KR101254216B1 - Method of removing a flicker noise of a mobile communication terminal and the mobile communication terminal thereof - Google Patents

Abstract

Disclosed are a flicker noise removing method of a mobile communication terminal and a mobile communication terminal for performing the same. According to an embodiment of the present invention, a flicker noise removing method of a mobile communication terminal includes generating a preview image corresponding to a specific subject by driving a camera, detecting a number of flicker noises generated from the preview image, and Based on the number of flicker noises, it is determined whether the power frequency of the preset external light source matches the actual power frequency of the current external light source, and if it does not match, the power frequency value of the preset external light source is changed to another power frequency value. It includes a step.

Mobile communication terminal, Flicker noise, Preview image, Power frequency, External light source

Description

Method of removing a flicker noise of a mobile communication terminal and a mobile communication terminal for performing the same {Method of removing a flicker noise of a mobile communication terminal and the mobile communication terminal}

1 is a block diagram showing the configuration of a mobile communication terminal according to an embodiment of the present invention;

2 is a view illustrating in more detail the relationship between the camera module unit, the controller and the memory unit of FIG. 1; and

3 is a flowchart provided to explain a flicker noise removing method of a mobile communication terminal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: mobile communication terminal 140: memory unit

150: display unit 160: input unit

170: camera module unit 172: image sensor

174: image processing unit 176: sensor control unit

180: control unit 182: flicker noise detection unit

184: power frequency determination unit

The present invention relates to a method for removing flicker noise of a mobile communication terminal and a mobile communication terminal for performing the same.

In general, an image sensor refers to a semiconductor device that converts an optical image into an electrical signal. Image sensors are especially used for image capture in mobile communication terminals. The light source used to photograph the image sensor can be largely divided into sunlight and artificial light, and artificial light is divided into fluorescent and incandescent lamps.

Among them, the frequency of AC power used in fluorescent lamps is different in each country. Power frequencies of 60 Hz in the US, 50 Hz in Europe, and 60 Hz and 50 Hz in Japan are used.

When shooting with the image sensor under sunlight or incandescent light, flicker noise does not occur.However, when shooting with the image sensor under fluorescent light, flicker noise occurs due to curvature of stripes even when shooting the same image. There is.

Flicker noise occurs because the condensing period of the image sensor receives light does not match the power frequency used by the fluorescent lamp.

In general, the mobile communication terminal is provided with means for removing the flicker noise in accordance with the power source frequency of the external light source used in each country.

In addition, in countries where two power sources are used simultaneously in each region, such as Japan, a menu for allowing a user to set the power source frequency of an external light source to remove flicker noise corresponding to the power frequency of different external light sources is provided. It is provided in the terminal.

That is, users in the region where the external light source uses a power frequency of 50 Hz set the power source frequency of the external light source to 50 Hz to remove the flicker noise, while users in the region where the external light source uses the power frequency of 60 Hz use the flicker noise. In order to remove the power source frequency of the external light source was set to 60Hz. In addition, there is an auto menu for automatically changing the external light source frequency setting value in the mobile communication terminal according to the actual power source frequency used by the external light source.

However, even when the menu for setting the power frequency of the external light source is provided in the mobile communication terminal, when the user moves to an area using a different power frequency of the external light source, the power frequency of the external light source is reset to match the area. There was an inconvenience to be done.

In addition, even when the auto function is set, flicker noise is often generated because the power source frequency of the external light source used in the area where the mobile communication terminal is currently located cannot be accurately found.

Accordingly, an object of the present invention is to determine the power frequency actually used by the external light source by measuring the number of flicker noises detected in the preview image, and to shoot the image according to the power frequency actually used by the external light source. It is an object of the present invention to provide a flicker noise detection method of a mobile communication terminal and a mobile communication terminal for performing the same.

The technical objects to be achieved by the present invention are not limited to the technical matters mentioned above, and other technical subjects which are not mentioned can be clearly understood by those skilled in the art from the following description. There will be.

According to an aspect of the present invention, there is provided a flicker noise detecting method of a mobile communication terminal, comprising: generating a preview image corresponding to a specific subject by driving a camera; Detecting the number of flicker noises generated in the preview image; And determining whether or not a preset power source frequency of the external light source matches the actual power source frequency of the current external light source based on the number of the flicker noises. And changing the value.

