present invention to prevent oscillation of a mobile communication repeater by more precisely removing feedback signals generated due to insufficient separation distances between antennas using digital signal processing.

It is another object of the present invention to provide an interference cancellation relay technique for adjusting the intensity of an interference signal when an adverse effect is given to a repeater system due to a sudden change in environment.

According to an aspect of the present invention, there is provided an interference cancellation repeater including a receiver for receiving an analog signal, a first level measurer for measuring a level of the received signal, a feedback signal generator for removing a feedback signal included in the received signal, A second level measuring unit for measuring a level of a signal output from the feedback signal removing unit, a signal amplifying unit for amplifying an output signal, a first level measuring unit, and a second level measuring unit, A control unit for controlling amplification intensity, and a transmitter for transmitting a signal output from the signal amplification unit.

The first level measuring unit may measure a maximum value or an average value of the digital signal level output from the AD converter unit and the second level measuring unit may measure a maximum value or an average value of the signal level output from the feedback converter, Measure the mean value.

The apparatus further includes an AD converter for converting the analog signal received by the receiver into a digital signal, and a DA converter for converting the digital signal input to the signal amplifier into an analog signal.

According to another aspect of the present invention, there is provided an interference cancellation relay method including: measuring an input signal level by a first level measurement unit; measuring a level of a signal from which a feedback signal is removed by a second level measurement unit Measuring the level of the feedback signal using the signal level measured by the first level measuring unit and the second level measuring unit, comparing the level of the feedback signal with a threshold value, and comparing the output intensity of the RF up- .

In addition, the step of adjusting the output intensity of the RF up-converter may further include adjusting a predetermined level of output intensity when a difference between the level of the feedback signal and the threshold value is reached.

Also, in the step of adjusting the output intensity of the RF up-converter, when the difference between the level of the feedback signal measured in the step of measuring the level of the feedback signal and the threshold value is greater than or equal to the offset value, And adjusting the output intensity of a certain level after adjusting the output intensity.

According to the embodiment of the present invention, the feedback signal generated due to the insufficient separation distance between the antennas is more precisely removed using the digital signal processing, thereby preventing oscillation of the mobile communication repeater.

In addition, the present invention can implement an interference cancellation relay technique for adjusting the intensity of an interference signal when the repeater system adversely affects the system due to a sudden change in the environment.

1 is a block diagram illustrating a configuration of an interference cancellation repeater according to an embodiment of the present invention.
2 is a flowchart illustrating an interference cancellation repeating method according to an embodiment of the present invention.
FIG. 3 is a flowchart for adjusting the intensity of the output when there is no offset in the step of adjusting the output power in the interference cancellation relaying method according to the embodiment of the present invention.
FIG. 4 is a flow chart for adjusting the intensity of an output when there is an offset in the step of adjusting the output power in the interference cancellation relaying method according to the embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

Hereinafter, the configuration and operation of an interference cancellation repeater according to an embodiment of the present invention will be described.

1 is a block diagram illustrating a configuration of an interference cancellation repeater according to an embodiment of the present invention.

1, an interference cancellation repeater 100 according to an embodiment of the present invention includes a receiving unit 11, an AD converter unit 120, a feedback signal removing unit 130, a DA converter unit 140, A first level measurement unit 170, a second level measurement unit 190, and a control unit 180. The first level measurement unit 170, the second level measurement unit 190,

The receiving unit 110 receives an analog signal transmitted from the base station or the terminal.

The AD converter unit 120 converts an analog signal received by the receiving unit 110 into a digital signal.

The feedback signal remover 130 removes the feedback signal from the digitally converted signal through the AD converter unit 120. [

The DA converter unit 150 converts the digital signal from which the feedback signal is removed by the feedback signal removing unit 130 into an analog signal.

The signal amplifying unit 150 amplifies the converted analog signal through the DA converter unit 150 and amplifies the signal so that the transmission signal can be transmitted far away.

The transmission unit 160 transmits the signal amplified by the signal amplification unit 150 to the terminal or the base station.

The first level measuring unit 170 measures the level of the digitally converted signal through the AD converter unit 120. In this case, the first level measuring unit 170 measures a maximum value or an average value of the digital signal intensity.

The second level measuring unit 190 measures the level of the signal from which the feedback signal is removed through the feedback signal removing unit 130. At this time, the second level measuring unit 190 measures a maximum value or an average value of the signal strength from which the feedback signal is removed.

The controller 180 compares the intensity of the signal measured by the first level measuring unit 170 with the intensity of the signal measured by the second level measuring unit 190 to predict the strength of the feedback signal, And controls the amount by which the signal amplifying unit 150 amplifies the signal.

Hereinafter, an interference cancellation relaying method according to an embodiment of the present invention will be described.

2 to 4 are flow charts for explaining an interference cancellation relaying method according to an embodiment of the present invention. The interference cancellation relaying method described below can be operated by each hardware configuration of the interference cancellation repeater described in FIG.

Referring to FIG. 2, in the interference cancellation repeating method according to the embodiment of the present invention, the first level measuring unit 170 measures a signal level (S210).

Then, the second level measuring unit 190 measures the signal level (S220).

Thereafter, the difference between the signal level measured in step S220 and the signal level measured in step S210 is estimated as the feedback signal level (S230).

