KR101030037B1 - Barcode scanners that can be used for a plurality of media on which barcodes are printed, and a control method thereof - Google Patents

Abstract

PURPOSE: A barcode scanner using a media which a barcode is printed and a control method thereof are provided to read the barcode by controlling a optimized light to the media. CONSTITUTION: A guide light module(210) firstly examines a list having color and intensity to media which a barcode is recorded. A lighting light module(220) secondarily examines the light for reading a barcode. An image obtaining module(230) obtains an image reflected by the lighting light or the guiding light. A lighting light control module(240) analyzes optical characteristic of the media through an image obtained by the guiding light and controls the lighting light source module base don an analyzed result.

Description

Barcode scanner usable for a plurality of media on which bar codes are printed, and a control method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a barcode scanner and a control method thereof, and more particularly, to a barcode scanner and a method of controlling the barcode that can be scanned with one barcode scanner even when the media on which the barcode is printed have different optical properties.

In general, a barcode refers to a method of displaying information by combining two distinct lines or dots, and two methods are currently used. One-dimensional barcode refers to a method of defining one character by combining several using the thickness ratio of black and white bars. Two-dimensional barcode is black in two axial directions perpendicular to the two-dimensional plane. It is an arrangement of dots with the color of white and white. On the other hand, the device which reads in and decodes this is collectively called a barcode scanner.

Bar codes are printed on media, such as wrapping paper or paper, and are widely used to indicate the price of goods in supermarkets or retail stores. In addition, in order to manage a product using a barcode, a barcode recording device (writer) for scanning a barcode must be provided, and the printed price is attached to each product and the price of the product by scanning the barcode of the product when consumers purchase the product. can confirm.

In recent years, barcodes are also displayed on liquid crystal screens of terminals including mobile phones (portable terminals), computers, and the like, and used for gift certificates, movie tickets, and financial transactions. In addition, it is expected to be widely used for sending and receiving documents in the form of barcodes, such as high-density data storage of two-dimensional barcodes and doctors' prescriptions and certificate documents using the security of encryption technology. However, when scanning a bar code displayed on a liquid crystal screen, since the optical property of the medium of the liquid crystal screen is different from that of a general paper, a dedicated scanner for recognizing a bar code displayed on the liquid crystal display is required.

As such, there is a problem in that different barcode scanners have to be used depending on the medium on which the barcode is recorded. In addition, when scanning a bar code displayed on a liquid crystal screen of a portable terminal or the like, the irradiated light is reflected by the liquid crystal screen, so that it is difficult to accurately read the bar code, thereby reducing the read rate.

The present invention is proposed to solve the above problems of the conventionally proposed methods, and analyzes the optical properties of the media through the image obtained by the guide light and optimizes the media based on the analysis results By providing a bar code scanner and a method of controlling the bar code scanner so that the bar code can be read by a bar code scanner even if the media on which the bar code is printed have various optical properties. For that purpose.

In addition, the present invention by improving the contrast of the barcode image to be read by adjusting the intensity of the illumination light to be irradiated to the barcode according to the color component analysis result of the image obtained by the guide light, it is possible to improve the barcode read rate Another object is to provide a barcode scanner and a control method thereof.

According to a feature of the present invention for achieving the above object, a barcode scanner that can be used for a plurality of media on which a barcode is printed,

(1) a guiding light source module for primarily irradiating guiding light having a predetermined color and intensity to a medium on which a barcode is recorded;

(2) a light source module for illuminating the secondary light for reading the barcode region;

(3) an image acquisition module for acquiring an image reflected by the guide light irradiated from the guide light source module or the illumination light irradiated from the illumination light source module;

(4) an illumination light source for analyzing the optical property of the medium on which the barcode is recorded through the image obtained by the guide light irradiated from the guide light source module, and controlling the illumination light source module based on the analyzed result Control module; And

And (5) an image analysis module which receives an image acquired by the illumination light irradiated from the illumination light source module from the image acquisition module and analyzes it to read data embedded in a barcode.

Preferably,

The apparatus may further include an operation switch module including a start switch configured to receive a start of a scanning operation from a user.

