KR20070017781A - Scanning apparatus and scanning method performing correction on amount of light from cis - Google Patents

Abstract

The present invention relates to a scanning method and a scanning apparatus, wherein the scanning method is a scanning method of a scanning apparatus including a light source and a sensor unit, the reflection of which is reflected on the predetermined reference plane from the light source for a predetermined light emission time and enters the sensor unit. Evaluating the amount of light to be made; Obtaining a shading coefficient for correcting a deviation of light in a predetermined direction of the sensor unit based on the estimated light amount; If it is determined that the obtained shading coefficient is less than a predetermined reference value, and performing the scanning by increasing the light emission time of the light source. Thereby, the quantity of light can be corrected over time to improve the quality of the image.

Image, Scanning, CIS, LED, Light Volume, Time

Description

SCANNING APPARATUS AND SCANNING METHOD PERFORMING CORRECTION ON AMOUNT OF LIGHT FROM CIS}

1 is a flowchart illustrating the operation of a conventional scanning device using a CIS,

2 is a block diagram schematically illustrating a configuration of a scanning apparatus according to an embodiment of the present invention.

3 is a flowchart schematically illustrating an operation of a scanning apparatus according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

100: scanning device 110: LED unit

120: sensor unit 130: image processing unit

140: information storage unit 150: control unit

The present invention relates to a scanning apparatus and a scanning method. More particularly, the present invention relates to a scanning apparatus and a scanning method for improving the quality of an image by performing light quantity correction with time.

A scanning device such as a scanner or a multi-function printer performs scanning on a scanning object on which a predetermined image such as text, picture or photo is formed to obtain image data corresponding to the image. The scanning device includes a light source and a sensor unit, and irradiates the light generated from the light source to a surface on which an image of a scanning target is formed, and detects the light reflected on the image to correspond to the amount of light detected. Create

The light source and the sensor unit of the scanning device may be implemented in the form of a contact image sensor (CIS). In this case, the light source is implemented as a light emitting diode (LED). 1 illustrates an operation of a scanning device using a CIS. When power is applied to the scanning device, a home search operation is performed by moving the LED and the sensor to a home position to correct the position of the sensor as a warm-up operation (S1).

The scanning device initializes the light emission time to determine the time from the light emitting point of the LED to the light blocking point (hereinafter referred to as "light emitting time") (S2), and measures the amount of light generated from the LED to evaluate the light quantity of the LED. (S3). The scanning device determines whether the measured amount of light matches a predetermined reference value (S4), and if not, adjusts the LED emission time (S5). For example, the scanning device increases the LED emission time when the measured amount of light is less than the reference value. If the scanning device determines that the measured light quantity matches the reference value (S4), the scanning device stores the light emission time in a predetermined memory (S6). The scanning device generates a shading coefficient necessary for so-called shading correction based on the stored light emission time (S7).

However, LED has a feature that the amount of light decreases over time. Therefore, after the LED emission time is set by the warm-up operation when the power is applied, the scanning is performed according to the initial emission time regardless of the increase or decrease of the quantity of light of the LED unless the user adjusts the emission time. There is a problem that the output image is deteriorated due to the reduction of the amount of light.

An object of the present invention is to provide a scanning device and a scanning method for improving the quality of an image by performing light quantity correction with time.

In order to achieve the above object, the present invention provides a scanning method of a scanning device including a light source and a sensor unit, the method for evaluating the amount of light reflected on the predetermined reference plane from the light source and incident on the sensor unit for a predetermined light emission time; Steps; Obtaining a shading coefficient for correcting a deviation of light in a predetermined direction of the sensor unit based on the estimated light amount; If it is determined that the obtained shading coefficient is less than a predetermined reference value, it provides a scanning method comprising the step of performing a scanning by increasing the light emission time of the light source.

The increasing of the light emission time of the light source may include: storing information indicating that correction is necessary for the light source when determining that the obtained shading coefficient is less than or equal to a predetermined reference value; If there is a scanning command from the user, the method may include increasing the light emission time of the light source according to the information indicating that the light source needs correction.

The object of the present invention is a scanning device, comprising: a light source; A sensor unit sensing light reflected from the light source to a predetermined reference surface; A shading unit obtaining a shading coefficient for correcting a deviation of light in a predetermined direction of the sensor unit based on an amount of light incident on the sensor unit during a predetermined light emission time; If it is determined that the shading coefficient obtained by the shading unit is less than a predetermined reference value, it is also achieved by a scanning device comprising a control unit for controlling the light source to increase the light emission time when performing the scanning.

The scanning device further includes an information storage unit, and when the determined shading coefficient is determined to be equal to or less than a predetermined reference value, the control unit stores information indicating that the light source needs to be corrected in the information storage unit, and scans from the user. If there is a command, the light emission time of the light source may be increased according to information indicating that the light source needs correction.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram schematically showing the configuration of a scanning device 100 according to an embodiment of the present invention. The scanning device 100 according to the present exemplary embodiment scans a scanning object 200 in which a predetermined image such as a text, a picture, or a picture is formed to generate and provide image data corresponding to the image. The scanning device 100 may be implemented as a scanner, a multi-function printer, or the like. The scanning apparatus 100 of the present embodiment improves the quality of the image by performing light quantity correction with time every scanning.

As illustrated in FIG. 2, the scanning apparatus 100 includes an LED unit 110, a sensor unit 120, an image processing unit 130, an information storage unit 140, and a controller 150. The LED unit 110 generates light for scanning the image formed on the scanning object 200. The LED unit 110 may include a plurality of LEDs corresponding to the respective colors of RGB, and emit and block light under the control of the controller 150.

