JP7222593B2 - Two-dimensional code - Google Patents

Description

The present invention relates to two-dimensional codes.

As a two-dimensional code such as a QR code (registered trademark), for example, a two-dimensional code 100 as shown in FIG. 3 is known. Such a two-dimensional code 100 is formed by arranging bright or dark cells in a matrix, and records data by means of a light-dark pattern of the cells. Thus, such a two-dimensional code 100 is standardized, and the recorded data can be decoded by being read using a reading device Y such as a smartphone as shown in FIG. 3, for example. It's like

By the way, when reading such a two-dimensional code 100 using a reader Y such as a smartphone as shown in FIG. 3, it is necessary to read the two-dimensional code 100 from the front as shown in FIG. This is because reading accuracy decreases as the reading angle deviates from the front and becomes oblique.

Therefore, in order to improve the reading accuracy, there is known a technique of correcting the image of the two-dimensional code 100 on the side of the reading device Y even if the reading device Y reads the two-dimensional code 100 from an oblique direction (for example, , see Patent Documents 1 and 2).

Japanese Patent Application Laid-Open No. 2005-322061 JP-A-2000-222517

However, the technique described above has the problem that a dedicated reading device Y for correcting the two-dimensional code 100 is required.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a two-dimensional code that can be read from multiple angles with a conventional reader without using a dedicated reader.

The above objects of the present invention are achieved by the following means. In addition, although the inside of parenthesis is attached with the reference code|symbol of embodiment mentioned later, this invention is not limited to this.

According to the two-dimensional code of claim 1, when reading one two-dimensional code body (rectangular two-dimensional code body 10, trapezoidal two-dimensional code bodies 11A to 11H) with the reading device (Y) , The two-dimensional code main body (rectangular two-dimensional code main body 10) having a shape without distortion and the two-dimensional code main body being distorted so that the front can be recognized even if the reading device (Y) reads from various directions. It is characterized in that it is composed of two-dimensional code main bodies (trapezoidal two-dimensional code main bodies 11A to 11H) having a straight shape .

According to the invention of claim 2, in the two-dimensional code according to claim 1, the two-dimensional code main body (trapezoidal two-dimensional code main bodies 11A to 11H) having the distorted shape is the distorted shape. It is characterized in that it is arranged around a two-dimensional code main body (rectangular two-dimensional code main body 10) having a shape with no corners.

Further, according to the invention of claim 3, in the two-dimensional code according to claim 1, the two-dimensional code main body having the distorted shape (trapezoidal two-dimensional code main bodies 11A to 11H) and the distorted A two-dimensional code main body (rectangular two-dimensional code main body 10) having a shape without a line is colored in a different color and is superimposed.

Next, the effects of the present invention will be described with reference to the drawings. In addition, although the inside of parenthesis is attached with the reference code|symbol of embodiment mentioned later, this invention is not limited to this.

According to the invention of claim 1, when reading one two-dimensional code body (rectangular two-dimensional code body 10, trapezoidal two-dimensional code bodies 11A to 11H) with the reading device (Y), various directions A two-dimensional code body (rectangular two-dimensional code body 10) having a shape without distortion and a distorted shape of the two-dimensional code body so that it can be recognized as the front even if it is read by the reading device (Y) from the Since it is composed of a two-dimensional code body (trapezoidal two-dimensional code bodies 11A to 11H) consisting of It becomes possible to read a two-dimensional code from multiple angles with a conventional reader.

Further, according to the second aspect of the invention, the two-dimensional code main body having a distorted shape (trapezoidal two-dimensional code main bodies 11A to 11H) is replaced with the two-dimensional code main body having a non-distorted shape (rectangular two-dimensional code main body). Since they are arranged around the dimensional code body 10), they can be read by a reading device from various oblique angles. This improves reading accuracy.

Further, according to the invention of claim 3, the two-dimensional code main body having a distorted shape (trapezoidal two-dimensional code main bodies 11A to 11H) and the two-dimensional code main body having a non-distorted shape (rectangular two-dimensional code main bodies 11A to 11H). Since the dimensional code main body 10) is colored in a different color and superimposed, the printing area can be reduced when printing.