Preferably,

The apparatus may further include a guiding light source controller controlling the guiding light source module to irradiate the guiding light of the predetermined color.

Preferably, the image acquisition module,

While the guide light from the guide light source module or the light for illumination from the light source module for receiving the light reflected from the medium on which the bar code is recorded, the three color components of the analog form (red (R), green ( G), an image sensor unit for decomposing into a blue (B) signal; And

The image sensor unit may include a signal converting unit for receiving the decomposed three analog color component signals and converting them into digital signals.

Preferably, the illumination light source control module,

An optical property analyzer for analyzing an optical property of the medium on which a barcode is recorded through an image acquired by the guide light irradiated from the guide light source module; And

On the basis of the results analyzed by the optical property analyzer, it may include a light source control unit for controlling the light source module for illumination.

More preferably, the illumination light source control module,

An optical property analyzer for analyzing an optical property of the medium on which a barcode is recorded through an image acquired by the guide light irradiated from the guide light source module; And

On the basis of the results analyzed by the optical property analyzer, including a light source control unit for controlling the light source module for illumination,

The optical property analyzer receives three color component signals acquired by the guide light emitted from the guide light source module from the image acquisition module, and compares the relative magnitudes of the three color component signals with respect to each medium. The medium most similar to the medium on which the bar code is recorded can be determined by comparing the relative magnitudes of the three stored color component signals.

Still more preferably, the illumination light source control unit,

Based on the most similar medium determined by the optical property analyzer, the illumination light source module for controlling the illumination may be controlled using an optimal lighting condition stored in advance for the medium.

Even more preferably, the illumination light source control module,

The apparatus may further include an optical property and an optimal illumination condition storage unit for storing a relative magnitude of the three color component signals for each medium and an optimal illumination condition for each medium.

Even more preferably,

The optimal lighting condition may be the optimal light intensity.

Preferably,

The media on which barcodes are recorded include paper, LCD screens, metal surfaces, and many other materials.

The intensity of light for illumination can be set to have an optimal intensity according to the medium on which the barcode is recorded.

According to another aspect of the present invention for achieving the above object, a control method of a barcode scanner that can be used for a plurality of media on which a barcode is printed,

(a) firstly irradiating a guide light having a predetermined color and intensity to a medium on which a barcode is recorded;

(b) acquiring an image formed by the reflection of the guide light;

(c) analyzing the optical properties of the medium on which the barcode is recorded using the image obtained in step (b);

(d) determining and illuminating an optimal illumination light for reading a barcode from the medium based on the analysis result; And

(e) acquiring an image by the illumination light, and reading a barcode from the obtained image.

Preferably,

Prior to the step (a), the method may further include receiving a start of a scanning operation from a user.

Preferably, step (b) is

Receiving an image reflected from the medium on which a barcode is recorded while the guide light is irradiated;

Decomposing the received image into three color component signals (red (R), green (G), and blue (B)) in an analog form; And

And converting the decomposed three analog color component signals into digital signals, respectively.

More preferably, step (c) is

Receiving the converted three digital color component signals, and comparing the relative magnitudes of the three digital color component signals with the relative magnitudes of three color component signals stored in advance for various types of media; And

Based on the comparison result, determining the medium most similar to the medium on which the barcode is recorded may be configured.

Even more preferably, step (d) comprises

Based on the most similar medium determined in the step (c), it is possible to irradiate the light for illumination using the optimal lighting conditions previously stored for the medium.

Preferably,

The media on which barcodes are recorded include paper, LCD screens, metal surfaces, and many other materials.

The intensity of light for illumination can be set to have an optimal intensity according to the medium on which the barcode is recorded.

According to a bar code scanner and a control method thereof that can be used for a plurality of media on which barcodes are proposed in the present invention, an optical property of the media is analyzed through an image obtained by guide light, and based on the analysis result. By controlling the illumination light for reading the barcode so as to be optimized for the media, it is possible to read the barcode with one barcode scanner even when the media on which the barcode is printed have various optical properties. As a result, there is no need to provide a separate barcode scanner for each medium, thereby reducing the economic burden on the user.

