KR20120011168A - System and method for eliminating noises in-band - Google Patents

Abstract

PURPOSE: A noise removing system within a band and a method thereof are provided to filter a reference signal by generating a reference signal corresponding to the spurious component of a terminal signal. CONSTITUTION: A wireless repeater(200) detects a terminal signal of a user terminal(100) in a receiving signal which is received through a first path. The wireless repeater generates a reference signal corresponding to the spurious component of the detected terminal signal based on appointed signal characteristic. The wireless repeater filters an in-band signal based on the reference signal. The wireless repeater removes the spurious component.

Description

In-band noise cancellation system and method thereof {SYSTEM AND METHOD FOR ELIMINATING NOISES IN-BAND}

The present invention relates to a method for removing in-band noise in mobile communication, and generates a reference signal corresponding to a spurious component of a terminal signal, thereby increasing backward capacity by removing noise components introduced into a band based on the generated reference signal. The present invention relates to an in-band noise cancellation system and method for improving signal quality.

In the mobile communication system, interference of other communication systems, broadcasting, and wireless devices in adjacent bands means system capacity degradation and quality deterioration.In a high-speed mobile communication system, noise above the thermal noise level flowing in the reverse direction, in particular, indicates system capacity and The quality is greatly reduced.

In particular, third-party terminals in adjacent bands emit high power near their base stations due to the near-far problem caused by the differences between their base stations and other base stations. Since a spurious component is introduced into the input and the band, the capacity and the quality of the base station signal are degraded. In this case, the root problem is that, for example, the wireless LAN Internet telephone is located very close to the wireless LAN access point. In this case, a device that is close to the access point is due to the nature of the spread spectrum access method used by the wireless LAN. By controlling the receiving end of the access point it refers to a phenomenon that causes serious interference in the connection of other wireless LAN communication devices sharing the same access point.

In other words, in the case of over-input of a third-party terminal signal, it is solved by installing a high-performance filter in the base station, but there is a problem that the spurious component of the third-party terminal introduced into the band cannot be removed.

The present invention has been made in view of the above circumstances, and an object of the present invention is to extract a terminal signal having a specified signal characteristic through filtering on a received signal received through a first path, and a second path. Outputs an in-band signal having a state in which the terminal signal is removed through filtering on a signal received through the signal, and based on the specified signal characteristic, a reference signal corresponding to a spurious component of the detected terminal signal is output. In-band of the wireless repeater and the wireless repeater to remove the spurious components contained in the in-band signal by performing the filtering of the specified method for the in-band signal generated by the second path based on the generated reference signal By providing a method for removing noise, a reference signal corresponding to a spurious component of a terminal signal is generated. This is to increase the reverse capacity by removing noise components introduced into the band based on the reference signal.

According to an aspect of the present invention, there is provided an in-band noise canceling system comprising: a user terminal provided with a communication service in a setting area based on a terminal signal having a specified signal characteristic; And detecting a terminal signal of a user terminal from a received signal received through a first path in the setting region, and generating a reference signal corresponding to a spurious component of the detected terminal signal based on the specified signal characteristic. And a wireless repeater configured to remove spurious components included in the in-band signal by performing filtering on an in-band signal received with the terminal signal removed through a second path based on the generated reference signal. It is characterized by.

According to another aspect of the present invention, there is provided a wireless relay device comprising: a first filtering unit for detecting a terminal signal having a specified signal characteristic through filtering on a received signal received through a first path; A second filtering unit which detects an in-band signal having a state in which the terminal signal is removed by filtering a signal received through a second path; A reference signal generator configured to generate a reference signal corresponding to a spurious component of the detected terminal signal based on the designated signal characteristic; And a noise canceller configured to remove a spurious component included in the in-band signal by performing a filtering of a predetermined method on the in-band signal received through the second path based on the generated reference signal.

Preferably, the reference signal generator generates a reference signal corresponding to the spurious component by setting a parameter including an attenuator ATT and a bias based on the designated signal characteristic.

Preferably, the noise canceller may perform digital conversion on the reference signal and the in-band signal having analog characteristics, and perform filtering of the designated method on the digitally converted signal.

Preferably, the noise removing unit is characterized in that to remove the spurious component by performing the filtering of the specified method including a Least Mean Square (LMS) method.

Preferably, the noise canceling unit comprises: a digital converter for performing a digital conversion on the reference signal and the signal within the details; And a digital processor for performing the filtering of the designated method on the digitally converted signal.

Preferably, the noise removing unit further comprises an analog converter which performs an analog conversion on the signal filtered by the digital processor and outputs the analog converter.

