JP2006209852A - Information recording medium and information reading apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information recording medium and an information reading apparatus in which two dimensional bar codes and a visual feature of a photograph of a face can be read optically and together and convenience of the information recording medium can be improved, in the information reading apparatus in which running jitter of a transportation direction is large as, for example, being represented by the information reading apparatus of a swipe type. <P>SOLUTION: The information recording medium (card 2) is used for the information reading apparatus (swipe type image scanner 1) in which a bottom of a frame of an almost U type is formed as a running reference plane, wherein a region (reading region 3) from which information is read by the information reading apparatus includes an encoding information part (two dimensional bar code 31) and a feature part (face photograph 32). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an information recording medium such as paper or plastic that records predetermined information, and an information reading device that reads information recorded on the information recording medium.

  Conventionally, there are information recording media on which various personal information is recorded, such as a license, a cash card, or a credit card. In the information recording medium, a magnetic stripe, an IC chip, a bar code, or the like is used for recording personal information. Of these, barcodes are the simplest and cheapest way to record personal information. Bar codes are widely used in various fields including merchandise distribution fields. For example, in US driver's licenses, a code-type stack type bar code called PDF417 is used. In recent years, two-dimensional barcodes in which the amount of information is increased by stacking one-dimensional barcodes have become widespread.

  There are various methods for reading personal information recorded in a two-dimensional barcode. For example, using a camera incorporating a two-dimensional image sensor to image a target (two-dimensional barcode), analyzing the obtained two-dimensional image data and reading personal information, or using a flatbed scanner There is a method of optically reading an object (two-dimensional barcode) placed on glass from the opposite side. However, both of these methods require expensive equipment and a wide installation environment, and are not suitable for department store reception or personal use, for example. Therefore, in reception and personal use, swipe type information readers that hold the end of the card in hand (pinch with hand) and swipe the card to read the information recorded on the two-dimensional barcode are widely used.

  By the way, some information recording media include not only a two-dimensional barcode printed but also a card on which a face photograph is posted. For example, a plastic card 100 shown in FIG. 6 has a two-dimensional barcode 101 printed on the lower side and a face photograph 102 in the upper left corner. For example, the ID card disclosed in Patent Document 1 (see FIG. 5 of Patent Document 1) has a barcode (face photo content code) printed on the lower side and a photograph of the upper body on the left side. .

  As described above, a card on which a visual feature such as a facial photograph, a fingerprint, or a signature is posted has high security reliability. For example, a face photograph is placed on a card, and the features of the face photograph (such as the center position and size of eyes, mouth, and nose) are encoded and embedded in a two-dimensional barcode. Then, even if the face photo is replaced with another one, the two-dimensional barcode and face photo are optically read, and the features of the face photo and the features of the face photo embedded in the two-dimensional barcode By verifying, forgery crime can be easily prevented.

JP 2001-52142 A (FIG. 5)

  However, as described above, even a card that has a two-dimensional barcode and a facial photograph and can contribute to the prevention of counterfeit crimes can be read by a swipe-type information reader used for reception and personal use. If it is possible, the effect cannot be fully exhibited.

  That is, as shown in FIG. 6, the conventional card described above has a visual feature such as a face photograph other than a reading area (hatched portion in FIG. 6) where personal information is read when the card is swiped. Since it is posted in the area (upper left corner), visual information such as a facial photograph cannot be optically read together by a swipe-type information reader. As a result, the above-mentioned counterfeit crime cannot be easily prevented, and the convenience of the card is poor.

  On the other hand, if two-dimensional image sensors or flatbed scanners other than swipe-type information readers are used for reception and personal use, two-dimensional barcodes and visual features such as facial photographs are optically combined. However, there are many factors that hinder the spread of the market, such as increasing costs and requiring a wide installation environment. Therefore, it is desired that a card capable of optically reading a two-dimensional barcode and a visual feature such as a facial photograph together only with a swipe type information reader is desired.

  The present invention has been made in view of the above points, and an object thereof is to optically read a two-dimensional barcode and a visual feature such as a facial photograph together in an information reader. It is possible to provide an information recording medium and an information reading apparatus capable of improving the convenience of the information recording medium.

  In order to solve the above problems, according to the present invention, in an information recording medium used for an information reading apparatus, an area where information is read by the information reading apparatus includes an encoded information part and a characteristic part. It is characterized by that.

