JP3857755B2 - Detected object to be checked for authenticity - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an object to be detected provided with a face photograph that needs to be prevented from forgery and is checked for authenticity, such as an ID card for identification, a license card, a credit card, and a passport.
[0002]
[Prior art]
Conventionally, a card with a face photograph such as an ID card is provided with a face photograph on the card, and a personal name and personal data are registered in the card by a magnetic or optical recording means or a visible recording means such as embossing. ing. In this case, when the card is used, the card is presented to the clerk, and the clerk matches the person who is in the face photo with the person of the card holder so that the card holder is the same person as the face photo. Check whether or not.
[0003]
[Problems to be solved by the invention]
However, conventional cards with facial photos can be falsified or altered by skillfully pasting or printing facial photos other than a genuine person. Therefore, it is illegal to simply check the facial photos visually. Could not prevent.
Accordingly, an object of the present invention is to provide an object to be detected with a face photograph that is difficult to be illegally used due to forgery or alteration.
[0004]
[Means for Solving the Problems]
To achieve the above object, the detected object provided by the present invention is, as described in claim 1, a base material, figures of the person to use is and the object to be detected provided on the substrate a face photograph which is color printing, data to be registered and coded by a specific algorithm and scan area set in a specific position, a detection signal obtained when magnetically scanning the scanning region including the face picture The face photograph includes at least a plurality of types of color inks obtained by randomly distributing magnetic elements made of magnetic metal particles in inks having different colors according to the color of each part of the face photograph. The object to be detected is color-printed in such a manner that a part thereof overlaps each other.
[0005]
Since the human face, hairstyle, and the like of the face photo are unique to each individual, there are various combinations of color inks used for each individual face photo. For this reason, the mixing situation of the magnetic elements used in the face photograph is also unique to each face photograph. When such a face photograph is read by a magnetic sensor, an analog waveform detection signal characterized by the mixing state of magnetic elements can be obtained. In the present invention, this detection signal is encoded by a specific algorithm, encrypted as necessary, and registered in the data recording unit to be used for authenticity determination of the detected object.
[0006]
The magnetic element may be magnetic metal particles in the form of powder, fiber, flakes, needles, or the like, or a fiber element in which magnetic metal particles are mixed in a polymer material (in this specification, a magnetic polymer). (Referred to as fiber). As the magnetic metal, for example, a magnetic metal that is magnetically soft and has high permeability such as permalloy, sendust, Co-based amorphous, and soft ferrite is suitable.
[0007]
When the magnetic element is also mixed in the base material as described in claim 2, the magnetic characteristic (magnetic pattern) is a combination of the magnetic element in the base material and the magnetic element of the facial photograph. Even if an authentic person is peeled off and an unauthorized person is printed with color ink containing a magnetic element, the detection signal obtained when this is magnetically scanned is different from the authentic signal before alteration.
[0008]
Furthermore, as a preferred form of the object to be detected of the present invention, a transparent synthetic resin overcoat layer is deposited on the face photograph. A magnetic element may be mixed in this overcoat layer. Alternatively, an undercoat layer may be provided between the base material and the face photograph, and a magnetic element may be mixed in the undercoat layer.
[0009]
An example of color ink that functions as a color material for color printing the face photograph uses a thermal transfer ink ribbon in which a large number of the magnetic elements are mixed. For example, depending on the color tone of the image to be printed, magenta, cyan, A plurality of types of color inks such as yellow and black are appropriately combined and transferred to the substrate side by a thermal print head (TPH).
[0010]
In the present invention, a face photograph is color-printed with color inks randomly including magnetic elements, the magnetic elements are dispersed in the color ink, and the facial image or hairstyle of the human image in the face photograph is determined. The combination of color inks changes slightly. For this reason, the detection signal obtained when the scanning area of the facial photograph is magnetically scanned depends on the amount of magnetic elements mixed in each minute portion of the scanning area and the degree of overlap between the magnetic elements. The qualitative nature will change very diversely.