The method may further include setting a power frequency value of the external light source, wherein the power frequency value of the external light source is set to one of 50 Hz and 60 Hz.

The determining of whether the preset power source frequency of the external light source coincides with the actual power source frequency of the current external light source based on the number of the flicker noises. The number of the flicker noises may be compared by comparing the number of the flicker noises with a predetermined reference value. If is greater than the predetermined reference value, it is determined that the power source frequency of the preset external light source and the actual power source frequency of the current external light source match.

The mobile communication terminal according to an embodiment of the present invention comprises a memory unit for storing the power frequency of the preset external light source; A camera module unit generating a preview image corresponding to a specific subject by using an image sensor; And determining whether the preset power source frequency of the external light source coincides with the actual power source frequency of the current external light source based on the number of flicker noises generated in the preview image, and if it does not match, the external light source stored in the memory unit. And a control unit for changing the power source frequency value to another power source frequency value.

The control unit may include: a flicker noise detector for detecting the number of flicker noises generated in the preview image; And a power frequency determination unit comparing the number of flicker noises with a predetermined reference value stored in the memory unit to determine whether the preset power source frequency of the external light source matches the actual power source frequency of the current external light source.

The power frequency judging unit may compare the number of the flicker noises with a predetermined reference value stored in the memory unit. When the number of the flicker noises exceeds the predetermined reference value, the power frequency of the preset external light source and the current external light source may be determined. It is judged that the actual power supply frequency matches.

The predetermined reference values stored in the memory unit have different values according to the set power frequency of the external light source.

The camera module unit may include: a sensor controller configured to change the condensing time of the image sensor to be an integer multiple of the changed power frequency value when the power frequency value of the external light source preset by the controller is changed to another power frequency value; It includes more.

In addition, the display unit for displaying a setting menu for setting the power source frequency of the external light source to 50Hz or 60Hz; An input unit for setting the power source frequency of the external light source to any one of 50Hz or 60Hz; The control unit, if the power source frequency of the external light source is set by the input unit, the power source frequency of the set external light source Stored in the memory unit.

In the following description, the mobile communication terminal includes a cellular phone, a personal communication system (PCS), a personal data assistant (PDA), an international mobile communication-2000 (IMT) terminal, and the like. It is meant to be all inclusive.

Hereinafter, with reference to the accompanying drawings illustrating the present invention.

1 is a block diagram showing the configuration of a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 1, the mobile communication terminal 100 includes a wireless transceiver 110, a data processor 120, an audio processor 130, a memory 140, a display 150, an input 160, It includes a camera module unit 170 and the controller 180.

The wireless transceiver 110 performs a communication function of the mobile communication terminal 100. The wireless transceiver 110 includes an RF transmitter for upconverting and amplifying a frequency of a transmitted signal, and an RF receiver for low noise amplifying and downconverting a received signal.

The data processor 120 includes a transmitter for encoding and modulating a transmitted signal and a receiver for demodulating and decoding a received signal.

The audio processor 130 plays a function of reproducing the audio signal decoded and output from the data processor 120 or transmitting the audio signal generated from the microphone MIC to the data processor 120.

The memory unit 140 includes a program memory and data memories. Programs are stored in the program memory for controlling general operations of the mobile communication terminal 100.

In the embodiment of the present invention, the memory unit 140 determines whether the power source frequency of the external light source set by the user through the input unit 160 matches the actual power source frequency of the external light source at the current position at which the camera module unit 170 is being driven. The predetermined reference value, which is a reference for judgment, is stored. At this time, the predetermined reference value has a different value according to the power source frequency of the external light source set by the user.

The display unit 150 outputs various display information output from the mobile communication terminal 100, various menu screens, and the like, and is preferably made of a liquid crystal display (LCD) or an organic light emitting diode (OLED).

In an embodiment of the present invention, the display unit 150 displays a camera menu screen for driving the camera module unit 170 and a menu screen for setting a power frequency of an external light source.

The input unit 160 includes various buttons for inputting numeric and text information and function buttons for setting various functions. The input unit 160 may be implemented as a keypad having a direction key, a jog dial, a touch screen, a joystick, and the like.