  More specifically, the present invention provides the following.

  (1) In an information recording medium used for an information reading apparatus, the information recording medium has a reading area where information is read by the information reading apparatus, and the reading area relates to an owner of the information recording medium. An information recording medium, comprising: an encoded information part having encoded information; and a characteristic part having a visual characteristic related to an owner of the information recording medium.

  According to the present invention, in the information recording medium used in the information reading apparatus, the information recording medium has a reading area where information is read by the information reading apparatus, and the reading area includes, for example, a two-dimensional bar. An encoded information part having encoded information relating to the owner of the information recording medium, such as a code, and a characteristic part having visual characteristics relating to the owner of the information recording medium, such as a facial photograph, fingerprint or signature, for example. Because it is included, unlike the conventional card, not only the encoded information part such as a two-dimensional barcode but also a characteristic part such as a face photograph is included in the above-described reading area.

  Therefore, conventionally, when a two-dimensional bar code and a visual feature such as a facial photograph are optically read together, a wide installation environment such as a two-dimensional image sensor or a flatbed scanner is required and expensive. However, according to the present invention, for example, if there is only a manual (swipe type) information reading device widely used for reception and personal use, the above-described expensive device is required. However, since these can be read together optically (with a single swipe), the convenience of the information recording medium can be improved.

  Here, examples of the “encoded information part having encoded information regarding the owner of the information recording medium” include a one-dimensional barcode and a two-dimensional barcode (stack type or matrix type). , Including all codes having predetermined encoded information (particularly personal information). Further, the “encoded information portion” may include information other than “encoded information regarding the owner of the information recording medium”. Examples of the “encoded information regarding the owner of the information recording medium” include various information such as the name, address, telephone number, date of birth, family structure, and account number of the information recording medium owner. It is done.

  On the other hand, examples of the “characteristic portion having a visual characteristic related to the owner of the information recording medium” include a face photograph, a fingerprint, or a signature, but any other recognizable visual characteristic can be used. It doesn't matter.

  (2) The information recording medium according to (1), wherein the encoded information section includes information obtained by encoding information obtained by extracting a visual feature in the feature section.

  According to the present invention, since the encoded information section described above includes the information obtained by extracting the visual features of the above-described characteristic sections as encoded information, the reliability in terms of security can be improved. Can do.

  In other words, by pre-embedding information encoded with information extracted from visual features such as eyes and nose in a face photograph into the encoded information section, the visual information posted on the information recording medium is assumed. Even if the above features are replaced with those of others, it is possible to prevent forgery crimes by comparing the visual features with the visual features embedded in the encoded information section in advance. And by extension, the reliability in terms of security can be improved.

  On the other hand, even if the encoded information part is falsified, forgery crime can be prevented by collating in the same manner. As described above, according to the present invention, since it is possible to determine whether or not the encoded information portion and the feature portion are consistent, a secure information recording medium can be provided.

  (3) The reading area includes a mark portion having a mark for correcting a geometric distortion generated when the visual reading feature of the feature portion is optically read in the information reading device. The information recording medium according to (1) or (2), which is characterized.

  According to the present invention, the above-described reading area includes a mark portion having a mark for correcting geometric distortion that occurs when the visual feature of the feature portion is optically read in the information reading device. Therefore, it is possible to correct image distortion due to jitter in the conveyance direction.

That is, when visual features such as a facial photograph, fingerprint, or signature are placed in the reading area described above, jitter in the transport direction due to swiping may occur, and the facial image, fingerprint image, or signature image may be distorted. According to the invention, the distortion can be corrected based on the correction information obtained by optically reading the mark portion described above.
Here, the position of the mark portion in the reading area is not particularly limited. For example, it may be adjacent to the encoded information part or may be inside the encoded information part. By doing so, it is possible to correct image distortion due to jitter in the transport direction when the encoded information portion is optically read by the information reading apparatus. In particular, barcodes other than the PDF417 code system are easily affected by jitter in the transport direction, but according to the present invention, the adverse effects due to this jitter can be reduced.

  (4) The information recording medium according to (3), wherein the mark portion is adjacent to the feature portion.

