JP2017068488A - Reading unit, automatic ticket gate, information reading method, and information reading program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve security for use of a fake medium by determining whether a medium on which information symbols are printed is an appropriate genuine medium or a fraudulently copied fake medium.SOLUTION: A first irradiation part 3 applies light with a first wavelength to a reading area, an imaging unit 5 captures an image of the reading area, and a reading unit 6 processes the image of the reading area to read information of information symbols. Further, a second irradiation part 4 applies light with a second wavelength to the reading area, the imaging unit 5 captures the image thereof, and the reading unit 6 processes the image of the reading area to read information of information symbols. A control unit 2 determines whether or not a medium on which the information symbols are formed is appropriate on the basis of the two reading results of the reading unit 6.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for reading information of information symbols such as a two-dimensional code in which modules having different light reflection characteristics are arranged in a code area.

  Conventionally, there is a two-dimensional code such as a QR code (registered trademark) as one of information symbols. As is well known, the two-dimensional code is an information symbol in which two types of modules (for example, a white module and a black module) having different light reflection characteristics are arranged in a code area. A module is the smallest unit cell constituting a two-dimensional code, and corresponds to 1-bit data. The modules are arranged in the code area according to the information of the two-dimensional code. That is, the two-dimensional code can read the information of the two-dimensional code by reading the module array in the code area.

  The use of the two-dimensional code for various purposes is being studied. For example, a ticket gate system that can perform ticket gate processing using a ticket (such as a ticket) printed with a two-dimensional code has been proposed (see Patent Document 1). A ticket printed with a two-dimensional code whose information is ticket information is an automatic ticket checker that provides information (entrance information, entry information, etc.) to prevent unauthorized use of the ticket and reuse of the ticket. Cannot be recorded during ticket gate processing.

  In Patent Document 1, in order to prevent unauthorized use of a ticket printed with a two-dimensional code whose information is ticket information, the use state (entrance information, entry information, etc.) of a ticket issued by a ticket vending machine or the like It is proposed to provide a host device for managing The automatic ticket gate acquires the usage status of the corresponding ticket from the host device during ticket gate processing with a ticket printed with a two-dimensional code whose information is ticket information, and permits the user to pass through the ticket gate A ticket gate process is performed to determine whether or not.

  In addition, proposals have been made to suppress two-dimensional code duplication by copying or the like (see Patent Document 2). In Patent Document 2, when a part of the code area of a two-dimensional code is irradiated with light of a first wavelength (for example, infrared light), the reflected light from the module is transmitted, and light of the second wavelength is transmitted. It has been proposed to provide a covering portion that prevents transmission of reflected light from the module when irradiated (for example, visible light).

JP2013-97537A JP2013-246665A

  However, in the configuration described in Patent Document 1, when reading the information of the two-dimensional code, the medium on which the two-dimensional code is printed (passenger ticket or the like) is a properly issued true medium, or by copying It cannot be determined whether the fake medium is illegally copied. For this reason, even if it is a false medium, it can be used if the true medium is not used. On the other hand, the true medium cannot be used even if it is unused when the false medium is used. As described above, in the configuration described in Patent Document 1, there is a possibility that a fake medium may be used, and security against the use of the fake medium has not been sufficiently ensured.

  Note that Patent Document 2 only discloses a technique for suppressing two-dimensional code duplication by copying or the like, and does not improve security against the use of an illegally created fake medium.

  An object of the present invention is to provide a technique for improving security against the use of a fake medium by determining whether the medium on which the information symbol is printed is a proper true medium or an illegally copied fake medium. It is to provide.

  In order to achieve the above object, the reading unit of the present invention is configured as follows.

  This reading unit is an information symbol formed on a medium, modules having different light reflection characteristics are arranged in the code area, and a part of the code area is irradiated with light of the first wavelength. When reflected, the reflected light from the module is transmitted, and when the light of the second wavelength different from the first wavelength is irradiated, the information of the information symbol provided with the covering portion that prevents the transmission of the reflected light from the module is read.

  The information symbol is, for example, a two-dimensional code in which a covering portion is provided in a part of the code area described in Patent Document 2 described above. The module referred to here is the smallest unit cell constituting an information symbol and corresponds to 1-bit data. The modules are arranged in the code area according to information of information symbols. That is, the arrangement of modules in the code area indicates information of information symbols.

