KR20050063470A - Adaptive interference cancellation system - Google Patents

Abstract

The present invention relates to an adaptive interference noise removing apparatus for removing interference noise caused by a feedback signal and a multipath fading signal from a received signal. The adaptive interference noise removing apparatus includes a main feedback signal removing unit for removing a main feedback signal by a signal transmitted by a transmitting antenna from a received signal received by the receiving antenna, and a main feedback signal by the main feedback signal removing unit. And a delay signal removing unit for removing a multipath signal component from the removed received signal.

According to the present invention, it is possible to remove the main feedback signal and the multipath fading signal from the received signal transmitted from the receiving antenna.

Description

Adaptive Interference Noise Reduction Device {ADAPTIVE INTERFERENCE CANCELLATION SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adaptive interference noise canceller for a received signal received by a receive antenna in a wireless communication system. More particularly, the present invention relates to a main feedback signal and a multipath signal by a transmit signal of a transmit antenna in a received signal. The present invention relates to an adaptive interference noise canceller that can be eliminated.

  In general, a wireless repeater system for mobile communication is a device for strengthening the strength of a wireless signal, and is installed in a place where a signal output from a base station is weak and amplifies the weak signal and outputs it to a mobile station, thereby providing a better mobile communication service. It is installed and operated for the purpose of providing.

As the number of wireless repeaters continues to increase and the number of wireless communication systems increases, not only the number of base stations increases, but also the distance between other wireless communication base stations and the frequency spacing become narrow, causing serious interference between radio frequencies. have. For example, in general, the transmitting and receiving antennas of the base station and the repeater are installed in close proximity, or the transmitting and receiving antennas are commonly used. Therefore, since the output signal transmitted from the transmission / reception antenna is fed back to the reception antenna and received is extremely short, the interference noise canceller according to the conventional scheme is not practical.

Meanwhile, the relay device performs a function of receiving and amplifying a weak radio wave and then transmitting the amplified signal again. For this purpose, the relay device includes a separate receiving antenna and a separate transmitting antenna. When relaying at the same frequency through such a relay device, a strong transmission signal is fed back to the reception antenna and received together with the reception signal to be relayed through the reception antenna. This feedback signal causes a weakening of the repeater function. Therefore, it is very important to remove the interference signal caused by the strong transmission signal from the received signal.

As described above, in the conventional repeater system, since the transmit / receive antennas coexist in the same space, a problem arises in that a signal radiated from the transmitting antenna is introduced again through the receiving antenna, which affects the reception system seriously.

In addition, the received signal will also include an interference signal by multipath fading, and the repeater must also remove such interference signal.

Various technologies have been proposed as a way to solve this problem, but most of the technologies have disadvantages in that they cannot adapt to changes in the external environment in real time due to changes in the external environment. That is, since it is always operated according to the set reference value when installing for equipment operation, new oscillation occurs due to feedback signal because it cannot be operated adaptively according to change of input signal, external environment change, feedback signal, etc. There is a problem.

Accordingly, the present inventors propose an adaptive interference noise canceling device that prevents oscillation caused by the feedback signal and the multipath signal by adapting to the change of the external environment as described above and enables the amplifier to output the maximum output. do.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide an adaptive interference noise removing apparatus capable of adaptively removing a feedback signal and a multipath signal from a received signal received from a receiving antenna.

Features of the present invention for achieving the above-described technical problem, the main feedback signal removing unit for removing the main feedback signal by the signal transmitted by the transmitting antenna from the received signal received by the receiving antenna, the main feedback signal removing unit And a delay signal removing unit for removing a multipath signal component from the received signal from which the main feedback signal has been removed by removing the main feedback signal and the multipath signal from the received signal input to the receiving antenna. Adaptive interference noise canceller for transmitting.

Here, the delay signal canceling unit uses an amplitude signal for the offset signal by using signals input from the second adaptive detector, the second adaptive detector, and the main feedback signal canceller to detect a real time error signal due to a multipath fading signal from the received signal. And a second adaptive cancellation signal generator for obtaining a phase, a delay time, and a second adaptive condition monitoring controller for controlling a received signal using the cancellation signal generated by the second adaptive cancellation signal generator.

The main feedback signal removing unit may further include: a first adaptive detector for detecting a real time error signal for a feedback signal signal fed back by a transmission signal from a received signal, and an amplitude of a cancel signal using signals input from the first adaptive detector; And a first adaptive cancellation signal generator for obtaining a phase, a delay time, and a first adaptive state monitoring controller for controlling the received signal using the cancellation signal generated by the first adaptive cancellation signal generator.

According to the present invention, it is possible to remove the main feedback signal and the multipath fading signal from the received signal transmitted from the receiving antenna.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the adaptive interference noise removing apparatus according to the present invention.

1 is a block diagram showing a preferred embodiment of the adaptive interference noise canceling apparatus according to the present invention. Referring to FIG. 1, the adaptive interference noise removing apparatus according to the present invention includes a main feedback signal removing unit 210 for removing a main feedback signal from a received signal received from a receiving antenna 200, and transmitting from the main feedback signal removing unit. A delay signal removing unit 220 removes a fading signal in a multipath from the received signal. Hereinafter, each component of the adaptive interference noise canceling apparatus according to the present invention will be described in detail.