In addition, the present invention improves the contrast of the barcode image to be read by adjusting the intensity of illumination light to be irradiated to the barcode according to the color component analysis result of the image obtained by the guide light, thereby improving the barcode read rate. have.

1 is a view showing an aspect in which a barcode scanner available for a plurality of media on which a barcode is printed according to an embodiment of the present invention is actually used.
2 is a diagram showing a configuration of a barcode scanner usable for a plurality of media on which barcodes are printed according to an embodiment of the present invention.
3 is a diagram showing a detailed configuration of an image acquisition module 230 of a barcode scanner according to an embodiment of the present invention.
4 is a view showing a detailed configuration of a light source control module 240 for illumination of a barcode scanner according to an embodiment of the present invention.
5 is a flowchart illustrating a method of controlling a barcode scanner usable for a plurality of media on which barcodes are printed, according to an embodiment of the present invention.
6 is a diagram showing the detailed configuration of step S520 in the method of controlling a barcode scanner usable for a plurality of media on which barcodes are printed according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing an aspect in which a barcode scanner usable for a plurality of media on which barcodes are printed according to an embodiment of the present invention is actually used. As shown in FIG. 1, the barcode scanner 200 that can be used for a plurality of media on which barcodes are printed according to an embodiment of the present invention is not only a case in which the medium is paper (300), but also the case in which the medium is a liquid crystal screen ( The barcode can be read by one barcode scanner. That is, the barcode scanner 200 according to an embodiment of the present invention may use the optical image of the media through the image obtained by the guide light even when the media on which the barcode is printed is any media having various optical properties. By analyzing the attributes and controlling the illumination light for barcode reading based on the results of the analysis, one barcode scanner can read barcodes whose optical attributes are recorded on a number of different media.

2 is a diagram illustrating a configuration of a barcode scanner usable for a plurality of media on which barcodes are printed according to an exemplary embodiment of the present invention. As shown in FIG. 2, the barcode scanner 200 usable for a plurality of media on which barcodes are printed according to an embodiment of the present invention may include a guide light source module 210, a light source module 220 for illumination, and image acquisition. It may be configured to include a module 230, a light source control module 240 for illumination, and an image analysis module 250. In addition, as shown in FIG. 2, the barcode scanner 200 usable for a plurality of media on which barcodes are printed according to an embodiment of the present invention may include an operation switch 262, a screen display unit 264, an external interface ( 266), an end module 268 may be further included.

The guide light source module 210 primarily irradiates a guide light having a predetermined color and intensity to the medium on which the barcode is recorded. The guide light irradiated from the guide light source module 210 accurately indicates an area to be read, and determines each color component of red (R), green (G), and blue (B) of the barcode. It is illumination that is primarily irradiated with a predetermined color on a medium on which a barcode is recorded. According to an embodiment, the guiding light source module 210 may further include a guiding light source controller (not shown) for controlling the guiding light having a predetermined color and intensity to be irradiated.

The illumination light source module 220 illuminates the illumination light in order to finally read the barcode image recorded in the barcode region. That is, the illumination light irradiated from the illumination light source module 220 is a medium on which a barcode is recorded to finally read the barcode area by using information obtained by the guidance light emitted from the guidance light source module 210. It is the illumination that irradiates light to secondary.

The image acquisition module 230 acquires an image reflected by the guide light radiated from the guide light source module 210 or the illumination light emitted from the illumination light source module 220. 3 is a diagram showing the detailed configuration of the image acquisition module 230 of the barcode scanner according to an embodiment of the present invention. As shown in FIG. 3, the image acquisition module 230 of the barcode scanner according to the exemplary embodiment of the present invention may include an image sensor unit 232 and a signal converter 234.

The image sensor unit 232 receives an image reflected from the medium on which the bar code is recorded while the guide light or the illumination light is illuminated from the light source module 220 for guidance, and has an analog form. Decompose it into three color components (red (R), green (G), blue (B)). The image sensor unit 232 may use a color image sensor, and converts the intensity of the red, green, and blue light components of the light input to the sensor into electrical signals. As the image sensor unit 232, for example, a Charge-Coupled Device (CCD) sensor or a Complementary Metal-Oxide Semiconductor (CMOS) sensor may be used.