[0011]
For this reason, even if the face photograph is pasted or printed with a photograph other than the person, the detection signal obtained when the face photograph is scanned does not correspond to the registered contents of the data recording unit. In addition, it is extremely difficult to rewrite the data recording unit so that the detection signal of the facial photograph corresponds to the registered content of the data recording unit for the purpose of illegal use. For this reason, the detected object of the present invention can prevent counterfeiting and alteration such as adding a hand to the face photograph, and by comparing the genuine face photograph with the owner of the detected object (person who uses the detected object) Can perform a strict check function.
[0012]
5. When the optically transparent overcoat layer is deposited on the face photograph as described in claim 4 , when the overcoat layer is forcibly peeled off, the portrait image of the face photograph collapses, and the magnetic element The mixing state of changes. For this reason, the detection signal of the face photograph from which the overcoat layer has been peeled once does not match the registered content of the data recording unit. For this reason, forgery becomes even more difficult.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
An object to be detected 10 shown in FIG. 1 has a card-like base material 11 mainly composed of a nonmagnetic material such as paper or synthetic resin. A minute magnetic element 12 as shown in FIG. 2 is mixed in the base material 11. An example of the magnetic element 12 is a fiber element body 13 made of a polymer material typified by acrylic resin or polyester (magnetic polymer fiber) mixed with a magnetic metal particle 14 and cut into an appropriate length. Has been. An example of the dimensions of the magnetic element 12 is a length of 0.5 mm to 10 mm and an outer diameter of 10 μm to 100 μm. When the magnetic metal particle 14 is a powder, the particle size is preferably in the range of 10 μm to 1 nm (nanometer). The magnetic metal particles 14 are made of a magnetic metal that is magnetically soft and has high permeability, such as permalloy, sendust, Co-based amorphous, and soft ferrite.
[0014]
A face photograph 20 is provided on the substrate 11. The face photograph 20 is a photograph of the person who uses the detected object 10, and a scanning region 21 is set at a specific position including the face photograph 20. The face photograph 20 is color-printed with thermal transfer ink ribbons of a plurality of types of color elements in which the following magnetic elements 22 are randomly mixed.
[0015]
The ink ribbon as the color material is divided into color elements necessary for color printing. As an example, the color inks 25 to 28 schematically shown in FIG. 3, that is, yellow (Y), magenta (M), cyan (C) The magnetic elements 22 are randomly dispersed in solid ink such as black (K). These ink ribbons are obtained by coating the color ink mixed with the magnetic element 22 on a synthetic resin base film made of, for example, PET (polyethylene terephthalate) or polyester. The order in which the color materials are stacked is not limited to the illustrated example. In addition to the above color material, another color material may be used.
[0016]
The magnetic element 22 mixed in the ink ribbon is a powder made of the same magnetic metal as the magnetic metal particles 14 used in the magnetic element 12 mixed in the substrate 11, but the form of the particles is fibrous. Alternatively, it may be a fine plate shape (flake shape) or a needle shape.
[0017]
When the detection object 10 is manufactured, the face photograph 20 is color-printed with a thermal transfer ink ribbon corresponding to the color elements of the face photograph 20 using a heating head (thermal print head) of a printing apparatus (not shown). That is, as shown schematically in FIG. 4, the color inks 25 to 28 are combined, and at least a part of the color inks 25 to 28 is overlapped according to the color of each part of the face photo 20. 20 is printed in color. In this case, the base material 11 is preferably colored white.
[0018]
In the face photograph 20 color-printed with such multiple color thermal transfer ink ribbons, a large number of magnetic elements 22 contained in each color ink are randomly distributed, and the magnetic elements 22 overlap each other irregularly. Therefore, it is possible to exhibit unique magnetic properties (for example, magnetic permeability) for each facial photograph 22.
[0019]
In addition, the human image 20a of the facial photograph 20 has different facial features, hairstyles, and the like of the person being photographed, and the adhesion patterns (density, pattern, etc.) of the inks 25 to 28 of each color in each minute portion of the scanning region 21. Since each individual is different, the magnetic properties of the facial photograph 20 are further diversified.