According to still another aspect of the present invention, there is provided a method for removing in-band noise, comprising: a first filtering step of detecting a terminal signal having a specified signal characteristic through filtering on a received signal received through a first path; A second filtering step of detecting an in-band signal having a state in which the terminal signal is removed by filtering a signal received through a second path; A reference signal generation step of generating a reference signal corresponding to a spurious component of the detected terminal signal based on the designated signal characteristic; And a noise removing step of removing a spurious component included in the in-band signal by performing a filtering of a predetermined method on the in-band signal received through the second path based on the generated reference signal.

Preferably, the step of generating the reference signal is characterized in that to generate a reference signal corresponding to the spurious component through the parameter setting including the attenuator (ATT) and the bias (Bias) based on the specified signal characteristics.

Preferably, the noise canceling step includes: a digital conversion step of performing digital conversion on the reference signal and the in-band signal having analog characteristics; And performing a filtering of the designated method on the digitally converted signal.

Preferably, the noise removing step further comprises an analog conversion step of performing an analog conversion on the filtered signal and outputting the same.

Preferably, the spurious component is removed by performing the filtering of the designated method including the least mean square (LMS) method.

According to the in-band noise cancellation system and method thereof, an in-band signal is generated based on a reference signal generated by generating a reference signal corresponding to a spurious component of a terminal signal based on signal characteristics of an adjacent band user terminal. By filtering on, it is possible to improve the signal quality by increasing the reverse capacity by removing the noise component introduced into the band.

1 is a schematic block diagram of an in-band noise cancellation system according to an embodiment of the present invention.
2 is a schematic configuration diagram of a wireless relay apparatus according to an embodiment of the present invention.
3 is a schematic configuration diagram of a noise removing unit according to an embodiment of the present invention.
4 and 5 are schematic flow charts for explaining the in-band noise reduction method according to an embodiment of the present invention.

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

1 shows a schematic block diagram of an in-band noise cancellation system according to a first embodiment of the present invention.

As illustrated in FIG. 1, the system includes a user terminal 100 receiving communication service in a setting area based on a terminal signal having a specified signal characteristic, and a spurious of a terminal signal based on a signal characteristic of the user terminal. And a wireless relay device 200 for filtering the in-band signal based on the generated reference signal by generating a reference signal corresponding to the component. Meanwhile, the Company A terminal in the adjacent band emits high power near the Company B radio relay due to the near-far problem caused by the difference in the position between the Company A radio relay device and the Company B radio relay device. Accordingly, the spurious component is introduced into the B company's wireless relay device into the over-input of the B company terminal signal and into the band. In this regard, the user terminal 100 refers to a terminal of an adjacent band in which the amplifier and filter characteristics are relatively poor compared to the wireless relay device 200 in the mobile communication field. Therefore, it is assumed that the spurious component generated from the user terminal 100 is introduced into the wireless relay device 200.

The wireless relay device 200 detects a terminal signal having a specified signal characteristic through filtering on a received signal received through a first path connected to a receiving antenna, and detects the terminal signal based on the specified signal characteristic. A reference signal corresponding to the spurious component of is generated. More specifically, the wireless repeater 200 generates a reference signal corresponding to the spurious component through parameter setting including an attenuator ATT and a bias based on the designated signal characteristic. Here, the signal characteristics are specified based on the amplifier characteristics applied to the terminal for each operator.

In addition, the wireless relay device 200 performs filtering on the in-band signal received while the terminal signal is removed through a second path connected to the reception antenna separately based on the generated reference signal. More specifically, the wireless relay device 200 performs a digital conversion on the reference signal and the in-band signal having an analog characteristic, and performs a filtering of a predetermined method on the digitally converted signal. Here, in the case of the filtering method, it is preferable to apply a LMS (Least Mean Square) filtering method that changes the coefficients of the filter in real time in consideration of the characteristics of the fading terminal signal. Furthermore, the wireless relay apparatus 100 performs an analog conversion on the in-band signal from which the spurious component is removed, that is, the signal component from which the in-band noise is removed, and transmits the signal to the actual receiver.

Hereinafter, a detailed configuration of the wireless relay device 200 according to the embodiment of the present invention will be described with reference to FIG. 2.

That is, the wireless relay device 200 may include a first filtering unit 210 for detecting a terminal signal from a received signal, a second filtering unit 220 for detecting an in-band signal, and a reference signal generator 230 for generating a reference signal. ) And a noise canceller 240 for removing spurious components included in the in-band signal.

The first filtering unit 210 detects a terminal signal having a specified signal characteristic by filtering the received signal received through the first path. More specifically, the first filtering unit 210 detects a terminal signal having a specified signal characteristic through filtering on a received signal received through a first path connected to the receiving antenna.

