KR20080025867A - Image compensation apparatus and method in scanning system - Google Patents

Abstract

An image compensating apparatus and method in a scanning system are provided to prevent picture quality from being decreased when a document is scanned as the brightness of a light source required for scanning varies with time. An image compensating apparatus in a scanning system includes a controller(11). The controller compares an on-time of a light source, which is set for scanning a document, with a correction time for correcting the characteristic of the light source with the lapse of time when a document scanning request is received, and controls supply of power to the light source according to the correction time when the on-time of the light source does not correspond to the correction time.

Description

Image quality compensation device of scanning system and its method {IMAGE COMPENSATION APPARATUS AND METHOD IN SCANNING SYSTEM}

1 is a block diagram showing an image quality compensation apparatus of a scanning system according to the present invention;

2 is a graph showing a relationship between an on time of a light emitting diode and a light emitting diode on correction time;

3 is a flowchart illustrating a method of compensating image quality of a scanning system according to the present invention;

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

10: storage unit 11: control unit

12: image processing unit 13: CIS unit

14 light emitting diode 15 light receiving sensor

16: power supply

The present invention relates to an image quality compensation device and a method thereof of a scanning system, and more particularly, to a quality of a scanning system that prevents a deterioration in image quality during scanning as a characteristic (brightness) of a light source required for scanning changes over time. The present invention relates to a compensation device and a method thereof.

Image scanning systems, such as scanners, are the most common systems for scanning prints, photographs, human handwritten notes or pictures in color or black and white.

The image scanning system is used as an essential component of a multifunction printer, a document translator, a computer for computer aided design (CAD), a facsimile, a character recognizer, a digital copy machine, and the like.

Image scanning systems can be broadly divided into sheet-fed systems and flat-bed systems.

The sheet fed system scans an image in such a way that the original is moved with the image sensor fixed to read a single original like a conventional facsimile. This sheet fed system enables automatic scanning of multiple originals through an ADF (Automatic Document Feeder) device.

On the other hand, the flat bed system is a system configured to enable the scanning of a single document and a book (Book scan) like a general copier, the system is a system for scanning an image while the image sensor moves in a fixed state.

In such an image scanning system, an image sensor such as a CCD (Charge Coupled Device) or a CIS (Contact Image Sensor) converts into a pixel pattern corresponding to an original image by performing photoelectric conversion in proportion to light reflected from an original to be scanned. .

Scanners using CCDs typically use halogen lamps or fluorescent lamps as light sources, while scanners using CIS typically use small light emitting diodes (LEDs) as light sources.

The black and white CIS uses only one type of green LED to read the black and white of the original, whereas the color CIS uses the red LED, green LED, and blue LED. ), The light quantity for each light emitting diode is read out alternately, and the combination of these three values recognizes the original color.

Such a small light emitting diode is very important to mechanically prevent the CIS from being exposed to the external light because the amount of light of the lamp as well as the external light is significantly less. This is because when the external light is mixed with the light reflected from the original, the amount of incident light increases, thereby scanning the original color into an image close to white.

The seat fed system is easy to block external light because it is not exposed to external light, but the flat bed system is exposed to external light when the scanning cover is open. Therefore, the user needs much attention to block external light when scanning through the flat bed system.

Meanwhile, in the scanning system, a shading procedure is performed to prevent deterioration of an image due to deviation of each pixel of the image sensor. At this time, the shading procedure is directly performed by the service engineer or the user.

The shading procedure is performed by using a shading profile set based on a case where the characteristic (brightness) of the light source is 100%. In this case, the shading profile includes brightness data for each pixel of the image sensor, an on time of the light source, and the like. The on time of the light source represents the time that the light source is turned on to obtain brightness data for each pixel of the image sensor.

However, the brightness of the light source decreases in inverse proportion to the increase in the time that the light source is turned on. As a result, the amount of light irradiated onto the document is reduced, thereby reducing the amount of light incident on the image sensor. This eventually results in background or blurring of the image.

Accordingly, the present invention is to solve the above problems, the image quality compensation device of the scanning system that prevents the degradation of the image quality degraded during scanning as the characteristics (brightness) of the light source required for scanning changes over time and its In providing a method.

The image quality compensation apparatus of the scanning system according to an aspect of the present invention for achieving the above object, corrects the on time of the light source set for scanning the original according to the scanning request of the original, and the characteristics of the light source over time And a control unit for comparing the correction time for controlling the power supply, and controlling the power supply to the light source according to the correction time if the on time of the light source does not coincide with the correction time.

The correction time is preferably larger than the on time of the light source with the passage of time.

The controller controls power supply to the light source according to the on time of the light source when the on time of the light source and the correction time coincide with each other.

The image quality compensation method of the scanning system according to an aspect of the present invention for achieving the above object, the on-time of the light source set for scanning the original according to the scanning request of the original, and corrects the characteristics of the light source over time Comparing the correction time for performing; And controlling the supply of power to the light source according to the correction time if the on time of the light source and the correction time do not coincide.

Hereinafter, an image quality compensation apparatus and a method thereof of a scanning system according to the present invention will be described in detail with reference to the accompanying drawings.

In addition, it should be noted that the same reference numerals are given to the same elements, although belonging to different drawings for convenience of understanding.

1 is a block diagram illustrating an image quality compensation apparatus of a scanning system according to the present invention.

As shown in FIG. 1, the image quality compensation apparatus of the scanning system according to the present invention includes a storage unit 10, a control unit 11, an image processing unit 12, a CIS unit 13, and a power supply unit 16. .