In an embodiment of the present invention, the input unit 160 sets the power frequency of the external light source using a menu screen for setting the power frequency of the external light source displayed on the display unit 150. In addition, the input unit 160 receives a request for driving the camera module unit 170 from the user and transmits it to the controller 180.

The camera module unit 170 generates a preview image of a subject by using an image sensor when a request for driving the camera module unit 170 is input to the input unit 160. In addition, when a photographing request for a subject is received from the input unit 160, the camera module unit 170 generates a photographed image photographing the subject.

The controller 180 performs overall control of the mobile communication terminal 100 and may include the above-described data processor 120.

In an embodiment of the present invention, the controller 180 detects the number of bands, that is, flicker noises, from the preview image generated by the camera module unit 170. In addition, the controller 180 compares the number of detected flicker noises with a preset reference value and the power frequency of the currently set external light source matches the actual power frequency of the external light source at the current location where the camera module 170 is being driven. Check it.

FIG. 2 is a diagram more specifically illustrating a relationship between a camera module unit, a controller, and a memory unit of FIG. 1.

The camera module unit 170 includes an image sensor 172, an image processing unit 174, and a sensor controller 176, and the controller 180 includes a flicker noise detector 182 and a power frequency determination unit 184. do.

When the camera module unit 170 is driven, the image sensor 172 generates preview image information by sequentially exposing pixels to light for each line.

More specifically, the image sensor 172 exposes the pixels of the first line to light to receive light with a photoelectric conversion element (ex: photodiode) for a predetermined condensing time to generate the preview image information of the first line. After time, pixels of the next line are exposed to light to generate preview image information of the next line.

At this time, the line condensing time is set to a time corresponding to an integer multiple of the set power frequency. In this way, if the line condensing time is set to a time corresponding to an integer multiple of the set power frequency, the light energy received by the image sensor is the same during the condensing time for each line, and thus the flicker noise is not affected by the line brightness. This is because occurrence can be prevented.

The image processor 174 may signal-process the preview image information generated by the image sensor 172 and provide the signal to the flicker noise detector 182 in the controller 180.

The flicker noise detector 182 in the controller 180 detects the number of bands generated in the preview image provided from the image processor 174 for each frame. Here, the band is a bent band of stripes generated in the preview image, which means flicker noise.

The power frequency determination unit 184 compares the number of bands provided by the flicker noise detection unit 182 with a predetermined reference value stored in the memory unit 140, and the power frequency set by the user corresponds to the actual power frequency used by the external light source. Check if it applies.

3 is a flowchart provided to explain a flicker noise removing method of a mobile communication terminal according to an embodiment of the present invention.

1 to 3, the user enters a menu for setting the power frequency of the external light source through the input unit 160 and sets the power frequency of the external light source (S305). To this end, the mobile communication terminal 100 displays a menu screen for setting a power frequency of an external light source and provides the same to a user.

In the embodiment of the present invention, it is assumed that the user can set the 50 Hz, 60 Hz, or the auto function as the power source frequency of the external light source.

When the power frequency of the external light source is set as described above, when the user enters the camera menu and drives the camera module 170 (S310: Y), the image sensor 172 of the camera module 170 is lined. Each pixel is sequentially exposed to light to generate preview image information (S315).

Meanwhile, the preview image information generated by the image sensor 172 is signal-processed by the image processor 174 and then provided to the flicker noise detector 182 of the controller 180.

The flicker noise detector 182 detects the number of bands generated in the preview image provided from the image processor 174 for each frame (S320). The number of bands detected by the flicker noise detector 182 is provided to the power source frequency determiner 184.

The power frequency determination unit 184 compares the number of bands provided by the flicker noise detection unit 182 with a preset reference value to determine whether the power frequency set by the user corresponds to the actual power frequency used by the external light source in step S305 ( S325).

More specifically, when the number of detected bands exceeds the preset reference value (S330: Y), the power frequency determination unit 184 does not correspond to the actual power frequency used by the external light source in step S305. It is determined that (S335).

In addition, when determining that the power frequency set by the user does not correspond to the actual power frequency used by the external light source, the power frequency determination unit 184 changes the power frequency of the external light source set by the user to another value. In operation S340, the controller 140 stores the stored value at 140 and provides the changed value to the sensor controller 176.