The second filtering unit 220 detects an in-band signal having a state in which the terminal signal is removed through filtering of a signal received through a second path. More specifically, the second filtering unit 220 detects an in-band signal having a state in which the terminal signal is removed through filtering on a signal received through a second path connected to a reception antenna. In this case, only the spurious component of the terminal signal is included in the in-band signal.

The reference signal generator 230 generates a reference signal corresponding to a spurious component of the detected terminal signal based on a signal characteristic specified in the terminal signal. More specifically, the reference signal generator 230 generates a reference signal corresponding to the spurious component through parameter setting including an attenuator ATT and a bias based on the specified signal characteristic. Here, the signal characteristics are specified based on the amplifier characteristics applied to the terminal for each operator.

The noise canceller 240 removes the spurious component included in the in-band signal by performing filtering in a predetermined manner on the in-band signal received through the second path based on the generated reference signal. More specifically, the noise canceller 240 performs the digital conversion on the reference signal and the in-band signal having an analog characteristic, and performs the filtering of the designated method on the digitally converted signal. Done. Here, in the case of the filtering method, it is preferable to apply a LMS (Least Mean Square) filtering method that changes the coefficients of the filter in real time in consideration of the characteristics of the fading terminal signal. Furthermore, the noise canceller 240 performs an analog conversion on the in-band signal from which the spurious component is removed, that is, the signal component from which the in-band noise is removed, and transmits the signal to the actual receiver.

Hereinafter, a detailed configuration of the noise removing unit 240 according to the embodiment of the present invention will be described with reference to FIG. 3.

That is, the noise canceller 240 has a configuration including a digital converter 241, a digital processor 242, and an analog converter 243.

The digital converter 241 performs digital conversion on the reference signal and the signal within the specification.

The digital processor 242 performs filtering of the designated method on the digitally converted signal. More specifically, the digital processor 242 applies a Least Mean Square (LMS) filtering method that changes the coefficients of the filter in real time in consideration of the characteristics of the fading terminal signal, and designates the digitally converted signal. Perform filtering.

The analog converter 243 performs an analog conversion on the signal filtered by the digital processor 242, that is, the in-band signal from which the spurious component is removed, and transmits the signal to the actual receiver.

As described above, according to the in-band noise reduction system according to the present invention, based on the signal characteristics of the adjacent band user terminal based on the reference signal generated by generating a reference signal corresponding to the spurious component of the terminal signal By performing filtering on the in-band signal, it is possible to improve the signal quality by increasing the reverse capacity as the noise component introduced into the band is removed.

Hereinafter, an in-band noise cancellation method according to an embodiment of the present invention will be described with reference to FIGS. 4 and 5. Here, for the convenience of description, the configuration shown in FIGS. 1 to 3 will be described with reference to the corresponding reference numerals.

First, a driving method of the wireless relay apparatus 200 according to an embodiment of the present invention will be described with reference to FIG. 4.

First, a terminal signal having a specified signal characteristic is detected by filtering the received signal received through the first path (S110-S120). Preferably, the first filtering unit 210 detects a terminal signal having a specified signal characteristic through filtering on a received signal received through a first path connected to the receiving antenna.

Then, the in-band signal having a state in which the terminal signal is removed through filtering on the signal received through the second path is detected (S130-S140). Preferably, the second filtering unit 220 detects an in-band signal having a state in which the terminal signal is removed through filtering on a signal received through a second path connected to a reception antenna. In this case, only the spurious component of the terminal signal is included in the in-band signal.

Next, a reference signal corresponding to the spurious component of the detected terminal signal is generated based on the signal characteristic specified in the terminal signal (S150-S160). Preferably, the reference signal generator 230 generates a reference signal corresponding to the spurious component through parameter setting including an attenuator ATT and a bias based on the specified signal characteristic. Here, the signal characteristics are specified based on the amplifier characteristics applied to the terminal for each operator.

Then, the spurious component included in the in-band signal is removed by performing a filtering of a specified method on the in-band signal received through the second path based on the generated reference signal (S170-S200). Preferably, the noise canceller 240 performs the digital conversion on the reference signal and the in-band signal having an analog characteristic, and performs the filtering of the designated method on the digitally converted signal. Done. Here, in the case of the filtering method, it is preferable to apply a LMS (Least Mean Square) filtering method that changes the coefficients of the filter in real time in consideration of the characteristics of the fading terminal signal.

Further, the noise canceller 240 performs an analog conversion on the in-band signal from which the spurious component is removed, that is, the signal component from which the in-band noise is removed, and transmits the signal to the actual receiver.