  According to the present invention, since the mark portion described above is adjacent to the feature portion, the movement speed of the mark portion and the feature portion passing through the front of the image sensor becomes the same when swiping. In the information reading apparatus, it is possible to improve accuracy when correcting image distortion due to jitter in the conveyance direction.

  (5) The encoded information portion includes information obtained by extracting information obtained by extracting a visual feature in the feature portion and information obtained by extracting the feature of the mark portion (3) or ( 4) The information recording medium described.

  According to the present invention, the encoded information portion described above includes information obtained by extracting information obtained by extracting visual features in the feature portion and information obtained by extracting features of the mark portion. Even if the part or the mark part is falsified (for example, a photo is replaced), the falsification can be detected appropriately, and as a result, the reliability in terms of security can be improved.

  (6) The mark portion has a figure having a width in a direction perpendicular to a conveyance direction of the information recording medium in the information reading apparatus and the width changing with respect to the conveyance direction ( The information recording medium according to any one of 3) to (5).

  According to the present invention, the mark portion described above has a figure having a width in a direction perpendicular to the conveyance direction of the information recording medium in the information reading apparatus, and the width of which varies with respect to the conveyance direction. This mark portion becomes continuous position information, and information necessary for correcting image distortion due to jitter in the transport direction can be extracted with high resolution. As a result, in the information reading apparatus, it is possible to improve accuracy when correcting image distortion due to jitter in the conveyance direction.

  (7) A plurality of the figures are arranged side by side in a direction perpendicular to the conveyance direction of the information recording medium in the information reading apparatus, and the positional phase of the plurality of figures is the information recording medium in the information reading apparatus. (6) The information recording medium according to (6), wherein the information recording medium is shifted in a transport direction.

  According to the present invention, a plurality of the above-described graphics are arranged side by side in a direction perpendicular to the conveyance direction of the information recording medium in the information reading device, and the positional phase of the plurality of graphics is the information recording in the information reading device. Since it is shifted in the medium transport direction, considering the layout on the information recording medium, the width in the direction perpendicular to the information recording medium transport direction is reduced to some extent, and a plurality of figures having a plurality of segments Even when the above is considered, it is possible to accurately extract information necessary for correcting image distortion due to jitter in the conveyance direction in the information reading apparatus.

  (8) The information recording medium according to any one of (1) to (7), wherein the encoded information section is encrypted.

  According to the present invention, since the above-described encoded information portion is encrypted, for example, it is impossible to extract information obtained by extracting visual features in the feature portion from the encoded information portion. Thus, illegal copying of the information recording medium can be prevented, and thus a secure medium can be provided.

  Here, the encoded information part is “encrypted” means that the encoded information part in which the information obtained by extracting the visual feature in the characteristic part is already incorporated is subjected to the encryption process. Of course, this means that information obtained by extracting visual features in the feature portion is encrypted in advance and the encrypted information is incorporated into the encoded information portion.

  The type of encryption method is not limited. For example, when encryption processing is performed in an encoded information portion in which information obtained by extracting visual features in the feature portion is already incorporated, EAN / JAN, UPC, ITF, CODE39, CODE128, EAN128, NW-7, Various things such as Code2of5 can be mentioned. On the other hand, when the information obtained by extracting the visual features in the feature part is encrypted in advance, and the encrypted information is incorporated into the encoded information part, the encryption method using the common key encryption is disclosed. Various methods such as an encryption method using key encryption, a message authentication method, a digital signature method, and a digital watermark embedding method can be employed. Further, in the encoded information part in which the information extracted from the visual feature in the feature part is already incorporated, the encryption method by the common key encryption, the encryption method by the public key encryption, the message authentication method, the digital signature method, Encryption processing such as an embedding method using a digital watermark can also be performed. Further, the object to be encrypted may include all or a part of “encoded information regarding the owner” and information obtained by extracting the visual feature of the feature portion.

  (9) An information reading apparatus comprising reading means for reading information recorded on the information recording medium according to any one of (1) to (8).

According to the present invention, since the information reading apparatus is provided with reading means for reading the information recorded on the information recording medium described above, for example, a two-dimensional barcode and a visual feature such as a face photograph are optically displayed. Can be read together.
(10) It has a frame that forms a travel path, a part of the frame is formed as a travel reference surface, and information is read by swiping the information recording medium along the travel reference surface. (9) The information reader according to (9).
According to the present invention, for example, a part of a substantially U-shaped frame (for example, the bottom) is formed as a travel reference plane, and information is read by swiping the information recording medium along the travel reference plane. For example, a two-dimensional barcode and a visual feature such as a face photograph can be optically read together.