In the present embodiment, when the power frequency set by the user in step S305 is 50Hz, and the power frequency determination unit 184 determines that the actual power frequency used by the external light source is not 50Hz, the power frequency determination unit 184 ) Changes the power source frequency of the external light source set by the user to 60 Hz and stores it in the memory unit 140, and informs the sensor controller 176 that the power source frequency of the external light source has been changed to 60 Hz.

The sensor controller 176, which has received the information that the power frequency of the external light source is changed from the power frequency determination unit 184, changes the condensing time for each line of the image sensor 172 according to the changed power source frequency of the external light source (S345). ).

That is, the sensor controller 176 changes the condensing time for each line of the image sensor 172 to be an integer multiple of the changed power source frequency of the external light source. In this manner, the preview image information can be generated corresponding to the power source frequency actually used by the external light source, thereby preventing flicker noise.

In the above description of the preferred embodiment of the present invention, the present invention is not limited to the above-described specific embodiment, it is common in the art to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

As described above, according to an embodiment of the present invention, by checking the actual power source frequency of the external light source based on the number of bands detected from the preview image provided by the camera module unit, that is, the number of flicker noises, Images can be taken to match the actual power frequency. Therefore, there is an advantage in that the flicker noise generated because the actual power frequency of the external light source and the condensing time of the image sensor do not correspond.

Claims (9)

Setting a power frequency value of an external light source; Generating a preview image corresponding to a specific subject by driving the camera; Detecting the number of flicker noises generated in the preview image; Determining whether the set power source frequency of the external light source matches the actual power source frequency of the current external light source; And Changing the power frequency value of the set external light source to another power frequency value when it is determined that the power frequency of the set external light source does not coincide with the actual power frequency of the current external light source. Determining whether the set power source frequency of the external light source and the actual power source frequency of the current external light source is the same, And a predetermined predetermined reference value having different values according to the number of the flicker noises and the power frequency of the external light source stored in the memory unit. The method of claim 1, Setting the power frequency value of the external light source, Flicker noise removal method of the mobile communication terminal, characterized in that the power frequency value of the external light source is set to any one of 50Hz or 60Hz. The method of claim 1, Determining whether the set power source frequency of the external light source and the actual power source frequency of the current external light source is the same, When the number of the flicker noises is compared with the predetermined reference value and the number of the flicker noises exceeds the predetermined reference value, the power frequency of the preset external light source does not match the actual power frequency of the current external light source. Flicker noise removal method of a mobile communication terminal, characterized in that not determined. A memory unit for storing predetermined reference values having different values according to power source frequencies of the external light sources for comparison with a preset power source frequency of the external light source and the number of flicker noises; A camera module unit generating a preview image corresponding to a specific subject by using an image sensor; On the basis of the number of flicker noises generated in the preview image, it is determined whether the preset power source frequency of the external light source coincides with the actual power source frequency of the current external light source. And a control unit for changing the power frequency value to another power frequency value. 5. The apparatus of claim 4, A flicker noise detector configured to detect the number of flicker noises generated in the preview image; And And a power frequency judging unit comparing the number of the flicker noises with the predetermined reference value stored in the memory unit to determine whether the preset power source frequency of the external light source matches the actual power source frequency of the current external light source. Mobile communication terminal. The method of claim 5, wherein the power frequency determination unit, The number of the flicker noises is compared with the predetermined reference value stored in the memory unit, and when the number of the flicker noises exceeds the predetermined reference value, the power source frequency of the preset external light source coincides with the actual power source frequency of the current external light source. Mobile communication terminal, characterized in that not determined. delete The method of claim 4, wherein the camera module unit, And a sensor controller configured to change the condensing time of the image sensor to be an integer multiple of the changed power frequency value when the power frequency value of the external light source preset by the controller is changed to another power frequency value. Mobile terminal. 5. The method of claim 4, A display unit displaying a setting menu for setting a power frequency of an external light source to 50 Hz or 60 Hz; And an input unit for setting a power frequency of the external light source to any one of 50 Hz and 60 Hz. The control unit, when the power source frequency of the external light source is set by the input unit, the mobile communication terminal, characterized in that for storing the power source frequency of the external light source.

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