(a) is a front view showing a two-dimensional code according to an embodiment of the present invention, and (b) is a trapezoidal two-dimensional code main body according to the same embodiment using a reader from an oblique direction of 45 degrees. An explanatory diagram for explaining a state in which one of them is assumed to be read, (c) is any of the trapezoidal two-dimensional code bodies according to the embodiment using a reading device from an oblique direction of 30 degrees An explanatory diagram for explaining a state in which one is assumed to be read, (d) is one of the trapezoidal two-dimensional code bodies according to the embodiment using a reading device from an oblique direction of 60 degrees. It is an explanatory diagram for explaining a state in which it is assumed that . 2 is a front view showing a two-dimensional code arranged differently from the arrangement shown in FIG. 1(a); FIG. It is a front view which shows the state which is reading the conventional two-dimensional code using a reader.

An embodiment of the present invention will be specifically described below with reference to the drawings. In the following description, when the directions of up, down, left, and right are indicated, they refer to up, down, left, and right when viewed from the front of the drawing.

As shown in FIG. 1(a), the two-dimensional code 1 has a rectangular two-dimensional code body 10 arranged in the center. Trapezoidal two-dimensional code main bodies 11A to 11H are arranged. This rectangular two-dimensional code main body 10 is composed of a QR code (registered trademark) or the like, and is the same as the conventional two-dimensional code 100 as shown in FIG.

On the other hand, the trapezoidal two-dimensional code bodies 11A to 11H are made of QR codes (registered trademark) or the like, and are obtained by distorting (extending) the rectangular two-dimensional code body 10 into a trapezoidal shape. be. When one of the trapezoidal two-dimensional code bodies 11A to 11H is read from an oblique direction using a reader Y as shown in FIG. The trapezoidal two-dimensional code main bodies 11A to 11H are distorted (extended) so that the reader Y can recognize them as the front.

This point will be described more specifically with reference to FIG. FIG. 1(b) shows a trapezoidal two-dimensional code body 11A using a reading device Y from a point P1, which is an oblique direction of 45 degrees, with respect to any one of the trapezoidal two-dimensional code bodies 11A to 11H. 11H is assumed to be read. At this time, the left point of the trapezoidal two-dimensional code bodies 11A to 11H in FIG. 1(b) is point T1, and the right point is point T2. ), an isosceles triangle of 45 degrees is formed. If a line is drawn from the point T1 of this 45-degree isosceles triangle in the direction perpendicular to the straight line connecting the points P1 and T2, the straight line will intersect at the point T3. As a result, a straight line (indicated by a dashed line in the drawing) connecting the points T1 and T3 is formed. Any one of the trapezoidal two-dimensional code main bodies 11A to 11H is read from the point P1, which is a straight line connecting the points T1 and T3 in an oblique direction of 45 degrees, using the reader Y (see FIG. 3). When trying to read, the reader Y recognizes the trapezoidal two-dimensional code bodies 11A to 11H as the front. That is, it is recognized to have a rectangular shape substantially the same as the rectangular two-dimensional code main body 10 .

More specifically, in order to read the rectangular two-dimensional code body 10 shown in FIG. 1(a) from the front using the reader Y as shown in FIG. must be read at right angles. Therefore, in order to read the two-dimensional code from the front, the two-dimensional code and the reader must be arranged at right angles. However, in order for the trapezoidal two-dimensional code bodies 11A to 11H to be recognized as the front, it is sufficient that the trapezoidal two-dimensional code bodies 11A to 11H and the reader Y are arranged at right angles. Therefore, the linear portion connecting the points T1 and T3 is the portion that the reading device Y can recognize as the front (rectangular shape substantially the same as the rectangular two-dimensional code main body 10). Based on the rectangular two-dimensional code body 10, the straight line connecting the points T1 and T3 is recognized as the front, that is, the rectangular shape that is substantially the same as the rectangular two-dimensional code body 10. The extent to which the trapezoid should be distorted (stretched) can be calculated using a trigonometric function. Specifically, since the linear portion between the points T1 and T2/the linear portion between the points T1 and T3=cos45°=1/√2, based on the rectangular two-dimensional code main body 10, √2 times, At least one of the trapezoidal two-dimensional cord main bodies 11A to 11H should be created by distorting (stretching) it.

Thus, using a trigonometric function, it is possible to calculate how much the rectangular two-dimensional code body 10 should be distorted (extended) according to the angle of the oblique direction. can be done. As a result, trapezoidal two-dimensional code main bodies 11A to 11H as shown in FIG. 1(a) can be produced. For example, as shown in FIG. 1(c), it is assumed that any one of the trapezoidal two-dimensional code bodies 11A to 11H is read using the reading device Y from a point P1 that is in the diagonal direction of 30 degrees. If so, the linear portion between the points T1 and T2/the linear portion between the points T1 and T3=cos 60°=1/2. Therefore, at least one of the trapezoidal two-dimensional code bodies 11A to 11H should be created by distorting (stretching) the rectangular two-dimensional code body 10 by a factor of two. . Also, as shown in FIG. 1(d), it is assumed that any one of the trapezoidal two-dimensional code bodies 11A to 11H is read using the reading device Y from a point P1 that is oblique at 60 degrees. If so, the linear portion between the points T1 and T2/the linear portion between the points T1 and T3=cos 30°=√3/2. Therefore, at least one of the trapezoidal two-dimensional code bodies 11A to 11H should be created by distorting (stretching) the rectangular two-dimensional code body 10 by a factor of 2/√3. It will happen.