  As described above, the information recording medium and the information reading apparatus according to the present invention can optically read, for example, a two-dimensional barcode and a visual feature such as a facial photograph, and thus the information recording medium. Can improve convenience. In addition, since information obtained by encoding information obtained by extracting visual features is incorporated into the encoded information portion, reliability in terms of security can be improved. Furthermore, by providing the mark described above in the reading area, it is possible to correct image distortion due to jitter in the transport direction.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

[Appearance configuration]
FIG. 1 is a schematic diagram showing an outline of the external configuration of a swipe type image scanner 1 and a card 2 according to an embodiment of the present invention. FIG. 1A shows a state in which the card 2 is passed through the swipe type image scanner 1, and FIG. 1B shows a state in which the card 2 is enlarged as viewed from the front.

  In FIG. 1A, a swipe type image scanner 1 according to an embodiment of the present invention has a frame having a substantially U-shaped cross section, and the bottom of the frame is formed as a card running reference plane. ing. A card passage 1a is formed between two side plate portions facing each other with the bottom portion interposed therebetween. The electrical configuration of the swipe type image scanner 1 will be described later.

  On the other hand, in FIG.1 (b), the card | curd 2 which concerns on embodiment of this invention is a general card | curd based on JIS, Comprising: For example, width 86mm, height 54mm, thickness 0.76mm It is a plastic card of size. In this example, a plastic card is used. For example, a paper card such as a stamp card, an IC card with an IC chip built in the card, and a rewritable card in which data can be rewritten by applying a special coating to the card surface. It doesn't matter what type it is. Further, regarding the size, any size may be used. Furthermore, an information recording medium for ISU 100 can also be adopted.

  The card 2 has a reading area 3 from which information is read by the swipe type image scanner 1, and the reading area 3 includes a two-dimensional barcode 31 having encoded information regarding the owner of the card 2, and And a facial photograph 32 having visual characteristics relating to the owner of the card 2. Among these, the two-dimensional barcode 31 is an extension of the one-dimensional barcode. For example, information is converted (encoded) into a two-dimensional code by software or hardware, and the two-dimensional code is printed on the card 2 by a printer. Is created.

  Here, the face photograph 32 is posted (arranged) on the right side of the two-dimensional barcode 31, but various arrangements can be changed within the reading area 3. In FIG. 1B, the reading area 3 is approximately the lower half (1/2). However, the area of the reading area 3 is 3/1 or 2/3 from the bottom. It doesn't matter. Further, in some cases, the reading area 3 may be provided in the vertical direction of FIG.

  Thus, a two-dimensional barcode 31 having encoded information (for example, name and address) relating to the owner of the card 2 and visual features (such as eyes, nose or mouth) relating to the owner of the card 2 are provided. The two-dimensional barcode 31 and the face photograph 102 are optically brought together (by one swipe) by arranging the face photograph 32 having the inside of the reading area 3 as shown in FIG. It can be read. As a result, the convenience of the card 2 can be improved.

  The two-dimensional barcode 31 may include information in which the center position and size of the eyes, nose, or mouth of the face photograph 32 are encoded. As a result, even if the face photo 32 of the card 2 is replaced (forged) by another person's, the characteristics of the other person's face photo and the self contained in the two-dimensional barcode 31 By comparing with the feature of the face photograph, counterfeit crime can be prevented, and as a result, the reliability in terms of security can be improved.