[0020]
In the case of this embodiment, since the magnetic element 12 is also included in the base material 11, the magnetic element 12 in the base material 11 and the magnetic element 22 included in the face photograph 20 are shown in FIG. As schematically shown in FIG. 3, the magnetic path 30 is formed at a location where the magnetic material density is high, whereby the density (magnetic pattern) of the magnetic flux density specific to each detected object 10 is formed.
[0021]
A data recording unit 35 is provided at a specific position of the detected object 10. As the data recording unit 35, a recording medium capable of magnetically writing and reading data, such as a magnetic stripe, is suitable. When a magnetic layer is provided on the entire surface of the object to be detected 10, a part of the magnetic layer may be used as the data recording unit 35. As another example of the data recording unit 35, a recording medium that can be optically read, such as a barcode, may be used.
[0022]
In the data recording unit 35, information corresponding to an output obtained when the scanning area 21 is magnetically scanned by the processing device 50 described below, that is, information corresponding to a specific analog waveform according to the magnetic pattern of the facial photograph 20, It is recorded in a coded form. Furthermore, personal information (name, affiliation, etc.) regarding the authorized user of the detected object 10 and information 36 regarding the issuer of the detected object 10 are recorded on the detected object 10 by printing or embossing. ing.
[0023]
An example of the processing apparatus 50 illustrated in FIG. 5 includes a housing 55 and a transfer mechanism 56. The transfer mechanism 56 is configured to move the detected object 10 in the direction of arrow F in the drawing at a predetermined speed by a transfer member 57 using a belt, a roller, or the like. A magnetic sensor 60 is provided in the middle of the movement path of the detected object 10. The magnetic sensor 60 has a first MR element 61 and a second MR element 62 arranged in the moving direction of the detected object 10 and a magnet 63 disposed behind the MR elements 61, 62. A change in the magnetic permeability of the scanning region 21 of the face photograph 20 can be detected.
[0024]
These MR elements 61 and 62 are electrically connected to each other, and each MR element 61 and 62 is applied with a magnetic field of the same strength by the magnet 63. The first MR element 61 is connected to the controller 80 described below. The second MR element 62 is connected to the DC power supply circuit 65.
[0025]
When the scanning region 21 of the face photograph 20 passes in the vicinity of the MR elements 61 and 62, the output voltage _Vout changes as the position of the face photograph 20 changes in the scanning direction. That is, the scanning region 21 moves in the direction of the arrow F, and the magnetic elements 12 and 22 pass through the vicinity of the MR elements 61 and 62, thereby depending on the distribution state of the magnetic elements 12 and 22, the overlapping state of the magnetic elements 12 and 22, and the like. As the magnetic flux passing through the MR elements 61 and 62 changes with time and the resistance values R ₁ and R ₂ of the MR elements 61 and 62 differ, the output voltage of an analog waveform unique to the scanning region 21 is obtained. V _out occurs.
[0026]
The processing device 50 includes a controller 80 using a microcomputer, a code writing unit 81 for recording the following encryption code in the data recording unit 35 of the detected object 10, and a code recorded in the data recording unit 35. A code reading unit 82 for reading is provided. The code writing unit 81 and the reading unit 82 are connected to a read / write circuit 83. The controller 80 includes an A / D converter 90, a comparator 91, an encryption code converter 92, and the like. A display device 95 is connected to the controller 80.
[0027]
Next, operations of the detected object 10 and the processing apparatus 50 will be described.
FIG. 6 shows an example of a process for creating the detected object 10. In the base material manufacturing step S1, the card-shaped base material 11 is manufactured using a nonmagnetic material such as synthetic resin or paper. When the base material 11 is mainly made of paper, the magnetic element 12 is mixed in the paper pulp in the manufacturing process of the base material 11, and both the paper pulp and the magnetic element 12 are integrally made.