Thus, trapezoidal two-dimensional code bodies 11A to 11H (see FIG. 1(a)) corresponding to various oblique angles (for example, 30 degrees to 60 degrees) are prepared in advance. becomes. However, if the trapezoidal two-dimensional code bodies 11A to 11H corresponding to various oblique angles (for example, 30 to 60 degrees) are prepared in advance, the reader Y as shown in FIG. When trying to read any one of the trapezoidal two-dimensional code bodies 11A to 11H from an oblique direction using the can be recognized as the front.

Thus, according to the present embodiment described above, a conventional reading device can read a two-dimensional code from multiple angles without using a dedicated reading device that corrects the image of the two-dimensional code on the reading device side. can be read.

Further, according to this embodiment, the rectangular two-dimensional code main body 10 is arranged in the center, and the trapezoidal two-dimensional code main bodies 11A to 11H corresponding to various oblique angles are arranged around it. By storing the data, the reading device can read the data from various oblique angles. This improves reading accuracy.

However, since such an arrangement method requires a certain amount of area for printing, the arrangement shown in FIG. 2 may be used. That is, the rectangular two-dimensional code main body 10 and the trapezoidal two-dimensional code main bodies 11A to 11H are arranged in different colors and superimposed. Specifically, for example, the rectangular two-dimensional code body 10 is colored black, the trapezoidal two-dimensional code body 11A (indicated by a broken line in FIG. 2) is colored red, and the trapezoidal two-dimensional code body 11C ( 2) are colored yellow, for example, and are arranged in different colors such that they are superimposed and arranged as shown in FIG. Therefore, in order to read the two-dimensional code 1 arranged in this manner, it is sufficient to perform color separation of the image on the side of the reading device Y as shown in FIG. Alternatively, if the two-dimensional code 1 is irradiated with a light of the same color as the color not desired to be read (for example, a red light if red is not desired to be read), the two-dimensional code 1 can be read by a reader Y as shown in FIG. Therefore, a color other than the unwanted color is read. Thus, in this way, when printing the two-dimensional code 1, the area can be reduced.

When the rectangular two-dimensional code main body 10 and the trapezoidal two-dimensional code main bodies 11A to 11H are colored in different colors and superimposed, dots in which bright or dark colored cells are arranged in a matrix form overlap each other. It is necessary to make the dots fine so that they do not meet. This is because if the dots overlap, there is a possibility that the recorded data cannot be decoded correctly.

It should be noted that the shapes and the like shown in the present embodiment are merely examples, and various modifications and changes are possible within the scope of the gist of the invention described in the scope of claims. For example, the trapezoidal two-dimensional code main bodies 11A to 11H have been exemplified.

Further, the trapezoidal two-dimensional code main bodies 11A to 11H may all have a shape corresponding to a certain oblique angle, or may all have a shape corresponding to a different oblique angle, or may be partially , a shape corresponding to a certain oblique angle may be used.

Furthermore, in arranging the trapezoidal two-dimensional code bodies 11A to 11H around the rectangular two-dimensional code body 10, the arrangements are not limited to those shown in the present embodiment, and may be arranged in any manner. .

1 Two-dimensional code 10 Rectangular two-dimensional code body (two-dimensional code body having a shape without distortion)
11A to 11H trapezoidal two-dimensional code body (two-dimensional code body made of distorted shape)
Y reader

Claims (3)

When reading one two-dimensional code body with a reading device, a two-dimensional code body having a shape without distortion so that it can be recognized as the front even if the reading device reads from various directions, and the two-dimensional code body . A two-dimensional code composed of a two-dimensional code body that has a distorted shape . 2. The two-dimensional code according to claim 1, wherein the two- dimensional code body having the distorted shape is arranged around the two-dimensional code body having the undistorted shape. 2. The two-dimensional code according to claim 1, wherein the two-dimensional code main body having the distorted shape and the two-dimensional code main body having the non -distorted shape are colored in different colors and superimposed.

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