  The first irradiation unit irradiates the reading region with light of the first wavelength, and the second irradiation unit irradiates the reading region with light of the second wavelength. The imaging unit images the reading area. The reading unit processes the image of the reading area captured by the imaging unit, and reads information of the information symbol captured in the image. It is only necessary that the first wavelength light and the second wavelength light have different wavelengths. The light of the first wavelength may be any of infrared light, visible light, and ultraviolet light, for example, and the light of the second wavelength is infrared if the wavelength is different from the light of the first wavelength. Any of light, visible light, and ultraviolet light may be used.

  The reading unit processes the image of the reading area captured by the imaging unit, and reads information of the information symbol captured in the image. The reading unit reads the information of the information symbol by reading the array of modules in the code area of the information symbol being imaged.

  The determination unit determines whether the medium on which the information symbol is formed is appropriate. The determination unit performs this determination based on the information of the information symbol read by the reading unit processing the image of the reading region captured by the imaging unit by the first irradiation unit irradiating the reading region with light of the first wavelength. Based on the reading result and the reading result of the information of the information symbol read by the reading unit processing the image of the reading region captured by the imaging unit by irradiating the reading region with the light having the second wavelength by the second irradiation unit Do it.

  If the information symbol is irradiated with the light of the first wavelength, the imaging unit can image the module in the entire code area without being affected by the covering unit. On the other hand, as long as the information symbol is irradiated with light of the second wavelength, the imaging unit can capture an image of the module in the code area where the covering part is not provided, but the code area where the covering part is provided. Cannot image the module. That is, the reading unit can read the information symbol information as long as it is an image obtained by irradiating the information symbol with the first wavelength light, but irradiates the information symbol with the second wavelength light. If it is a captured image, the information symbol information cannot be read.

  Therefore, the determination unit can determine whether the medium on which the information symbol is formed is an appropriate true medium or an illegally duplicated false medium. As a result, security against the use of fake media can be improved.

  For example, the determination unit can read the information of the information symbol by processing the image of the reading region captured by the imaging unit by the reading unit irradiating the reading region with light having the first wavelength by the first irradiation unit. Otherwise, a configuration in which the medium on which the information symbol is formed is not determined to be appropriate (true medium) may be used.

  The determination unit can read the information of the information symbol by processing the image of the reading region captured by the imaging unit by the reading unit irradiating the reading region with light of the second wavelength by the second irradiation unit. The medium on which the information symbol is formed may be determined to be inappropriate (a fake medium).

  In addition, the determination unit can read the information of the information symbol by processing the image of the reading region captured by the imaging unit by the first irradiation unit irradiating the reading region with light of the first wavelength in the reading unit. In addition, when the second irradiation unit irradiates the reading region with the light of the second wavelength and processes the image of the reading region imaged by the imaging unit, the information symbol is formed. It may be configured to determine that the medium being used is appropriate (true medium).

  Furthermore, if the information symbol is a specific pattern based on the arrangement of modules formed in a region where the code region covering portion is not provided, the determination unit is the reading unit, and the second irradiation unit is the second irradiation unit. If a specific pattern cannot be read by irradiating the reading region with light having a wavelength of 2 and processing the image of the reading region captured by the imaging unit, the medium on which the information symbol is formed is appropriate (true medium) It is also possible to adopt a configuration that does not determine.

  In this case, the reading unit can read information symbol information by processing the image of the reading region captured by the imaging unit by the first irradiation unit irradiating the reading region with light of the first wavelength, and The second irradiation unit irradiates the reading region with light of the second wavelength and processes the image of the reading region picked up by the image pickup unit so that the information symbol information cannot be read and the specific pattern can be read. In this case, the determination unit may be configured to determine that the medium on which the information symbol is formed is appropriate (true medium).

  The reading unit can read the information symbol information by processing the image of the reading region captured by the imaging unit by irradiating the reading region with the light having the first wavelength by the first irradiating unit. The reading unit 2 irradiates the reading region with light of the second wavelength and processes the image of the reading region picked up by the image pickup unit, so that the information symbol information cannot be read, and a specific pattern can be read. In this case, the determination unit may determine that a specific pattern cannot be detected that does not determine whether the medium on which the information symbol is formed is appropriate or not.