First, the main feedback signal removing unit 210 includes a first adaptive detector 212, a first adaptive state monitoring controller 214, and a first adaptive cancellation signal generator 216, which are transmitted from the receiving antenna 200. The feedback signal fed back from the transmitting antenna is removed from the received signal. The first adaptive detector 212 converts the state monitoring signal and the output signal of the amplitude phase comparator, which are given a DC value, for a predetermined time and converts the signal into a digital signal of a constant bit.

The first adaptive cancel signal generator 216 detects an amplitude, a phase, a delay time, and the like of the cancel signal for canceling the main feedback signal due to the transmitted signal from the received signal to generate the cancel signal.

The first adaptive state monitoring controller 214 monitors and controls input / output states and coefficients of the overall system of the system, and amplitude and phase values of various state monitoring signals, that is, input / output signals of the power divider. , The amplitude and phase of the input / output signal of the feedback signal canceller and error signal extractor, the amplitude and phase of the output signal of the amplitude phase comparator, etc. are stored in the memory, and the basic output signal of the amplifier to compare / monitor the oscillation state It stores control signal data according to model and oscillation status, conversion table for controlling phase shifter, initial value and rate of change of radio wave modeling according to various application environment changes, and various variables and variable data for other adaptive algorithms. Feedback interference, which is fed back by signal processing of a digital signal processor using the above various data The sound and adapted to the signal to remove the feedback interference noise and perform a function of controlling the oscillation.

Next, the delay signal removing unit 220 includes a second adaptive detector 222, a second adaptive state monitoring controller 224, and a second adaptive canceling signal generator 226, and the main feedback signal removing unit 210. It removes the multipath fading signal component from the received signal transmitted from.

The second adaptive detector 222 detects an error signal due to a multipath fading signal from the received signal transmitted from the main feedback signal removing unit. The second adaptive cancel signal generator 226 detects an amplitude, a phase, and a delay time of the cancel signal by using the signals transmitted from the second adaptive detector and the main feedback signal remover to generate a cancel signal. The second adaptive state monitoring controller 224 removes the multipath fading signal component from the received signal by using the cancellation signal generated by the second adaptive cancellation signal generator.

The received signal received from the receiving antenna is transmitted to the relay amplifier after the main feedback signal is removed by the main feedback signal removal unit, the multipath fading signal is removed by the delay signal removal unit.

Although the present invention has been described above with reference to preferred embodiments thereof, this is merely an example and is not intended to limit the present invention, and those skilled in the art do not depart from the essential characteristics of the present invention. It will be appreciated that various modifications and applications which are not illustrated above in the scope are possible. For example, although the main feedback signal removal unit and the delay signal removal unit are completely separated in the embodiment of the present invention, they may be implemented as one device as shown in FIG. 2. Differences relating to such variations or applications should be construed as being included in the scope of the invention as defined in the appended claims.

According to the present invention, it is possible to eliminate the feedback interference noise and the multipath fading interference signal from which the transmission output signal is fed back to the receiver antenna of the receiver in the wireless communication system. In addition, since the present invention applies the real-time adaptive technology, it is possible to apply to a variety of environments in real time. In addition, according to the present invention, it is possible to eliminate the oscillation phenomenon caused by the radio signal output from the transmitting antenna is returned to the input antenna.

On the other hand, according to the present invention, it is possible to prevent the feedback signal commonly generated in the wireless repeater system to improve the separation of the input / output signal of the wireless repeater system to increase the output of the wireless repeater system, and consequently the wireless It is possible to widen the service area and coverage that the repeater system is in charge of.

In addition, according to the present invention, by removing the interference noise caused by the multipath fading signal, it is possible to transmit only the desired received signal to the relay amplifier.

1 is a block diagram schematically showing an apparatus for adaptive interference noise cancellation according to the present invention;

2 is a block diagram showing another embodiment of an adaptive interference noise canceling apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

200: receiving antenna

210: main feedback signal removal unit

212: first adaptive detector

214: First adaptive state monitoring controller

216: First adaptive cancel signal generator

220: delay signal removal unit

222: second adaptive detector

224: second adaptive state monitoring controller

226: second adaptive cancel signal generator

Claims (3)

A main feedback signal removing unit for removing a main feedback signal by the signal transmitted by the transmitting antenna from the received signal received by the receiving antenna; A delay signal removing unit for removing a multipath signal component from the received signal from which the main feedback signal has been removed by the main feedback signal removing unit; And And removing the main feedback signal and the multipath signal from the received signal input to the receiving antenna, and transmitting only a desired signal to the relay amplifier. The method of claim 1, wherein the delay signal removing unit A second adaptive detector for detecting a real time error signal due to a multipath fading signal from the received signal; A second adaptive cancel signal generator for obtaining an amplitude, a phase, and a delay time for the cancel signal using signals input from the second adaptive detector and the main feedback signal canceller; A second adaptive state monitoring controller controlling the received signal using the cancellation signal generated by the second adaptive cancellation signal generator Adaptive interference noise canceller, characterized in that it comprises a. The method of claim 1, wherein the main feedback signal removing unit A first adaptive detector for detecting a real time error signal from a received signal to a feedback signal signal fed back by a transmission signal; A first adaptive cancel signal generator for obtaining an amplitude, a phase, and a delay time for the cancel signal using the signals input from the first adaptive detector; A first adaptive state monitoring controller for controlling a received signal using the cancellation signal generated by the first adaptive cancellation signal generator Adaptive interference noise canceller, characterized in that it comprises a.