JPH05174204A - Color bar-code and bar-code reader - Google Patents

Abstract

PURPOSE:To exactly detect a color used for printing even by a color bar-code printed by using color mixture, as well. CONSTITUTION:A color bar-code is printed by using combination of colors which do not become black even if several colors which are used are mixed, for instance, cyan, magenta and yellow, except the time when all colors that are used are mixed. In the bar-code reader, a reflected light from the color bar-code is resolved into additive complementary colors of a color used for printing of a bar, for instance, color components of red, green and blue by a three-color resolving prism 12, and the respective components are detected by photodetectors 14 (14R, 14G, 14B). A decoding block 18 refers to a correspondence table for showing to which printing color an output result of the photodetector 14 stored in a correspondence table storage part 18A corresponds, decides that the bar is written by using at least the complementary colors of detection sensitivity of the photodetector 14 which does not respond, and detects the color used for printing.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color bar code using a plurality of different colors instead of two black and white colors, and a bar code reader for reading such a color bar code.

[0002]

2. Description of the Related Art Currently, a widely used bar code is composed of a bar and a space using two colors represented by black and white. Several proposals have been made so far in order to increase the amount of information that this general barcode can hold. As one of them, there is a so-called color barcode in which some colors are used instead of two colors of black and white, and some proposals have been made for this color barcode.

For example, Japanese Patent Application Laid-Open No. 60-129891 proposes a method of writing a bar using three colors of red, yellow and blue. Then, in reproduction, it is disclosed to use a color sensor having detection sensitivity for these three colors.

Further, Japanese Patent Laid-Open No. 61-217887 proposes a method of writing a bar using a plurality of color bars, specifically two colors of red and blue. For reproduction, a blue filter is arranged when reading the red bar and a red filter is arranged in front of the optical sensor when reading the blue bar, and each bar is read separately.

[0005]

The prior art related to the above color bar code has the following problems. That is, in the technique disclosed in the above-mentioned JP-A-60-129891, since the colors used are three colors of red, yellow and blue, the detection sensitivity to yellow as shown in FIG. There is a detector that detects not only the reflected light from the yellow bar but also the reflected light from the red bar, and it is impossible to distinguish between yellow and red.

The color of the space where the bar is not printed is usually white, which is the color of the base material of the print medium (eg paper), but this white color reflects all light. Therefore, for example, when a detector having detection sensitivity to red color responds, it cannot be determined whether it is a space or a red bar.

Furthermore, when the above three colors are mixed, the colors are almost black except for the color mixture of yellow and red,
The method disclosed in this publication makes it impossible to detect which color is mixed with which color. In the case of the remaining color mixture of yellow and red, the reflected light from the bar of the mixed color reacts only with the detector that has detection sensitivity for red. It's difficult to tell if it's a red bar.

In the method using a bar and a filter using colors such as red and blue as disclosed in the above-mentioned Japanese Patent Laid-Open No. 61-217887, the number of colors that can be handled is limited to two. This is because, for example, when a bar is overwritten with three colors including green, the color of the bar cannot be determined because both the color mixture of two colors and the color mixture of three colors are also black.

The present invention has been made in view of the above problems, and makes it possible to accurately detect a color used for printing even with a color barcode printed by using mixed colors, and thereby write in multiple values or multiple times. It is an object of the present invention to provide a color bar code and a bar code reading device capable of reading the stored information.

[0010]

In order to achieve the above object, the color barcode of the present invention is a color barcode formed by a plurality of color bars, wherein the plurality of color bars are It is formed by mixing a predetermined number of color bars, and the predetermined number of colors is a color that does not become black even if some of them are mixed, except when all of them are mixed. It has a feature. Here, the predetermined number of colors includes cyan, magenta, and yellow, which are the three primary colors of colors.

Further, in the bar code reading apparatus of the present invention, the detecting means for detecting the complementary color of the color arranged on the bar code and the complementary color of the color not detected by the detecting means are at least the color arranged on the bar code. It is characterized by including a recognition means for recognizing that there is.