  Moreover, you may make it the structure provided with the output part which outputs the determination result of a determination part. The output unit may be configured to output information symbol information to a device that processes the information symbol information, or may be configured to display information symbol information on a display. Furthermore, the configuration may be such that the determination result of whether or not the medium is appropriate is notified by voice or the like (the notification is not performed when the medium is appropriate, and the notification is performed only when the medium is not appropriate). May be.)

  Further, the reading unit of the present invention can read various kinds of equipment (for example, QR code (registered trademark)) in which modules having different light reflection characteristics are arranged in the code area and process the information symbols (for example, It can be used for automatic ticket gates.

  According to the present invention, since it is possible to determine whether the medium on which the information symbol is printed is an appropriate true medium or an illegally copied fake medium, security against the use of the fake medium can be improved. I can plan.

It is a block diagram which shows the structure of the principal part of a reading unit. 2A is a diagram showing a two-dimensional code provided with a covering portion, and FIG. 2B is a diagram showing a two-dimensional code not provided with a covering portion. It is a flowchart which shows operation | movement of a reading unit. It is a block diagram which shows the structure of the principal part of an automatic ticket gate. It is the schematic which shows the external appearance of the unit for participation which processes with respect to the user who participates from the station yard. It is an enlarged view of the vicinity of the entrance of a ticket gate passage for a user who participates from the station premises of an entry unit. It is a flowchart which shows the entrance process by the ticket on which the two-dimensional code was printed. It is a flowchart which shows the participation process by the ticket on which the two-dimensional code was printed.

  Embodiments of the present invention will be described below.

  FIG. 1 is a block diagram showing a configuration of a main part of a reading unit according to this example. The reading unit 1 according to this example includes a control unit 2, a first irradiation unit 3, a second irradiation unit 4, an imaging unit 5, a reading unit 6, and an output unit 7. The reading unit 1 reads information of a two-dimensional code (for example, QR code (registered trademark)) printed on a medium. The two-dimensional code corresponds to the information symbol referred to in the present invention. The reading unit 1 is a medium on which a two-dimensional code is printed properly issued (hereinafter referred to as a true medium) or illegally copied by copying or the like (hereinafter false). Or medium). Examples of the medium on which the two-dimensional code is printed include a boarding ticket (kip), a coupon ticket, and a membership card.

  Here, the two-dimensional code printed on the medium will be briefly described. 2A is a diagram showing a two-dimensional code provided with a covering portion, and FIG. 2B is a diagram showing a two-dimensional code not provided with a covering portion. The information of the two-dimensional code 100 shown in FIGS. 2A and 2B is the same. In this example, the true medium is printed with a two-dimensional code provided with the covering portion 101 shown in FIG. That is, the medium on which the two-dimensional code 110 without the covering portion 101 shown in FIG. 2B is printed is a false medium that is illegally copied by copying or the like in this example.

  As shown in FIG. 2, the two-dimensional codes 100 and 110 are, as is well known, a white module and a black module having different light reflection characteristics arranged in a code area. Hereinafter, the white module and the black module are collectively referred to simply as a module. The code area is substantially square. The two-dimensional codes 100 and 110 form symbols 102 for detecting the direction of the code area (the direction of the two-dimensional codes 100 and 110) at three corners of the code area. In the code area, white modules and black modules are arranged in accordance with the information of the two-dimensional codes 100 and 110. The module is the smallest unit cell constituting the two-dimensional codes 100 and 110, and one module corresponds to 1-bit data. The reading unit 1 reads information of the two-dimensional codes 100 and 110 by reading an array of modules in the code area of the two-dimensional codes 100 and 110.

  The symbol 102 is also composed of a plurality of modules.

  In addition, as shown in FIG. 2A, in this example, the two-dimensional code 100 printed on the true medium covers a part of the code area in the same manner as that described in Patent Document 2 described above. Part 101 is provided. The covering portion 101 is provided so as not to overlap the symbols 102 formed at the three corners of the code area. In this example, the symbols 102 formed at the three corners of the code area correspond to a specific pattern in the present invention.

  Covering portion 101 transmits reflected light from a module located in a region where covering portion 101 is provided when irradiated with infrared light (corresponding to light of the first wavelength referred to in the present invention). Let Further, when the covering portion 101 is irradiated with visible light (corresponding to light of the second wavelength referred to in the present invention), the reflected light from the module located in the region where the covering portion 101 is provided. Hinder the transmission of. For example, the covering portion 101 is a region where ink having such characteristics (for example, infrared transmission ink) is applied.