The storage unit 10 is configured to obtain a light emitting diode on time obtained according to a shading procedure first performed in order to prevent a deterioration of an image due to deviation of each pixel of the light receiving sensor 15 in the CIS unit 13, and the CIS unit 13. The light emitting diode 14 therein stores light emitting diode on correction time information for correcting the brightness of the light emitting diode 14 which decreases with time.

In this case, the light emitting diode on time indicates a time when the light emitting diode 14 needs to be turned on to obtain brightness data for each pixel of the light receiving sensor 15.

In addition, the shading procedure performed to prevent the degradation of the image due to the deviation of each pixel of the light receiving sensor 15 in the CIS unit 13 is preferably performed when the scanning system is manufactured.

Meanwhile, FIG. 2 is a diagram illustrating a relationship between a light emitting diode 14 on correction time for correcting the brightness of the light emitting diode 14 which decreases with time for the light emitting diode 14 in the CIS unit 13. Is shown.

As shown in FIG. 2, while the on time 21B of the light emitting diode 14 with the passage of the conventional time does not change with the passage of time, the brightness of the light emitting diode 14 with the passage of time is corrected. It can be seen that the light-emitting diode 14 on correction time 20A increases at a constant rate (tilt) as time passes.

Therefore, the characteristic that the brightness of the light emitting diode 14 decreases with time can be compensated by increasing the on time of the light emitting diode 14.

The power supply unit 16 supplies power to the light emitting diodes 14 in the CIS unit 13 during the on time of the light emitting diodes 14 in accordance with the power supply control of the light emitting diodes 14 of the control unit 11.

The CIS unit 13 includes a light emitting diode 13 and a light receiving sensor 15, which are turned on / off depending on whether power is supplied from the power supply 16.

The light receiving sensor 15 photoelectrically converts incident reflected light into an electrical analog image signal, and a voltage signal having a numerical value proportional to the amount of light reflected from a white panel or an original while the light emitting diode 14 is turned on. Occurs.

The image processor 12 converts the analog image signal generated by the light receiving sensor 15 into a digital image signal and provides the same to the controller 11.

When a scanning request is made to the scanning system, the controller 11 compares the light emitting diode 14 on time for scanning stored in the storage 10 to the light emitting diode 14 on correction time in the storage 10.

If the light emitting diode 14 on time for scanning and the light emitting diode 14 on correction time do not coincide with each other, the control unit 11 supplies a power supply to turn on the light emitting diode 14 according to the light emitting diode 14 on correction time. To control (16). In this case, the light emitting diode 14 on correction time may be larger than the light emitting diode 14 on time for scanning as time passes.

That is, the controller 11 turns on the light emitting diode 14 by adding a difference time between the light emitting diode 14 on correction time and the light emitting diode 14 on time for scanning to the light emitting diode 14 on time. To control the power supply 16.

In other words, the light emitting diode 14 is kept on by the difference time more than the on time of the light emitting diode 14 for scanning.

On the other hand, the controller 11 turns on the light emitting diode 14 according to the on time of the light emitting diode 14 for scanning when the on time of the light emitting diode 14 for scanning matches with the on correction time of the light emitting diode 14. To control the power supply 16.

The controller 11 may display a digital image signal provided by the image processor 12 through a display device (not shown).

3 is a flowchart illustrating a method for compensating image quality of a scanning system according to the present invention.

As shown in FIG. 3, when a scanning request is made (S30), the scanning system compares the light emitting diode on time for scanning with the light emitting diode on correction time and checks whether it matches (S31 and S32).

In this case, the light emitting diode on time indicates a time when the light emitting diode should be turned on to obtain brightness data for each pixel of the light receiving sensor, and the light emitting diode on correction time indicates that the light emitting diode 14 in the CIS unit 13 has elapsed time. The time required for the light emitting diode to correct the brightness of the light emitting diode 14, which decreases, should be on.

If the light emitting diode on time and the light emitting diode on correction time do not coincide with each other, the scanning system controls the power supply to the light emitting diode so that the light emitting diode is turned on according to the light emitting diode on correction time (S34).

In this case, the light emitting diode on correction time may be larger than the light emitting diode on time for scanning as time passes.

That is, the scanning system controls the power supply to the light emitting diode to turn on the light emitting diode by adding a difference time between the light emitting diode on time for scanning, the time difference between the light emitting diode on correction time and the light emitting diode on time for scanning.

In other words, the light emitting diode is kept on by the difference time more than the light emitting diode on time for scanning.

On the other hand, when the light emitting diode on time and the light emitting diode on correction time coincide, the scanning system controls the power supply to the light emitting diode so that the light emitting diode is turned on according to the light emitting diode on time (S33).

As described above, according to the image quality compensation apparatus and the method of the scanning system according to the present invention, it is possible to prevent the degradation of the image quality deteriorated during scanning as the characteristics (brightness) of the light source required for scanning change over time. .

Claims (5)

In the image quality compensation device of a scanning system, Compare the on time of the light source set for scanning the document with the correction time for correcting the characteristics of the light source over time according to the scanning request of the original, and if the on time of the light source and the correction time do not match And a controller for controlling power supply to the light source according to the correction time. The method of claim 1, And the correction time is greater than the on time of the light source as time passes. The method of claim 1, The control unit, And a power supply to the light source according to the on time of the light source when the on time of the light source coincides with the correction time. In the image quality compensation method of the scanning system, Comparing an on time of a light source set for scanning an original according to a scanning request of an original with a correction time for correcting a characteristic of the light source over time; Wow And controlling the supply of power to the light source according to the correction time if the on time of the light source and the correction time do not coincide. The method of claim 4, wherein And the correction time is greater than the on time of the light source as time passes.

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