The signal converter 234 receives three analog color component signals decomposed from the image sensor 232 and converts them into digital signals. That is, the signal converter 234 converts analog signals of three color components output from the image sensor unit 232 into digital signals.

The illumination light source control module 240 analyzes the optical properties of the medium on which the barcode is recorded through the image obtained by the guide light irradiated from the guide light source module 210 and based on the analyzed result. Control module 220. 4 is a diagram illustrating a detailed configuration of an illumination light source control module 240 of a barcode scanner according to an embodiment of the present invention. As shown in FIG. 4, the illumination light source control module 240 of the barcode scanner according to the exemplary embodiment of the present invention may be used in the image acquisition module 230 while the guide light is irradiated from the guide light source module 210. An optical light source controller 242 for analyzing the optical property of the medium by analyzing the acquired image, and an illumination light source controller for controlling the light source module 220 for illumination based on the results analyzed by the optical property analyzer 242. And 244. In addition, as shown in Figure 4, the illumination light source control module 240 of the barcode scanner according to an embodiment of the present invention, which stores the optical properties for the various recording media and the optimal lighting conditions for each medium And may further include an optical attribute and optimal illumination condition storage 246.

The optical property analyzer 242 analyzes the optical property of the medium on which the barcode is recorded through the image obtained by the guide light irradiated from the guide light source module 210. According to an embodiment, the optical property analyzer 242 receives three color component signals obtained by the guide light irradiated from the guide light source module 210 from the image acquisition module 230, The relative magnitudes of the color component signals may be compared with the relative magnitudes of three color component signals stored in advance for various media to determine the media most similar to the media on which the barcode is recorded. For this purpose, the guide light having a predetermined color and intensity should be irradiated from the guide light source module 210, and an image obtained when the guide light having the predetermined color and intensity is irradiated to each medium. The relative magnitudes of the three color components (red (R), green (G), blue (B)) signals obtained from the signal must be stored in advance. Such data may be stored in the optical attribute and the optimal lighting condition storage unit 246 described above.

The configuration and operation of the optical property analyzer 242 according to the embodiment is that when the guide light having the same color and the same brightness is irradiated to the barcodes recorded on various recording media having different optical properties, the barcode is recorded. It is based on experimental results that the relative magnitude (intensity) of the three color components of light reflected from each recording medium differs significantly from each other depending on the optical properties of the media.

The illumination light source controller 244 controls the illumination light source module 220 based on the result analyzed by the optical attribute analyzer 242. In particular, according to the above embodiment, the illumination light source controller 244 is based on the medium most similar to the medium on which the bar code determined by the optical property analyzer 242 is recorded, the optimal illumination stored in advance for the medium. The condition may be used to control the light source module 220 for illumination. To do this, the conditions of the illumination light (eg the light intensity) must be stored in advance so that the barcode reading can be optimized for each medium. Such data may be stored together with the optical property in the optical property and the optimal lighting condition storage unit 246 described above.

The optical property and optimal illumination condition storage unit 246, as described above, stores the relative magnitudes of the three color component signals reflected from the various recording media used for barcode recording and the optimal illumination conditions for each medium. have.

The interface module 260 performs an interface function for a user, a display function such as a barcode scanning process or a final barcode scan result, and a function of transmitting the obtained barcode image to a PC or other external information storage or information processing device. do. For example, as illustrated in FIG. 2, the interface module 260 may include an operation switch 262, a screen display unit 264, an external interface 266, an end display unit 268, and the like.

In addition, although not separately shown in the drawings, the bar code image obtained by the guide light irradiated from the guide light source module 210 or the illumination light irradiated from the light source module 220 for controlling, or controlling the barcode scanner of the present invention Storage module for storing the firmware (Firmware) and the like may be further included.