  The size of the covering portion 101 in the code area may be a size that fails to read the information of the two-dimensional code 100. The covering portion 101 in the code area has a size that cannot be restored by the error correction level restoration capability of the two-dimensional code 100, for example, 30% or more of the code area.

  Returning to FIG. 1, each configuration of the reading unit 1 will be described. The control unit 2 controls the operation of each part of the main body of the reading unit 1. The first irradiation unit 3 irradiates the reading area with infrared light. The second irradiation unit 4 irradiates the reading area with visible light. The imaging unit 5 images the reading area.

  The reading unit 6 processes the image of the reading area captured by the imaging unit 5 and reads the array of modules in the code area of the two-dimensional code 100 or 110 captured in the image, thereby the two-dimensional code 100, 110 information is read.

  In addition, the control unit 2 determines whether the medium on which the two-dimensional codes 100 and 110 read by the reading unit 6 are printed is a true medium. The function of performing this determination corresponds to the determination unit referred to in the present invention. That is, in this example, the control unit 2 has a configuration according to the determination unit referred to in the present invention.

  The output unit 7 is a true medium or a fake medium in which the information on the two-dimensional codes 100 and 110 read by the reading unit 6 and the medium on which the two-dimensional codes 100 and 110 determined by the control unit 2 are printed are printed. Is output. The output unit 7 may be configured to output the information of the two-dimensional codes 100 and 110 to a device that processes the information of the two-dimensional codes 100 and 110 (a control unit 21 of the automatic ticket gate 20 described later). May be displayed on the display. Furthermore, the structure which alert | reports the determination result of whether a medium is appropriate with an audio | voice etc. may be sufficient.

  The control unit 2 has a computer (processor) that controls the operation of the main body of the reading unit 1, and this computer executes the information reading method according to the present invention. The information reading program according to the present invention is a program installed in a computer included in the control unit 2.

  The operation of the reading unit 1 will be described. FIG. 3 is a flowchart showing the operation of the reading unit.

  The reading unit 1 repeats the first imaging process in which the first irradiation unit 3 irradiates the reading region with the infrared light and the imaging unit 5 images the reading region at regular time intervals (for example, 50 msec intervals) (s1). , S2). In the first imaging process related to s2, if the medium is positioned in the reading area, the two-dimensional codes 100 and 110 printed on the medium are imaged. In this first imaging process, even if the two-dimensional code 100 provided with the covering portion 101 shown in FIG. 2A is printed on the medium, the entire code area module is not affected by the covering portion 101. Can be imaged. Further, in the first imaging process, the module in the entire code area can be imaged even when the two-dimensional code 110 without the covering portion 101 shown in FIG. 2B is printed on the medium.

  In the reading unit 1, the reading unit 6 processes the image of the reading area imaged by the imaging unit 5 in the first imaging process according to s <b> 2, and performs the reading process of the information of the captured two-dimensional codes 100 and 110. (S3).

  When the two-dimensional code 100 or 110 is not captured in the image of the reading region captured in the first imaging process according to s2, the reading unit 6 lacks or distorts the captured two-dimensional code 100 or 110. Or the like occurs, reading of the information of the two-dimensional codes 100 and 110 fails in s3. When the reading unit 1 fails to read the information of the two-dimensional codes 100 and 110 (s4), the reading unit 1 returns to s1.

  Further, when the reading unit 1 succeeds in reading the information of the two-dimensional codes 100 and 110 in s3 (s4), the second irradiation unit 4 irradiates the reading region with visible light, and the imaging unit 5 images the reading region. The second imaging process is performed (s5). The time from the first imaging process of s2 to the second imaging process of s5 is several hundreds msec at the longest. Therefore, the second imaging process relating to s5 is performed when the two-dimensional code that has read the information in the immediately preceding s3 is located in the reading area. That is, the same medium is imaged in the first imaging process of s2 and the second imaging process of s5.

  In the second imaging process, when the two-dimensional code 100 provided with the covering portion 101 shown in FIG. 2A is printed on the medium, the module picks up an image in a code area where the covering portion 101 is not provided. However, the module cannot capture an image of the code area where the covering portion 101 is provided. On the other hand, in the second imaging process, if the two-dimensional code 110 without the covering portion 101 shown in FIG. 2B is printed on the medium, the module in the entire code area can be imaged.