Furthermore, the two-dimensional barcode 31 is not only encoded but may be encrypted. That is, encryption processing such as UPC, ITF, and CODE 39 is applied to the two-dimensional barcode 31 in which the information (the size and position of eyes and nose) extracted from the visual feature in the face photograph 32 has already been incorporated. It may be. Thereby, a more secure medium can be provided.
On the other hand, information (such as the size and position of eyes and nose) obtained by extracting visual features in the face photograph 32 is encrypted in advance, and the encrypted information is incorporated into the two-dimensional barcode 31. Also good. For example, information is encrypted in advance, and then encoded into a two-dimensional barcode 31 and printed on the card 2. Then, it is possible to employ an encryption method based on common key encryption in which the card 2 is read and decoded by the swipe image scanner 1 and then the encrypted data is decrypted. In addition, the information is previously encrypted with the public key of the public key encryption, encoded into a two-dimensional barcode 31, the two-dimensional barcode 31 is read and decoded by the swipe image scanner 1, and the secret of the public key encryption is then obtained. It is also possible to employ an encryption method based on public key encryption in which decryption is performed using a key. In addition, a message authenticator of the original information before the two-dimensional barcode 31 is created by common key encryption, and the original information and the message authenticator are encoded together into the two-dimensional barcode 31. Then, it is possible to adopt a message authentication method in which the validity of the message authenticator in the data is verified after the two-dimensional barcode 31 is decoded. Further, a digital signature of the original information before being converted into the two-dimensional barcode 31 is created using a public key method, and the original information and the digital signature are encoded together into the two-dimensional barcode 31. It is also possible to adopt a digital signature method in which after the two-dimensional barcode 31 is decoded, the validity of the digital signature in the data is verified. In addition, an embedding method using a digital watermark may be employed.
[Electrical configuration]

  FIG. 2 is a schematic diagram showing an electrical configuration of the swipe type image scanner 1 according to the embodiment of the present invention.

  In FIG. 2, the swipe type image scanner 1 according to the embodiment of the present invention includes a contact image sensor 11 and a pad roller 12 that rotates in contact with the card 2 when the card 2 passes through the card path 1a. And an encoder 13 that detects the rotation of the pad roller 12 and acquires the position information of the card 2. The image sensor 11 is electrically connected to an image memory 14 that stores image data of the captured two-dimensional barcode 31 and face photograph 32, and the image memory 14 converts the image data captured from the image memory 14 into image data. It is electrically connected to the image processing means 15 that performs various processes on the image processing means 15.

  Based on the electrical configuration as described above, the operation of the swipe-type image scanner 1 according to the embodiment of the present invention will be described.

  First, the image sensor (imaging device) 11 captures the two-dimensional barcode 31 and the face photograph 32 of the card 2 passing through the card path 1a by photoelectric conversion. The captured image data of the two-dimensional barcode 31 is stored in the image memory 14. The image memory 14 may be any memory such as RAM, SDRAM, DDRSDRAM, and RDRAM as long as it can store image data. Thereafter, the image processing means 15 reads the image data stored in the image memory 14 and performs signal processing such as position detection processing, structure analysis processing, and decoding processing. Thereby, the reading of the two-dimensional barcode 31 is completed.

  On the other hand, the image data of the facial photograph 32 taken by the image sensor 11 is also stored in the image memory 14 (or other image memory), and then variously processed in the image processing means 15 (or other image processing means). Signal processing is performed. There are various methods for extracting the visual features of the facial photograph 32, such as the shortest distance method, discriminant analysis, Bayesian decision boundary, Mahalanobis generalized distance, decision tree method, and neural network. Regardless of the type.

  As described above, according to the swipe type image scanner 1 according to the embodiment of the present invention, the two-dimensional barcode 31 and the visual feature of the face photograph 32 can be optically read by one swipe. . The present invention does not necessarily mean that the two-dimensional barcode 31 and the visual features of the face photograph 32 must be read with a single swipe. For example, it is possible to read the two-dimensional barcode 31 by the first swipe and to read the visual feature of the face photograph 32 by the second swipe.

  In addition, as described above, by embedding the visual features of the facial photograph 32 in the two-dimensional barcode 31 of the card 2, crimes such as replacing the facial photograph and forgery can be prevented. The security of card recognition can be improved.

[Modification]
FIG. 3 is a schematic diagram showing an outline of the external configuration of the card 2 according to another embodiment of the present invention. The same elements as those in FIG. 1B are denoted by the same reference numerals.

  In FIG. 3A, a feature of the card 2 according to another embodiment of the present invention is that the reading area 3 includes a triangular mark 4. This is provided in order to correct geometric distortion of the facial photograph 32 in the image processing means 15 (see FIG. 2) of the swipe type image scanner 1.

  That is, in the swipe type image scanner 1, since a human being swipes with the card 2 is interposed, the card 2 may not pass through the card path 1a at a constant speed. In such a case, jitter in the transport direction occurs in the image data stored in the image memory 14 (see FIG. 2), and the face image is distorted. The mark 4 included in the reading area 3 is provided to correct this geometric distortion. The mechanism of distortion correction using this mark 3 will be described later with reference to FIG.