[0028]
In printing step S <b> 2, the face photograph 20 is color-printed on the base material 11 using a plurality of color-type fused thermal transfer ink ribbons (solid ink) mixed with the magnetic elements 22 and a thermal print head.
[0029]
In the scanning step S3, the scanning area 21 of the facial photograph 20 is magnetically scanned by the processing device 50. That is, the object to be detected 10 is moved in the direction of arrow F in FIG. 5 by the transfer mechanism 56, and the magnetic sensor 60 detects the change in the output voltage due to the change in the magnetic permeability of the scanning region 21. An analog waveform detection signal corresponding to the mixing state of the element 22 is obtained.
[0030]
In the encryption step S4, the detection signal is encrypted based on a specific algorithm by the code converter 92 according to the magnitude of the output. The encryption code obtained in this way is recorded in the data recording unit 35 by, for example, a digital value by the code writing unit 81 in the data writing step S5.
[0031]
When the detected object 10 is used, it is checked whether or not the detected object 10 is authentic. FIG. 7 shows an example of a collation process for checking the authenticity of the detected object 10. In the case of this example, in the scanning step S11, the processing device 50 magnetically scans the scanning region 21 of the detected object 10 in the same manner as in the creation process, and outputs according to the magnetic element 22 in the face photograph 20. Get. Then, this output is processed based on the same algorithm as in the creation process, thereby obtaining a unique detection signal corresponding to the face photograph 20.
[0032]
In the code reading step S12, the code reading unit 82 reads the encryption code recorded in the data recording unit 35. The code read in this way is decoded by the encryption code converter 92 based on a predetermined algorithm in the code reproduction step S13, whereby the verification code is reproduced.
[0033]
In the discrimination step S14, the comparison code and the detection signal detected in the scanning step S11 are compared by the comparator 91, and when both correspond, it is determined that the detected object 10 is genuine. Then, by checking the human face of the person carrying the detected object 10 with the human image 20a shown in the face photograph 20, it is checked whether or not the face photograph 20 is the owner.
[0034]
With such an object 10 to be detected, even if the face photograph 20 is pasted with a photograph other than the person or a face photograph other than the person is printed for the purpose of illegal use, the detection signal and the data recording section of the scanning area 21 are printed. It is difficult to match the 35 registered contents with each other. In addition, it is extremely difficult to modify the face photograph 20 so that the encrypted data registered in the data recording unit 35 corresponds to the detection signal of the scanning area 21.
[0035]
In order to enhance the security of the detected object 10 and protect the surface of the facial photograph 20, an overcoat layer 100 made of an optically transparent synthetic resin is applied to the surface of the detected object 10 including the facial photograph 20. Has been. The overcoat layer 100 may contain the magnetic element 22. In the case of the detected object 10 having the overcoat layer 100, when the overcoat layer 100 on the face photograph 20 is peeled off, the image of the face photograph 20 is destroyed, and the mixing state of the magnetic elements 22 in the face photograph 20 changes. For this reason, in the face photograph 20 once the overcoat layer 100 is peeled off, the detection signal of the scanning region 21 is different from the detection signal of the authentic detection object 10 and does not match the registered content of the data recording unit 35. For this reason, forgery becomes more difficult and security is further improved.
[0036]
Further, as shown in FIG. 8, an undercoat layer 101 may be provided between the base material 11 and the face photograph 20, and a magnetic element 22 may be mixed in the undercoat layer 101. The undercoat layer 101 may be colored white.
[0037]
In the above-described embodiment, the magnetic elements 12 and 22 are mixed in both the base material 11 and the facial photograph 20, but the magnetic element may not be mixed in the base material 11 as illustrated in FIG. Further, the magnetic element mixed in the face photograph 20 is not limited to the magnetic metal powder 22 described above, and may be, for example, a magnetic polymer fiber similar to the magnetic element 12 (see FIG. 2). By mixing such a fiber-like ultrafine magnetic element 12 in the color inks 25 to 28, the easy magnetization axis can be provided in the fiber axis direction of the element 12, and the sensitivity as a magnetic pattern can be increased. It is.