Here, the detecting means separates the reflected light from the bar code into complementary color components of the color used for the color code of the bar code, and the light of the complementary color component separated by the separating means. And means for detecting by a detector.

Further, at least one of the three primary colors of cyan, magenta and yellow is used as the color used for the color arrangement of the bar code, and the detection means is a complementary color of the cyan, magenta and yellow. Of the three primary colors of light, red, green, and blue, the color corresponding to the color used for the color arrangement of the barcode is used.

[0014]

That is, according to the color bar code of the present invention, a plurality of color bars are formed by mixing a predetermined number of colors, and the predetermined number of colors are mixed. Except for time, a color that does not become black even if some of them are mixed is used.

Further, according to the bar code reading apparatus of the present invention, as the detecting means, one having a detection sensitivity for the complementary color of the color arranged on the bar code is used, and the recognizing means does not detect by the detecting means. The complementary color is recognized to be at least the color arranged on the barcode.

[0016]

Embodiments of the present invention will be described below with reference to the drawings. 1A to 1D are diagrams showing an embodiment of a color barcode of the present invention. In the color barcode of the present embodiment, a combination of colors is used so that even if all the used colors are mixed, even if some of the used colors are not mixed, a black color is not obtained. Specifically, it can be realized with the three primary colors of cyan (C), magenta (M), and yellow (yellow) (Y) as shown in FIG.

As a result, for example, a cyan (C) bar code as shown in FIG. 1 (A) and a bar code in FIG. 1 (B).
The magenta (M) barcode as shown in Fig. 1 and Fig. 1
The color barcode as shown in FIG. 1D can be obtained by overwriting with the yellow (Y) barcode as shown in FIG.

Here, where the colors are mixed, the colors change based on the principle of subtractive color mixing. According to the subtractive color mixture, as shown in FIG. 3A, magenta (M) and yellow (Y)
Is mixed with red (R), mixed with magenta (M) and cyan (C) is blue (B), and mixed with yellow (Y) and cyan (C) is green (G), magenta (M), When three colors of yellow (Y) and cyan (C) are mixed, black (BL) is obtained. Therefore, as a result of overwriting the barcodes of FIGS. 1A to 1C, a color barcode as shown in FIG. 1D is obtained.

There are no particular rules for writing the bar, and a conventional bar code such as a JAN code may be used as it is, and the bar code may be overwritten with different colors to form a multiple bar code. In this case, it is not necessary to overwrite the barcodes of each color by accurately positioning them. For example, when three colors are used, it is not necessary to print the three colors at the same time, and after printing the barcode with the two colors, a time may be left and the remaining colors may be overwritten. As described above, by using the conventional bar code rule, the color bar code of the present embodiment can be realized by slightly changing the bar code printer.

Alternatively, unlike a conventional bar code rule, the color bar code is constructed by providing information on the difference in the color of the bar instead of providing the information on the difference in the width of the bar, and as a multi-valued bar code. Is also good. By constructing such a multi-value barcode rule, a new high-density barcode can be realized. Here, cyan (C), magenta (M),
Instead of writing a color barcode as shown in (D) of FIG. 1 using yellow (Y), all the colors to be expressed (8 colors including black and white in the example of (D) of FIG. 1) are used, and a multi-value color bar is displayed. It goes without saying that the code may be printed.

As a device for printing the color bar code of this embodiment, a printing device typified by a sublimation type color printer, an electrostatic color plotter, etc. capable of faithfully performing color mixing is desirable.

Next, a bar code reading device for reading the above color bar code will be described. FIG. 1E is a diagram showing the configuration of the barcode reading apparatus of the embodiment.