  In FIG. 3 (a), the face photograph 32 is adopted as having a visual characteristic related to the owner of the card 2. However, for example, as shown in FIG. Alternatively, a sign 32 ″ may be employed as shown in FIG.

  In FIG. 3A, the triangular mark 4 is placed (arranged) immediately below the facial photograph 32, but the present invention is not limited to such an arrangement. Any position may be used as long as it is within the reading area 3 of the card 2. For example, the position adjacent to the two-dimensional barcode 31 may overlap with the two-dimensional barcode 31. In particular, as shown in FIG. 3 (a), by posting at a position adjacent to the face photograph 32, the movement speed of the mark 4 passing the front of the image sensor 11 and the face photograph 32 becomes the same during swipe, As a result, in the swipe type image scanner 1, it is possible to improve the accuracy when correcting image distortion due to jitter in the transport direction.

  Further, in FIG. 3A, information in which the visual features of the mark 4 (for example, the length and area around the triangle) are encoded may be embedded in the two-dimensional barcode 31. As a result, even if the mark 4 is modified, the modification can be detected appropriately, and as a result, security reliability can be improved.

  FIG. 4 is an explanatory diagram for explaining a mechanism in which distortion correction using the image data of the mark 4 is executed in the swipe type image scanner 1. In FIG. 4, a perfect circle portion 32 a corresponding to an arbitrary part of the face photograph 32 and a mark 4 placed below the face photograph 32 are shown.

  First, in the swipe-type image scanner 1, when the image data in the image memory 14 has no jitter in the transport direction (FIG. 4A), a predetermined dimension of the mark 4 is stored in advance. For example, in FIG. 4A, the horizontal length when the height of the mark 4 is B (consisting of one or several numerical values) is stored as A.

  Then, it is assumed that jitter in the transport direction as shown in FIG. 4B, for example, has occurred in the image data stored in the image memory 14. That is, it is assumed that the image data of the perfect circle portion 32a is distorted in the transport direction (horizontal direction in the drawing), and the image data of the mark 4 is similarly distorted in the transport direction.

  In this case, the swipe type image scanner 1 (the image processing means 15) detects the horizontal length A ′ when the height of the mark 4 is B ′ (= B), and the horizontal length A is detected. In the section ', it is recognized that the image data of the perfect circle portion 32a and the mark 4 is distorted in the transport direction at a magnification of A' / A (when the magnification of A '/ A described above is 1) Jitter in the transport direction does not occur, and when it is other than 1, it is recognized that jitter in the transport direction has occurred).

In this way, the height B ′ of the mark 4 is changed as appropriate, and a plurality of horizontal lengths A ′ are detected. Then, among the sections of length A 'is distorted in the conveying direction, it is possible to specify the interval H _1, which is actually distorted. Similarly, the interval H _2, which is actually distorted can also be specified. Therefore, the swipe type image scanner 1 (the image processing means 15) can correct the distortion based on the correction information (distorted section and distorted magnification).

  FIG. 5 is an explanatory diagram for explaining a change in the appearance of the mark 4.

  In FIG. 5A, a triangular mark 4a is a figure similar to the mark 4 shown in FIG. As described above with reference to FIG. 4, the graphic has a width in the direction (vertical direction in FIG. 5) perpendicular to the card 2 conveyance direction in the swipe type image scanner 1. It becomes possible to specify the section.

  Here, as the figure having a width in the direction perpendicular to the conveying direction of the card 2 in the swipe type image scanner 1, there are various types. For example, in FIG. 5A, as shown by the mark 4b and the mark 4c, it may be a figure symmetrical with the mark 4a, or as shown by a mark 4d as a figure that combines the mark 4a and the mark 4b. Also good. Although not shown, it may be a quadrangle, two non-parallel straight lines, etc., the outline (square frame) formed by the face photograph 32, the diagram portion included in the face photograph 32, It may be a combination with a diagram attached to it. Further, in FIG. 5B, as indicated by the mark 4e, it may be a triangular figure surrounding the sign 32 ″. In addition, as long as it can be distinguished by contrast, it may be a graphic with overlapping symbols.