Hereinafter, a driving method of the noise canceller 240 will be described with reference to FIG. 5.

First, the digital converter 241 performs digital conversion on the reference signal and the intra-description signal (S210-S220).

Then, the digital processor 242 performs the filtering of the designated method on the digitally converted signal (S230-S240). Preferably, the digital processor 242 applies a Least Mean Square (LMS) filtering scheme that changes the coefficients of the filter in real time in consideration of the characteristics of the fading terminal signal. Perform filtering.

Thereafter, the analog converter 243 performs analog conversion on the signal filtered by the digital processor 242, that is, the in-band signal from which the spurious component has been removed, and transmits the signal to the actual receiver (S250-S260).

As described above, according to the in-band noise cancellation method according to the present invention, based on the signal characteristics of the adjacent band user terminal based on the reference signal generated by generating a reference signal corresponding to the spurious component of the terminal signal By performing filtering on the in-band signal, it is possible to improve the signal quality by increasing the reverse capacity as the noise component introduced into the band is removed.

Although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical idea of the present invention to the extent that various modifications or changes are possible.

According to the in-band noise canceling system and the method according to the present invention, the existing technology in that the filtering on the in-band signal based on the reference signal generated by generating a reference signal corresponding to the spurious (spurious) component of the terminal signal It is an invention that has industrial applicability because the possibility of marketing or sales of the applied device is not only sufficient for the use of related technology but also practically obvious as it goes beyond the limit of.

100: user terminal
200: wireless repeater
210: first filtering unit 220: second filtering unit
230: reference signal generator 240: noise canceller
241: digital converter 242: digital processor
243: analog converter

Claims (12)

A user terminal provided with a communication service in a setting area based on a terminal signal having a specified signal characteristic; And
Detecting a terminal signal of a user terminal from a received signal received through a first path in the setting region, and generating a reference signal corresponding to a spurious component of the detected terminal signal based on the specified signal characteristic, And a wireless repeater that removes the spurious component included in the in-band signal by performing filtering on an in-band signal received while the terminal signal is removed through a second path based on the generated reference signal. An in-band noise cancellation system. A first filtering unit which detects a terminal signal having a specified signal characteristic by filtering the received signal received through the first path;
A second filtering unit which detects an in-band signal having a state in which the terminal signal is removed by filtering a signal received through a second path;
A reference signal generator configured to generate a reference signal corresponding to a spurious component of the detected terminal signal based on the designated signal characteristic; And
And a noise canceling unit configured to remove a spurious component included in the in-band signal by performing filtering in a predetermined manner on the in-band signal received through the second path based on the generated reference signal. . The method of claim 2,
The reference signal generation unit,
And generating a reference signal corresponding to the spurious component by setting a parameter including an attenuator (ATT) and a bias (Bias) based on the designated signal characteristic. The method of claim 2,
The noise canceling unit,
And performing digital conversion on the reference signal and the in-band signal having analog characteristics, and performing filtering of the designated method on the digitally converted signal. The method of claim 4, wherein
The noise canceling unit,
And performing the filtering of the designated method including a least mean square (LMS) method to remove the spurious components. The method of claim 5, wherein
The noise canceling unit,
A digital converter for performing digital conversion on the reference signal and the intra-description signal; And
And a digital processor for performing the filtering of the designated method on the digitally converted signal. The method according to claim 6,
The noise canceling unit,
And an analog converter for performing an analog conversion on the signal filtered by the digital processor and outputting the analog converter. A first filtering step of detecting a terminal signal having a specified signal characteristic by filtering the received signal received through the first path;
A second filtering step of detecting an in-band signal having a state in which the terminal signal is removed by filtering a signal received through a second path;
A reference signal generation step of generating a reference signal corresponding to a spurious component of the detected terminal signal based on the designated signal characteristic; And
And a noise removing step of removing a spurious component included in the in-band signal by performing filtering in a predetermined manner on the in-band signal received through the second path based on the generated reference signal. Noise Reduction Method. The method of claim 8,
The reference signal generation step,
And generating a reference signal corresponding to the spurious component through parameter setting including an attenuator (ATT) and a bias (Bias) based on the specified signal characteristic. The method of claim 8,
The noise removing step,
A digital conversion step of performing digital conversion on the reference signal and the in-band signal having analog characteristics; And
And performing a filtering of the designated method on the digitally converted signal. The method of claim 10,
The noise removing step,
And performing an analog conversion on the filtered signal and outputting the analog conversion. The method of claim 10,
And removing the spurious components by performing the filtering of the designated method including a least mean square (LMS) method.

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