KR20050066730A - Apparatus for controling low pass filter according to noise level of display device - Google Patents

Abstract

The present invention relates to a low pass filter adjusting device according to a noise level of an image device for detecting a noise level included in a video signal and automatically adjusting the noise reduction characteristic according to the detected noise level. A noise detector for detecting a noise level, a noise attenuation intensity adjusted according to the noise level detected by the noise detector, and noise attenuating the input video signal according to the adjusted noise attenuation intensity And a control unit for controlling the noise attenuation intensity adjusting unit according to the noise level detected by the noise detecting unit, thereby detecting the noise level of the video signal and automatically adjusting the low pass characteristic according to the detected noise level. Image quality due to noise reduction This is avoided as much as possible, and because no user command is required, it can improve not only functional efficiency but also user convenience.

Description

Apparatus for Controlling Low Pass Filter According to Noise Level of Display Device}

The present invention relates to a noise reduction device, and more particularly, to a low pass filter adjustment device according to a noise level of an image device for automatically adjusting the noise reduction intensity according to a noise level included in an image signal.

As shown in FIG. 1, a noise reduction device of a general video apparatus includes a key input unit 1 for a user to input a noise reduction command, and a control signal when a noise reduction command is input through the key input unit 1. And a noise attenuator 3 for outputting noise and attenuating the video signal input according to the control signal of the controller 2.

In this case, the noise attenuator 3 is composed of a low pass filter or an averager having a predetermined low pass characteristic.

Referring to the operation of the conventional video device noise reduction device, when the user directly checks the screen state and the displayed image has a lot of noise, the user inputs a noise reduction command through a key input unit 1 such as a remote control or a key panel provided in the main body. do. That is, the noise reduction circuit is turned on through the key input unit 1.

At this time, the control unit 2 converts a user's noise attenuation command into a corresponding control signal and outputs it to the noise attenuation unit 3.

When the control signal is input from the controller 2, the noise attenuator 3 performs a noise attenuation operation on the input image signal according to a preset low pass characteristic.

In other words, the user directly checks the image state of the screen and then turns on the noise reduction circuit to perform the noise reduction operation on the input image signal.

The conventional noise reduction device described above has the following problems.

First, when the user checks the displayed screen state one by one to display a noisy image, the noise reduction function should be directly executed by using a key input means.

However, in reality, many users are not aware of the presence or absence of noise reduction function in their own video devices or have to set the noise reduction function after determining the screen condition one by one, which not only inconveniences users but also improves the efficiency of the function. There was a problem of lowering.

Second, since the conventional noise reduction function merely performs the on / off function according to the user setting, it is impossible to adjust the image according to the noise level.

That is, when the noise reduction function is performed, not only the sharpness of the image is deteriorated but also the noise reduction is performed according to a constant low pass characteristic (noise reduction characteristic) regardless of the noise level.

Accordingly, the present invention has been made to solve the above-described problems of the prior art, and detects a noise level included in an image signal and automatically adjusts a noise reduction characteristic according to the detected noise level. It is an object of the present invention to provide a low pass filter adjusting apparatus according to the present invention.

The low pass filter adjusting apparatus according to the noise level of the video device of the present invention for achieving the above object is a noise detector for detecting a noise level of the input video signal, the noise level detected by the noise detector A noise attenuation intensity adjusting unit for adjusting the noise attenuation intensity according to the noise reduction intensity and performing noise attenuation on the input video signal according to the adjusted noise attenuation intensity, and the noise attenuation intensity adjusting unit according to the noise level detected by the noise detector. It is configured to include a control unit for controlling and has its features.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

A preferred embodiment of the low pass filter adjusting device according to the noise level of the present invention will be described with reference to the accompanying drawings.

In the low pass filter adjusting apparatus according to the noise level of the present invention, as shown in Fig. 2, the A / D converter 30 for converting the input video signal to analog and digital, the noise level of the video signal (Noise Level) The noise detection unit 10 for detecting the noise is adjusted, the noise reduction intensity is adjusted according to the noise level detected by the noise detection unit 10, and output through the A / D converter 30 according to the adjusted noise reduction intensity. And a controller 20 for controlling the noise attenuation intensity adjusting unit 40 according to the noise level detected by the noise detector 10. It is composed.