5 is a flowchart illustrating a method of controlling a barcode scanner usable for a plurality of media on which barcodes are printed, according to an embodiment of the present invention. As shown in FIG. 5, a method of controlling a barcode scanner usable for a plurality of media on which barcodes are printed according to an embodiment of the present invention includes a guide light having a predetermined color and intensity on a medium on which barcodes are recorded. Step (S510), acquiring an image formed by reflection of the guide light (S520), and analyzing the optical property of the medium on which the barcode is recorded through the image obtained in step S520 (S530). Based on the result analyzed in step S530, determining and illuminating an optimal illumination light for reading the barcode (S540), and acquiring an image by the illumination light, and reading the barcode from the obtained image ( S550).

Step S510 is a step of irradiating a guide light of a predetermined color onto a medium (eg, a liquid crystal screen such as paper or a portable terminal) on which a barcode is recorded. More specifically, when the user operates the barcode scanner of the present invention, the barcode scanner irradiates the guide light toward the medium on which the barcode is recorded. As a method of operating the barcode scanner by the user, a method of allowing the user to start the operation manually by using a start switch or the like that can be installed in the scanner may be used. In some embodiments, a sensor may be used to automatically scan a medium to be scanned. A method of sensing and starting operation may be used.

In operation S520, an image formed by reflection of the guide light emitted in operation S510 is acquired. According to an embodiment, the step may include receiving light reflected from the medium on which the bar code is recorded while the guide light is irradiated (S522), and receiving the light input in step S522 from the three color components in analog form ( Decomposing the red (R), green (G), and blue (B) signals (S524), and converting the three analog color component signals decomposed in step S524 into digital signals (S526), respectively. Can be configured. Fig. 6 is a diagram showing the detailed configuration of such step S520.

In step S530, the optical attribute of the medium on which the bar code is recorded is analyzed through the image acquired in step S520. According to an embodiment, the step may include receiving three digital color component signals converted in step S520 (or step S526), and storing the relative magnitudes of the three digital color component signals in advance for various types of media. And comparing the relative magnitudes of the branch color component signals (S532), and determining the medium most similar to the medium on which the barcode is recorded (S534) based on the comparison result of step S532.

Step S540 is a step of determining and illuminating an optimal illumination light for reading the bar code from the medium on which the bar code is recorded, based on the analysis result of step S530. According to an embodiment, the present step may be configured to irradiate the light for illumination using an optimal illumination condition previously stored for the medium, based on the medium most similar to the medium on which the bar code determined in step S530 is recorded.

In step S550, an image obtained by the illumination light emitted in step S540 is obtained, and a barcode is read from the obtained image.

The present invention described above may be variously modified or applied by those skilled in the art, and the scope of the technical idea according to the present invention should be defined by the following claims.

100: when the medium is an LCD screen
200: barcode scanner 210: guide light source module
220: light source module for illumination 230: image acquisition module
232: image sensor unit 234: signal conversion unit
240: light source control module for lighting 242: optical property analysis unit
244: light source control unit for illumination
246: Storage of optical properties and optimal lighting conditions
250: video analysis module 260: interface module
262: operation switch 264: screen display
266: external interface 268: exit indicator
300: when the medium is paper

Claims (16)

In the barcode scanner which can be used for a plurality of media on which a barcode is printed,

(1) a guiding light source module for primarily irradiating guiding light having a predetermined color and intensity to a medium on which a barcode is recorded;
(2) a light source module for illuminating the secondary light for reading the barcode region;
(3) an image acquisition module for acquiring an image reflected by the guide light irradiated from the guide light source module or the illumination light irradiated from the illumination light source module;
(4) an illumination light source for analyzing the optical property of the medium on which the barcode is recorded through the image obtained by the guide light irradiated from the guide light source module, and controlling the illumination light source module based on the analyzed result Control module; And
(5) an image analysis module that reads data embedded in a barcode by analyzing an image acquired by the illumination light irradiated from the illumination light source module from the image acquisition module