In the bar code reading apparatus of the present embodiment, the reflected light from the color bar code as shown in FIG. 1D has a lens in which three primary colors of red, green and blue are mixed. Reach 10. This light is separated by a three-color separation prism 12 using a dichroic mirror into complementary color components of a color printed with a color barcode. For example, when a bar is printed using cyan (C), magenta (M), and yellow (Y), red (R) and green (which are the three primary colors of light as shown in FIG. G) and blue (B) are separated into color components. These color components are photodetectors 14 (a photodetector for red (T _R ) 14R, a photodetector for green (T _G ) 14G,
Reach the blue photodetector (T _B ) 14B). By thus passing the three-color separation prism 12, each photodetector 1
Reference numeral 4 functions as a photodetector having detection sensitivity for the complementary color of the color used for printing the bar.

The outputs of these photodetectors 14 are the signal processing circuits 16 (red signal processing circuit (P _R )).
16R, a green signal processing circuit (P _G ) 16G, and a blue signal processing circuit (P _B ) 16B), and a decode block 18
To enter. In the decoding block 18, the photodetector 14 that has not reacted is noted, and it is determined that the bar is written using at least the complementary color of the detection sensitivity color of the photodetector 14 that has not reacted. For example, when the photodetector 14B having a detection sensitivity for blue does not react, it is determined that the bar written using at least yellow is read. In this way, the color used for printing is detected by determining that the bar is written using at least the complementary color of the detection sensitivity color of the photodetector 14 that has not reacted.
This can be handled with a mixed color bar as well. For example, when both the photodetectors 14R and 14B having detection sensitivity to red and blue do not react, at least cyan (C) is detected.
It can be determined that the bar of the mixed color using yellow and yellow (Y) is read. In addition, when the color of the base material of the print medium, for example, paper is white, the color of the space is also white, but since white reflects all the light, all the detectors 14R, 14G, 14B react, and the bar is It can be judged that it does not exist.

That is, in this embodiment, the decode block 1
8 has a configuration in which it is possible to determine that the bar is written by using at least the complementary color of the detectable color of the photodetector 14 which does not receive the light and has no detection output. There is.

FIG. 3B shows a correspondence table showing which print color the output result of the photodetector 14 corresponds to. The decoding block 18 has a correspondence table as shown in FIG. 3B in the storage unit 18A, and by associating it with hardware or software, the color used for printing can be determined from the detected color. it can.

When the color bar code is a multiple bar code in which the bar codes of the respective colors are overwritten, each color is separately
Further, in the case of a multi-valued bar code having information on color differences, each color is used comprehensively, and the information held by the bar code is converted into character information and output.

The decode block 18 may be provided for each color. In the case of a system that reads a bar code at once, the photodetector 14 described above is configured by an image pickup tube or a solid-state image pickup device such as a CCD. Further, when the operator scans the bar code with a pen-type scanner instead of reading all at once, the photodetector 14 may be a photodiode.

In the embodiments of the bar code reading device so far, the description has been made on the assumption that the photo detector is a three plate type (three tube type) using three photo detectors, but the present invention is well known in the color image pickup system. Can be adopted. That is, various color filters are arranged in front of one CCD which has been widely used in the past, and a single plate type such as Sony (Sony) which can detect red (R), green (G) and blue (B). The present invention can be implemented by using a color camera EVI-1011 sold by a corporation. Further, it can be realized by a two-plate type, and as the method, a dot sequential method, a field sequential method, a line sequential method, etc. can be used. In short, the bar code reading apparatus for implementing the present invention may have any configuration that can selectively detect the color to be detected.

The names of colors dealt with in the present specification indicate light in the generally used wavelength bands below. Blue: 400 nm to 500 nm, Green: 500 nm to 600 nm, Red: 600 nm to 700 nm, Cyan: 400 nm to 600 nm, Yellow (yellow): 500 nm to 700 nm, Magenta: 400 nm to 500 nm and 600 n
m-700nm

With respect to the above colors, the color bar code and bar code reading apparatus as in the above-described embodiment is based on the wavelength band of each color such that the skirt of the band corresponding to the actual wavelength band of light is widened. Even with the configuration, it is possible to obtain substantially the same operational effects as those of the above-described embodiment.