  In the reading unit 1, the reading unit 6 processes the image of the reading area captured by the imaging unit 5 in the second imaging process according to s5, and detects the three symbols 102 of the captured two-dimensional codes 100 and 110. A detection process is performed (s6). As shown in FIG. 2, in this example, the covering portion 101 is provided at a position that does not overlap the three symbols 102 of the two-dimensional code 100. Therefore, the reading unit 6 can detect the three symbols 102 if the two-dimensional codes 100 and 110 shown in FIGS. However, when the covering portion 101 is a two-dimensional code provided at a position overlapping one of the three symbols 102, or when the captured two-dimensional code 100, 110 is missing or distorted, etc. In some cases, the three symbols 102 cannot be detected.

  When the reading unit 6 can detect the three symbols 102 of the two-dimensional codes 100 and 110 in s6 (s7), the reading unit 6 processes the image of the reading region imaged in the second imaging process related to s5, and is captured 2 Reading processing of the information of the dimension codes 100 and 110 is performed (s8).

  As described above, in the second imaging process according to s5, when the two-dimensional code 100 is provided with the covering portion 101 illustrated in FIG. Since the module is not imaged, it is impossible to restore the module with the error correction level restoration capability of the two-dimensional code 100. Therefore, if the two-dimensional code imaged in the second imaging process related to s5 is the two-dimensional code 100 provided with the covering portion 101 shown in FIG. Reading fails. On the other hand, if the two-dimensional code imaged in the second imaging process related to s5 is the two-dimensional code 110 without the covering portion 101 shown in FIG. Read succeeds.

  When the control unit 2 succeeds in reading the information of the two-dimensional codes 100 and 110 in s8 (s9), the control unit 2 determines that the medium on which the two-dimensional codes 100 and 110 are printed is a fake medium (s13). Further, when the control unit 2 fails to read the information of the two-dimensional codes 100 and 110 in s8 (s9), the control unit 2 determines that the medium on which the two-dimensional codes 100 and 110 are printed is a true medium (s10).

  Further, when the three symbols 102 of the two-dimensional codes 100 and 110 cannot be detected in s6 (s7), the reading unit 1 processes the image of the reading area imaged in the second imaging process related to s5 and is captured. The information of the two-dimensional codes 100 and 110 is read (s11). The process concerning s11 is the same as s8 mentioned above.

  When the control unit 2 succeeds in reading the information of the two-dimensional codes 100 and 110 in s11 (s12), the control unit 2 determines that the medium on which the two-dimensional codes 100 and 110 are printed is a fake medium (s13).

  Further, when the control unit 2 fails to read the information of the two-dimensional codes 100 and 110 in s11 (s12), the control unit 2 increments the loop count L by 1 (L = L + 1) (s14), and the loop count L is determined in advance. It is determined whether or not a certain threshold is exceeded (s15). When determining that the threshold value is not exceeded in s15, the control unit 2 returns to s1 and repeats the above-described processing.

  If the control unit 2 determines that the loop count L exceeds the threshold value in s15, the control unit 2 determines that symbol detection is impossible (s16), and resets the loop count L (s17). In s16, it is not determined that the medium on which the two-dimensional codes 100 and 110 are printed is a true medium or a fake medium.

  The reading unit 1 outputs the information of the two-dimensional codes 100 and 110 read in s3, s8, or s11 and the determination result in s10, s13, or s16 from the output unit 7 (s18), and returns to s1.

  In s18, the information of the two-dimensional code 100, 110 read in s3, s8, or s11 and the determination result in s10, s13, or s16 are processed into an apparatus for processing the information of the two-dimensional code 100, 110 (described later, automatic The information may be output to the control unit 21 of the ticket gate 20) or may be displayed on a display (not shown). Furthermore, the structure which alert | reports the determination result of whether a medium is appropriate with an audio | voice etc. may be sufficient.

  As described above, when the reading unit 1 processes the image of the reading area captured by the imaging unit 5 in the second imaging process according to s5 and successfully reads the information of the captured two-dimensional codes 100 and 110, the reading unit 1 The medium on which the two-dimensional codes 100 and 110 are printed is determined as a fake medium.

  The reading unit 1 determines that the medium on which the two-dimensional codes 100 and 110 are printed is a true medium when the following conditions (a), (b), and (c) are satisfied.