  Further, in order to increase the accuracy (resolution) of distortion correction, it is only necessary to increase the amount of change in the mark 4 (marks 4a to 4e) with respect to the direction perpendicular to the card 2 conveyance direction. For example, in FIG. 5 (a) or 5 (b), a horizontally long triangle is used, but this may be a vertically long triangle or a single vertically long straight line. However, for example, if the triangular mark 4 is created with an amount of change of 45 degrees, it may not be possible to lay out within the prescribed range of the card 2 (for example, within a range of height 54 mm). Therefore, in FIG. 5C, as indicated by the mark 4f, a figure divided into several segments while maintaining a change amount of 45 degrees is conceivable. As a result, the accuracy of distortion correction can be increased while suppressing the height of the mark to some extent.

  On the other hand, since the segmented mark 4f becomes a figure that repeats monotonous increase or monotonous decrease, the change point (for example, the X portion) becomes a circle as shown in FIG. Therefore, in order to improve this, the mark 4f and the mark 4g which is a line symmetrical figure are combined, and the positional phase of both is shifted in the transport direction of the card 2. Thereby, even if the figure of the mark 4f is a non-linear part, distortion correction can be performed with high accuracy by using the linear part of the mark 4g.

  Note that the distortion correction may be performed by stopping the mark 4 and using a device such as an encoder. However, such a method results in an increase in cost and volume due to the use of a device such as an encoder.・ We will go against the trend of the compact age. In this regard, according to the distortion correction using the present invention, it is possible to correct distortion due to jitter in the transport direction by simply placing the predetermined mark 4 on the card 2, and thus the reliability of the swipe type image scanner 1 and the card 2. Can be improved easily.

  The information recording medium and the information reading apparatus according to the present invention are useful as those capable of optically reading a two-dimensional barcode and visual features such as a facial photograph together.

1 is a schematic diagram illustrating an outline of an external configuration of a swipe type image scanner and a card according to an embodiment of the present invention. 1 is a schematic diagram showing an electrical configuration of a swipe type image scanner according to an embodiment of the present invention. It is a schematic diagram which shows the outline | summary of the external appearance structure of the card | curd which concerns on other embodiment of this invention. It is explanatory drawing for demonstrating the mechanism in which distortion correction using the image data of a mark is performed in a swipe type image scanner. It is explanatory drawing for demonstrating a mode that the external appearance of the mark was changed. It is a schematic diagram for demonstrating a prior art example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Swipe type image scanner 2 Card 3 Reading area 4 Mark 11 Image sensor 12 Pad roller 13 Encoder 14 Image memory 15 Image processing means

Claims (10)

In an information recording medium used for an information reader,
The information recording medium has a reading area where information is read by the information reading device,
The reading area includes an encoded information part having encoded information relating to an owner of the information recording medium, and a characteristic part having a visual characteristic relating to the owner of the information recording medium. A characteristic information recording medium.   The information recording medium according to claim 1, wherein the encoded information portion includes information obtained by encoding information obtained by extracting a visual feature in the feature portion.   The reading area includes a mark portion having a mark for correcting a geometric distortion generated when the information reading device optically reads a visual feature of the feature portion. The information recording medium according to claim 1 or 2.   The information recording medium according to claim 3, wherein the mark portion is adjacent to the feature portion.   5. The information according to claim 3, wherein the encoded information portion includes information obtained by extracting information obtained by extracting a visual feature in the feature portion and information obtained by extracting a feature of the mark portion. recoding media.   4. The mark portion has a figure having a width in a direction perpendicular to the conveyance direction of the information recording medium in the information reading apparatus and the width changing in the conveyance direction. 5. The information recording medium according to any one of 5.   A plurality of the figures are arranged side by side in a direction perpendicular to the conveyance direction of the information recording medium in the information reading apparatus, and the positional phase of the plurality of figures is in the conveyance direction of the information recording medium in the information reading apparatus. The information recording medium according to claim 6, wherein the information recording medium is misaligned.   The information recording medium according to claim 1, wherein the encoded information part is encrypted.   An information reading apparatus comprising reading means for reading the information recorded on the information recording medium according to claim 1. 10. A frame having a travel path, wherein a part of the frame is formed as a travel reference plane, and information is read by swiping the information recording medium along the travel reference plane. The information reading apparatus described.