[0038]
【The invention's effect】
According to the present invention, a plurality of types of color inks formed by randomly distributing magnetic elements made of magnetic metal particles are combined on the base material so that at least some of them overlap each other according to the color of each part of the face photograph. Because the face photo is color-printed, the magnetic elements are distributed in various ways according to the contour and color distribution unique to the face photo. When the scanning area of this image is magnetically scanned, A unique detection signal can be obtained.
[0039]
And to match this detection signal with the contents registered in the data recording section, the scanning area and the contents of the data recording section will correspond even if an illegal act such as changing the face photo to that of another person is performed By not doing so, it can be seen that the face photo is fake. For this reason, only a genuine face photograph can be collated with the user of the detected object.
[0040]
When a magnetic element is mixed in both the face photograph and the base material, a magnetic pattern is obtained by combining the magnetic element in the base material and the magnetic element in the face photograph. For this reason, after alteration, such as printing a different person image with colored ink containing magnetic elements after removing a genuine face photo, or replacing photos between multiple detected objects, The combination of the magnetic element in the photograph and the magnetic element in the base material is different from that before the alteration. For this reason, the detection signal of the object to be detected after the modification is different from the detection signal of the genuine object to be detected before the modification, and unauthorized use due to the modification becomes more difficult.
[Brief description of the drawings]
FIG. 1 is a perspective view of an object to be detected showing one embodiment of the present invention.
FIG. 2 is an enlarged view of a magnetic element used for the object to be detected shown in FIG.
FIG. 3 is a cross-sectional view schematically showing a part of a base material and a face photograph.
FIG. 4 is a cross-sectional view schematically showing a state in which a plurality of color inks are overlapped.
FIG. 5 is a side view partially showing a cross section of an apparatus for processing an object to be detected.
FIG. 6 is a flowchart showing a process for creating an object to be detected.
FIG. 7 is a flowchart showing a process for collating a detected object.
FIG. 8 is a cross-sectional view schematically showing an object to be detected having an undercoat layer.
FIG. 9 is a cross-sectional view of a part of an object to be detected showing a modified example of a base material and color ink.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Detected object 11 ... Base material 12 ... Magnetic element 20 ... Face photograph 21 ... Scanning region 22 ... Magnetic element 25-28 ... Color ink 35 ... Data recording part 50 ... Processing apparatus 100 ... Overcoat layer 101 ... Undercoat layer

Claims (7)

An object to be checked for authenticity,
A substrate;
A face photograph which is human image painter color printing person to use is and the object to be detected provided on the substrate,
A scanning area set at a specific position including the face photograph;
A data recording unit for encoding and registering a detection signal obtained by magnetically scanning the scanning region by a specific algorithm;
Comprising
The above face photo
Color printing is performed by combining a plurality of types of color inks, in which magnetic elements made of magnetic metal particles are randomly distributed in inks of different colors, so that at least some of them overlap each other according to the color of each part of the face photo. the detection object authenticity, characterized in that has is checked. The object to be detected according to claim 1 , wherein a magnetic element is mixed in the substrate, and the magnetic element is a fibrous element in which magnetic metal particles are mixed in a polymer material . It said magnetic metal is permalloy, sendust, Co-based amorphous, claim 1 or 2 object to be detected according to, characterized in that a magnetically soft high permeability magnetic metal selected from the soft ferrite.   The object to be detected according to claim 1 or 2, wherein a transparent synthetic resin overcoat layer is coated on the face photograph. The object to be detected according to claim 4 , wherein a magnetic element is mixed in the overcoat layer. Undercoat layer is provided between the substrate and the face photograph, claim 4 or 5 object to be detected according to, characterized in that the magnetic element is incorporated into the undercoat layer. Characterized in that said a plurality of types of thermal transfer ink ribbon of color inks and the magnetic element is mixed in combination depending on the color of the face photograph each portion and at least a portion of the color inks to overlap each other to color printing the portrait The detected object according to any one of claims 1 to 6 .

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