In step S240, the level of the interference signal estimated in step S230 is compared with a predetermined threshold value.

If it is necessary to adjust the intensity of the output using the comparison result in step S240, the intensity of the output signal is adjusted (S250).

FIG. 3 is a flowchart for adjusting the intensity of the output when there is no offset in the step of adjusting the output power in the interference cancellation relaying method according to the embodiment of the present invention. The interference cancellation relaying method described below is performed in step S240 of comparing the level of a feedback signal and a threshold value of the feedback signal among the interference cancellation relaying methods described in FIG. 2 and adjusting the intensity of the output signal S250.

Referring to FIG. 3, an interference cancellation relay method according to an embodiment of the present invention first compares a level difference between a level of a feedback signal estimated in operation S230 and a predetermined threshold (S261).

If the level of the feedback signal is greater than the threshold value, the output is decreased by a predetermined value (S262).

If the level of the feedback signal is smaller than the threshold value, the output is increased by an arbitrary value defined in advance (S263).

FIG. 4 is a flow chart for adjusting the intensity of an output when there is an offset in the step of adjusting the output power in the interference cancellation relaying method according to the embodiment of the present invention. The interference cancellation relaying method described below is performed in step S240 of comparing the level of a feedback signal and a threshold value of the feedback signal among the interference cancellation relaying methods described in FIG. 2 and adjusting the intensity of the output signal S250.

4, an interference cancellation relay method according to an embodiment of the present invention first compares the level difference between the level of the feedback signal estimated in step S230 and the absolute value of the sum of the threshold value and the offset value defined in advance (S271). Here, the predefined offset value should be greater than any value used in adjusting the output power described below.

If the level of the feedback signal is greater than the absolute value of the sum of the predefined threshold value and the offset value in step S271, the level of the feedback signal is compared with the sum of the predefined threshold value and the offset value in step S272. If the level of the feedback signal is greater than the predefined threshold value and the offset value in step S272, it can be determined that the level of the currently fed feedback signal affects the system in relaying the signal If the level of the feedback signal is smaller than the sum of the predefined threshold value and the offset value, it can be determined that a service area wider than the current service area can be secured.

In step S272, if the level of the feedback signal is greater and the system can be affected by the feedback signal, the output is decreased by the offset value (S273).

If the level of the feedback signal is smaller and the service area can be enlarged in step S272, the output is increased by the offset value (S274).

If the level of the feedback signal is smaller than the absolute value of the sum of the predefined threshold value and the offset value in step S271, the level of the feedback signal is compared with the predefined threshold value in step S275.

If the level of the feedback signal is greater than the threshold value, the output is decreased by a predetermined value (S276).

If the level of the feedback signal is smaller than the threshold value, the output is increased by an arbitrary value defined in advance (S277).

As described above, the interference cancellation repeater and the relay method according to the present invention are not limited to the configurations and methods of the embodiments described above, but the embodiments may be modified so that various modifications may be made. All or some of them may be selectively combined.

100: interference cancellation repeater
110:
120: AD converter section
130: feedback signal rejection
140: DA converter section
150:
160:
170: first level measuring unit
180: second level measuring unit
190:

Claims (8)

A receiver for receiving an analog signal;
A first level measuring unit for measuring a level of the signal received by the receiving unit;
A feedback signal removing unit for removing a feedback signal included in a signal received by the receiving unit;
A second level measuring unit for measuring a level of a signal output from the feedback signal removing unit;
A signal amplifying unit amplifying a signal output from the feedback signal removing unit;
A control unit for controlling the first level measuring unit and the second level measuring unit and controlling amplification intensity of the amplifying unit based on the obtained result; And
And a transmitter for transmitting a signal output from the signal amplifying unit,
Wherein the second level measuring unit comprises:
Wherein the maximum value or the average value of the signal level output from the feedback signal removing unit is measured. The method according to claim 1,
Wherein the first level measuring unit comprises:
And the maximum value or the average value of the digital signal level output from the AD converter unit is measured. delete The method according to claim 1,
And an AD converter for converting the analog signal received by the receiver into a digital signal. The method according to claim 1,
Further comprising a DA converter for converting a digital signal input to the signal amplifying unit into an analog signal. Measuring an input signal level by a first level measuring unit;
Measuring a level of the signal from which the feedback signal has been removed by the second level measurement unit;
Measuring a level of the feedback signal using the signal level measured by the first level measurement unit and the second level measurement unit; And
Adjusting the output intensity of the RF up-converter unit by comparing the level of the feedback signal with a threshold value,
And measuring the level of the signal from which the feedback signal has been removed.
Wherein the second level measuring unit measures a maximum value or an average value of a signal level output from the feedback signal removing unit. The method of claim 6,
In the step of adjusting the output intensity of the RF up-converter unit,
Further comprising the step of adjusting a level of the output power when a difference between the level of the feedback signal and the threshold value is reached. The method of claim 6,
In the step of adjusting the output intensity of the RF up-converter unit,
And adjusting the output intensity by a predetermined offset level when the difference between the level of the feedback signal measured in the step of measuring the level of the feedback signal and the threshold difference is greater than or equal to the offset value And repeating the interference cancellation.

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