A bar code scanner, comprising: a bar code scanner usable on a plurality of media on which bar codes are printed.
The method of claim 1,
And a manipulation switch module including a start switch for receiving a start of a scanning operation from a user.
The method of claim 1,
And a guiding light source controller for controlling the guiding light source module to irradiate the guiding light having the predetermined color and intensity.
The method of claim 1, wherein the image acquisition module,
While the guide light from the guide light source module or the light for illumination from the light source module for receiving the light reflected from the medium on which the bar code is recorded, the three color components of the analog form (red (R), green ( G), an image sensor unit for decomposing into a blue (B) signal; And
And a signal converting unit which receives three analog color component signals decomposed from the image sensor unit and converts them into digital signals, respectively.
According to claim 1, The illumination light source control module,
An optical property analyzer for analyzing an optical property of the medium on which a barcode is recorded through an image acquired by the guide light irradiated from the guide light source module; And
And a lighting light source controller for controlling the lighting light source module based on a result analyzed by the optical property analyzer.
The method of claim 4, wherein the illumination light source control module,
An optical property analyzer for analyzing an optical property of the medium on which a barcode is recorded through an image obtained by the reflection of the guide light irradiated from the guide light source module; And
On the basis of the results analyzed by the optical property analyzer, including a light source control unit for controlling the light source module for illumination,

The optical property analyzer may receive three color component signals obtained by the reflection of the guide light emitted from the guide light source module from the image acquisition module, and may determine various types of relative magnitudes of the three color component signals. A barcode scanner usable for a plurality of media on which a barcode has been printed, characterized in that the media is most similar to the medium on which the barcode is recorded in comparison with the relative magnitudes of the three color component signals stored in advance with respect to the media.
The method of claim 6, wherein the illumination light source control unit,
A bar code that can be used for a plurality of media on which a barcode is printed, based on the most similar medium determined by the optical property analyzer, to control the illumination light source module using an optimal lighting condition stored in advance for the medium. scanner.
The method of claim 7, wherein the illumination light source control module,
A plurality of media with a barcode printed thereon, further comprising an optical attribute and an optimal illumination condition storage unit for storing the relative magnitude of the three color component signals for each medium and the optimal illumination conditions for each medium. Barcode scanner available for.
The method of claim 7, wherein
A bar code scanner usable for a plurality of media on which bar codes are printed, characterized in that an optimal lighting condition is an optimal light intensity.
The method according to any one of claims 1 to 9,
The media on which barcodes are recorded include paper, LCD screens, metal surfaces, and many other materials.
A bar code scanner, which can be used for a plurality of media on which a bar code is printed, wherein the intensity of illumination for illumination is set to have an optimal intensity according to the medium on which the bar code is recorded.
In the control method of a barcode scanner usable for a plurality of mediums on which barcodes are printed,

(a) firstly irradiating a guide light having a predetermined color and intensity to a medium on which a barcode is recorded;
(b) acquiring an image formed by the reflection of the guide light;
(c) analyzing the optical properties of the medium on which the barcode is recorded using the image obtained in step (b);
(d) determining and illuminating an optimal illumination light for reading a barcode from the medium based on the analysis result; And
(e) acquiring an image by the illumination light and reading a barcode from the obtained image

A control method of a barcode scanner usable for a plurality of media on which a barcode is printed, comprising a.
The method of claim 11,
Prior to the step (a), further comprising the step of receiving a start of the scanning operation from the user, the method of controlling a barcode scanner usable for a plurality of media printed bar codes.
The method of claim 11, wherein step (b) comprises:
Receiving an image reflected from the medium on which a barcode is recorded while the guide light is irradiated;
Decomposing the received image into three color component signals (red (R), green (G), and blue (B)) in an analog form; And
And converting the decomposed three analog color component signals into digital signals, respectively.
The method of claim 13, wherein step (c) comprises:
Receiving the converted three digital color component signals, and comparing the relative magnitudes of the three digital color component signals with the relative magnitudes of three color component signals stored in advance for various types of media; And
And determining a medium most similar to the medium on which the bar code is recorded based on the comparison result.
The method of claim 14, wherein step (d)
Based on the most similar medium determined in the step (c), irradiating the illumination light using the optimal lighting conditions stored in advance for the medium, the barcode scanner available for a plurality of bar code printed media Control method.
The method according to any one of claims 11 to 15,
The media on which barcodes are recorded include paper, LCD screens, metal surfaces, and many other materials.
A method of controlling a barcode scanner that can be used for a plurality of media on which a barcode is printed, wherein the intensity of illumination for illumination is set to have an optimal intensity according to the medium on which the barcode is recorded.

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