In this case, the noise detector 10 may include a first low pass filter 12 for filtering a noise of a high frequency component into a sampleable band, and the first low pass filter 12 for a predetermined time under the control of the controller 20. The first switching unit 11 for passing the signal output through the), the second low pass filter 14 for removing the noise of the high-pass component, and the predetermined time under the control of the control unit 20 A second switching unit 13 for passing the signal output through the second low pass filter 14, a charging unit 15 for holding the output signal of the second low pass filter 14 for a predetermined time, and An amplification unit 16 for comparing the output signal of the first low pass filter 12 with the output signal of the second low pass filter 14 held by the charging unit 15 and amplifying the difference value; Sample / hole for sampling the output signal of the amplifier 16 It consists of a part (17).

Here, the first low pass filter 12 sets a relatively low low pass characteristic to detect a high frequency noise component, while the second low pass filter 14 selects a high frequency noise component from an image signal. Strongly set the lowpass characteristics to remove them completely and use them as reference signals.

In addition, the noise reduction strength adjusting unit 40 outputs a coefficient adjusting signal according to the noise level output from the controller 20, and the noise adjusting signal output from the noise control unit 41. And a coefficient adjusting unit 42 for adjusting the low pass characteristic, that is, the noise attenuation coefficient, and performing noise attenuation on the input video signal according to the adjusted noise attenuation coefficient.

The low pass filter adjusting device according to the noise level of the present invention configured as described above will be described in detail with reference to FIGS. 2 and 3.

First, the format of the video signal is various, such as NTSC, PAL, 480i, 480p. However, there are some horizontal lines in which the video signal is not loaded in the vertical blanking period VBI.

The present invention selects any one of these horizontal lines for each format and detects noise of the video signal using the horizontal line of the non-video signal.

That is, the controller 20 sets specific horizontal lines 1H and Ysn for noise detection within the vertical retrace period of the currently input image signal Y_in. The horizontal line Ysn is determined based on the horizontal / vertical synchronization signals HS and VS input to the controller 20.

When the set arbitrary horizontal line Ysn is outputted, the controller 20 outputs the clock signal C1 and at the same time, the inverted signal of the clock signal C1 through the inverter 18 ( ). That is, the clock signal C1 and the inverted signal thereof may be controlled so that the switching operations of the first switching unit 11 and the second switching unit 13 are mutually exclusively controlled. ).

In this case, the clock signal C1 divides one line except for the synchronization part into two sections of the first half Ta and the second half Tb.

The second switching unit 13 turns on the second switching unit 13 during the first half of the clock signal C1, that is, during the active time, and receives the second horizontal low-pass filter Ysn. 14).

Here, the second low pass filter 14 is set to have a low pass characteristic such that a band of a general noise component can be completely removed, and outputs a signal Y_cl whose noise is attenuated.

The output signal Y_cl of the second low pass filter 14 is input to the holder, i.e., the charging unit 15, so that the level input during the second half Tb of the clock signal C1 is compared with the noise signal. maintain.

The charging unit 15 has a hold function of the sample / hold unit 17 and is input during the active period of the clock signal C1.

On the other hand, the second half Tb of the clock signal C1, that is, the inverted clock signal ( The first switching unit 11 is turned on during the active time of), and the horizontal line Ysn inputted in the section is input to the first low pass filter 12.

Here, the first low pass filter 12 converts the sample / hold unit 17 into a relatively low frequency component of a band that can be detected according to the sampling clock C2 in order to detect the level of the high frequency noise components. (Y_ ).

The signal Y_cl output through the charging unit 15 is input to the inverting terminal (-) of the amplifier 16 and the signal Y_ output through the first low pass filter 12. ) Is input to the non-inverting terminal (+) of the amplifier 16.

The amplifier 16 outputs an output signal level Y_ of the first low pass filter 12. ) And the output signal level Y_cl of the charging unit 15 are compared to output the difference level, that is, the noise level (Y_EA).