The sensor unit 120 detects light reflected from the LED unit 110 on the image formed on the scanning object 200. The sensor unit 120 outputs a signal corresponding to the amount of light of the detected light. The sensor unit 120 may include a plurality of sensors arranged perpendicularly to a scanning direction with respect to a surface on which the image of the scanning object 200 is formed. These sensors correspond to each pixel constituting a predetermined column of a two-dimensional image.

The LED unit 110 and the sensor unit 120 constitute a so-called CIS type image sensor. The LED unit 110 and the sensor unit 120 move in the scanning direction with respect to the surface on which the image of the scanning target 200 is formed by driving a predetermined driving unit (not shown) under the control of the controller 150 during scanning. Perform scanning.

The image processor 130 performs image processing to correct an error in the amount of light due to the deviation of the light incident on the sensor unit 120. The image processor 130 receives a signal output from the sensor unit 120 during the shading correction operation under the control of the controller 150 and generates a shading coefficient corresponding to the error of the amount of light. Shading correction is performed on the scanned image data based on this. The image processor 130 may additionally perform predetermined image processing on the scanned image data.

The controller 150 controls the overall configuration of the scanning apparatus 100 based on the user's command. The controller 150 controls each component in order to perform light quantity correction of the LED unit 110 over time. 3 is a flowchart schematically showing the operation of the scanning apparatus 100 according to the present embodiment. If there is a scanning command from the user (S110), the controller 150 checks whether the adjustment of the light emission time for correcting the amount of light of the LED unit 110 is necessary (S120). The controller 150 stores information about whether the light emission time of the LED unit 110 is corrected in the information storage unit 140 at each scanning. The controller 150 reads information on whether the light emission time is corrected by the LED unit 110 stored in the previous scanning when scanning is performed, and determines the next operation based on the information.

If it is determined that the light emission time of the LED unit 110 needs to be corrected (S120), the controller 150 performs an operation for correcting the light emission time of the LED unit 110 (S130). In order to correct the light emission time of the LED unit 110, the controller 150 initializes the setting of the light emission time of the LED unit 110 and operates the LED unit 110 for a predetermined time to detect the amount of light generated by the sensor unit 120. The light emitting time of the LED unit 110 is adjusted until the amount of light transmitted from the light source unit satisfies a predetermined reference value. The controller 150 stores the adjusted light emission time of the LED unit 110 in the information storage unit 140.

The controller 150 determines that the light emission time of the LED unit 110 is not necessary to be corrected (S120) or when the light emission time of the LED unit 110 is adjusted (S130), to generate a shading coefficient. 110, the sensor unit 120 and the image processor 130 are controlled (S140). In order to generate the shading coefficient, the controller 150 moves the LED unit 110 and the sensor unit 120 to a predetermined reference plane, a so-called white reference patch, to perform scanning with a set emission time while performing the reference plane. The amount of light reflected by the light is obtained. The controller 150 causes the image processor 130 to generate a shading coefficient for eliminating an error due to the light deviation based on the amount of light obtained.

The controller 150 evaluates the shading coefficients generated by the image processor 130 to correct the light emission time of the LED unit 110 (S150). If it is determined that the generated shading coefficient is equal to or less than a predetermined reference value (S160), the controller 150 stores information indicating that the light emission time of the LED unit 110 needs to be corrected in the information storage unit 140 (S170). The controller 150 may store the shading coefficient generated during the initial operation by applying the power to the information storage 140 as a reference value. The controller 150 may evaluate the average value obtained by averaging the plurality of shading coefficients with a predetermined reference value. If it is determined that the generated shading coefficient exceeds a predetermined reference value (S150), the controller 150 performs a normal scanning operation without correcting the emission time of the LED unit 110.

The controller 150 of the present embodiment may be implemented as a computer program executed by a microprocessor such as a CPU. In this case, the computer program may be stored in a flash memory or the like. Such a computer program is programmed to perform the operation of the controller 150 described above.

As mentioned above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto and may be variously implemented within the claims. For example, the scanning apparatus 100 may correct the emission time of the LED unit 110 at a predetermined period or at a predetermined time not only during the scanning but also during the standby time when the scanning is not performed.

As described above, according to the present invention, it is possible to provide a scanning apparatus and a scanning method for improving the quality of an image by performing light quantity correction with time.

Claims (4)

In the scanning method of a scanning device having a light source and a sensor unit, Evaluating an amount of light reflected from the light source to a predetermined reference plane and incident on the sensor unit during a predetermined light emission time; Obtaining a shading coefficient for correcting a deviation of light in a predetermined direction of the sensor unit based on the estimated light amount; And if the determined shading coefficient is determined to be less than or equal to a predetermined reference value, scanning by increasing the emission time of the light source. The method of claim 1, Increasing the light emission time of the light source, If it is determined that the obtained shading coefficient is less than or equal to a predetermined reference value, storing information indicating that correction is necessary for the light source; And increasing a light emission time of the light source according to information indicating that the light source needs correction when a scanning command is received from a user. In the scanning device, A light source; A sensor unit sensing light reflected from the light source to a predetermined reference surface; A shading unit obtaining a shading coefficient for correcting a deviation of light in a predetermined direction of the sensor unit based on an amount of light incident on the sensor unit during a predetermined light emission time;  And determining a shading coefficient obtained by the shading unit to be equal to or less than a predetermined reference value, and controlling the light source to increase the light emission time when scanning is performed. The method of claim 3, wherein It further comprises an information storage unit, When the controller determines that the obtained shading coefficient is equal to or less than a predetermined reference value, the controller stores information indicating that the light source needs correction, and indicates that the light source needs correction when a user receives a scanning command. And a light emission time of the light source is increased according to the information.

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