In the above embodiment, cyan (C), magenta (M), and yellow (Y) are used as the colors for printing the bar, but the colors are not limited to these colors, and the present invention is not limited to these colors. The color barcode can be realized by combining other colors without departing from the scope of the invention.

As described above, except when all the used colors are mixed, colors that do not become black even if some of the used colors are mixed, for example, cyan (C), magenta (M), A color bar code is composed of yellow (Y), and the bar code reader has a detection sensitivity for complementary colors of colors used for bar printing, such as red (R), green (G), and blue (B). By using a certain detector, it is possible to accurately detect the color used for printing even with a color barcode printed using mixed colors and read multi-valued or multiple-written information.

Further, in the bar code reading apparatus of the present invention,
For example, when a bar code using cyan (C) and a bar code using red (R) are written together, a detector having detection sensitivity to red (R) and a cyan (C) are used as detectors. On the other hand, by using a detector having a detection sensitivity, the detectors can be detected by different detectors, respectively, so that the readout can be performed simultaneously. Similarly, when the red (R), green (G), and blue (B) bars are written together without being overwritten, cyan (C), magenta (M), and yellow (Y) are used as detectors. On the other hand, if one with detection sensitivity is used,
It is possible to detect each bar code at the same time.

[0035]

As described in detail above, according to the present invention,
Color barcodes and barcodes that enable accurate detection of the colors used for printing even with color barcodes that are printed using mixed colors, and that enable reading multi-valued or multiple-written information. A reader can be provided.

[Brief description of drawings]

FIG. 1A is a cyan barcode, FIG. 1B is a magenta barcode, FIG. 1C is a yellow barcode, and FIG. 1D is a barcode from A to C. The color barcode of the obtained example is shown,
(E) is a block diagram of a bar code reader according to the embodiment.

FIG. 2A is a diagram showing reflected light wavelengths of colors used in the color barcode of the embodiment, and FIG. 2B is a detection sensitivity wavelength of a photodetector used in the barcode reader of the embodiment. FIG.

FIG. 3A is a diagram for explaining subtractive color mixture,
(B) is a correspondence table between the output result of the photodetector and the print color.

FIG. 4 shows a wavelength band of reflected light from a red bar code in a conventional color bar code and a reaction wavelength band of a detector having detection sensitivity to yellow in a conventional color bar code reader. It is a figure which shows a relationship.

[Explanation of symbols]

12 ... Three-color separation prism, 14R, 14G, 14B ... Photodetector, 18 ... Decode block, 18A ... Correspondence table storage unit, C ... Cyan, M ... Magenta, Y ... Yellow (yellow),
BL ... black, R ... red, B ... blue, G ... green, W ... white.

Claims (5)

[Claims] 1. A color barcode formed by a plurality of color bars, wherein the plurality of color bars are formed by mixing a predetermined number of color bars, and the predetermined number of colors are A color barcode characterized by being a color that does not become black even if some of the colors are mixed, except when all colors are mixed. 2. The color barcode according to claim 1, wherein the predetermined number of colors includes three primary colors of cyan, magenta, and yellow. 3. A detecting means for detecting a complementary color of a color arranged on the bar code, and a recognizing means for recognizing that the complementary color of the color not detected by the detecting means is at least the color arranged on the bar code. A bar code reading device, comprising: 4. The separating means for separating the reflected light from the barcode into complementary color components of the color used for the color arrangement of the barcode, and the light for detecting the complementary color component separated by the separating means. The barcode reading device according to claim 3, further comprising: a means for detecting with a container. 5. The color used for the color arrangement of the barcode is at least one of the three primary colors of cyan, magenta, and yellow, and the detection means is a complementary color of the cyan, magenta, and yellow. 4. The barcode reading apparatus according to claim 3, wherein a color corresponding to a color used for the color scheme of the barcode is used among red, green and blue which are three primary colors of light.