The noise level Y_EA output from the amplifier 16 is input to the sample / hold unit 17 and sampled according to each sample clock based on the sampling signal C2 from the sample / hold unit 17. The level AD_in is input to the controller 20.

At this time, the control unit 20 receives the noise level AD_in detected by the noise detector 10, calculates an average level of the input noise level AD_in, and carries noise on the currently input image signal Y_in. Determine the level.

The noise controller 41 of the noise attenuation intensity controller 40 receives the noise level determined by the controller 20 and controls the coefficient adjuster 42 to adjust the noise attenuation intensity, that is, the low pass characteristic coefficient.

4 shows the relationship between the noise level and the low pass characteristic.

The noise controller 41 controls the operation of the coefficient adjusting unit 42 when the noise level detected by the noise detector 10 exceeds a preset level, and lowers the cutoff characteristic Lcut_off as the noise level is higher. Operate in a direction to enhance the passage characteristics.

In the low pass characteristic control method according to the noise level of the present invention described above, as shown in FIG. 5, after detecting the noise level included in the input video signal (S10), the detected noise level is equal to or greater than the preset level. It is determined whether or not (S20).

As a result of the determination, if the detected noise level is less than or equal to the predetermined level, the set low pass characteristic coefficient is maintained (S30).

On the other hand, if the detected noise level is higher than or equal to the predetermined level, the set low pass characteristic coefficient is adjusted (S40). As the noise level is higher, the low pass characteristic is enhanced to enhance noise removal.

Then, the noise reduction is performed on the video signal Y_in currently input through the A / D converter 30 according to the adjusted low pass characteristic coefficient.

The low pass filter adjusting device according to the noise level of the video device of the present invention as described above has the following effects.

First, it is possible to detect the noise level of the image signal and automatically adjust the low pass characteristics according to the detected noise level, thereby preventing the degradation of the image quality due to the noise attenuation.

Second, by automatically adjusting the noise attenuation according to the noise level of the video signal, a separate user command is not required, thereby improving functional efficiency as well as user convenience.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

1 is a view showing a general noise reduction device

2 is a view showing a low pass filter adjusting device according to the noise level of the present invention.

3 is a view showing the output waveform diagram of each configuration in the low pass filter adjustment apparatus according to the noise level

4 is a graph showing low pass characteristics compared to a noise level.

5 is a flowchart illustrating a method for adjusting low pass characteristics according to the noise level of the present invention.

* Explanation of symbols for main parts of the drawings

10: noise detector

11: first switching unit 12: first low pass filter

13: second switching unit 14: second low pass filter

15: charging unit 16: amplifying unit

17: Sample / hold part

20: control unit 30: A / D conversion unit

40: noise reduction strength adjustment unit

41: noise control unit 42: coefficient adjusting unit

Claims (4)

A noise detector for detecting a noise level of an input video signal; A noise reduction strength adjustment unit for adjusting noise reduction intensity according to the noise level detected by the noise detection unit and performing noise reduction on the input video signal according to the adjusted noise reduction intensity; And a control unit for controlling the noise attenuation intensity adjusting unit according to the noise level detected by the noise detecting unit. The method of claim 1, The noise detector is A first low pass filter for filtering high frequency noise into a sampleable band, A second low pass filter for removing high frequency noise; An amplifier for comparing the output signal of the first low pass filter with the output signal of the second low pass filter and amplifying the difference value; And a sample / hold unit configured to sample the output signal of the amplifier. The method of claim 2, The control unit The noise level of the video signal currently input according to the signal level output from the sample / hold unit is determined, and outputs the determined noise level to the noise attenuation intensity adjusting unit. Pass filter adjustment device. The method of claim 3, wherein The noise reduction strength adjustment unit A noise controller for outputting a coefficient adjustment signal according to the noise level output from the controller; And a coefficient adjusting unit that adjusts the noise reduction coefficient according to the coefficient adjustment signal output from the noise control unit and performs noise reduction on the input image signal according to the adjusted noise reduction coefficient. Low pass filter adjuster.