(A) Processing of the image of the reading area imaged by the imaging unit 5 in the first imaging process relating to s2, and successfully reading the information of the two-dimensional codes 100 and 110 being imaged (b) the second relating to s5 The image of the reading area imaged by the imaging unit 5 is processed in the imaging process of (2), and reading of the information of the captured two-dimensional codes 100 and 110 fails. (C) The imaging unit 5 is in the second imaging process related to s5. The captured image of the read area is processed and the three symbols 102 of the captured two-dimensional codes 100 and 110 are successfully detected. Since the condition (c) is set in this way, the imaging timing of the imaging processing according to s5 In addition, even when the posture of the false medium is changed so that the two-dimensional codes 100 and 110 are intentionally chipped or distorted, the false medium is erroneously determined to be a true medium. Can be prevented.

  Accordingly, it is possible to accurately determine whether the medium on which the two-dimensional codes 100 and 110 are printed is an appropriate true medium or an illegally duplicated fake medium, and security against the use of the fake medium is improved. Can be planned.

  In addition, the reading unit 1 processes the image of the reading area imaged by the imaging unit 5 in the first imaging process related to s2, and can read the information of the captured two-dimensional codes 100 and 110, and also relates to s5 A medium on which the image of the reading area captured by the imaging unit 5 in the second imaging process is processed, and the information of the captured two-dimensional code 100 or 110 cannot be read, and the two-dimensional code 100 is printed May be determined as a true medium.

  Further, the condition (c) in the above example is based on the condition that, for example, two or more symbols 102 of the two-dimensional codes 100 and 110 can be detected or one or more symbols 102 can be detected. Good. Further, the two-dimensional code 100 printed on the true medium is assumed to have a specific pattern formed by the arrangement of modules in an area where the code area covering portion 101 is not provided, and the specific pattern was successfully detected. This may be a condition.

  Moreover, the order of each step shown in FIG. 3 is an example, and if the same effect is obtained, the order may be changed. For example, the processing related to s5 may be performed between s2 and s3.

  Furthermore, the shape of the covering portion 101 provided in the two-dimensional code 100 is not limited to the shape shown in FIG. 2A, and may be any shape, and may be composed of a plurality of patterns. It may be. As described above, the covering portion 101 has a size that fails to read the information of the two-dimensional code 100 by preventing transmission of reflected light from the array of modules located in the region where the covering portion 101 is provided. I just need it.

  Next, the automatic ticket gate 20 including the above-described reading unit 1 will be described. The automatic ticket gate 20 according to this example is installed at a ticket gate of a station. Here, the entrance unit that performs ticket gate processing for users entering the station and the exit unit that performs ticket gate processing for users who enter the station are placed opposite each other for entry. A description will be given by taking as an example an automatic ticket gate 20 in which the direction of user traffic in the ticket gate formed between the unit and the entry unit is bidirectional (the direction of entering the station and the direction of entering from the station). .

  FIG. 4 is a block diagram showing the configuration of the main part of the automatic ticket gate according to this example. FIG. 5 is a schematic view showing the appearance of an entry unit that accepts a ticket held by a user who enters from a station premises. FIG. 6 is an enlarged view of the vicinity of the entrance of the ticket gate for users who enter from the station premises of the participation unit.

  The appearance of the entrance unit for accepting a ticket held by a user entering the station is substantially the same as that of the entry unit shown in FIG. 5, but has a function of collecting a ticket printed with the two-dimensional code 100. It differs in that it does not have.

  The automatic ticket gate 20 includes a reading unit 1 (1a, 1b), an IC ticket information reading unit 22 (22a, 22b), a collection unit 24, a user detection unit 25, a display unit 26, and door opening / closing. A unit 27 and a communication unit 28 are provided.

  The control unit 21 controls the operation of the main body of the automatic ticket gate 20.

  The above-described reading unit 1 (1a, 1b) optically reads the two-dimensional codes 100, 110 printed on the ticket face of the ticket that is trapped in the reading area by the user passing through the ticket gate. The reading unit 1a is attached to the participation unit shown in FIGS. The reading unit 1b is attached to an entrance unit (not shown). The information of the two-dimensional code 100 printed on the ticket surface of the ticket is boarding ticket information. The ticket on which the two-dimensional code 100 is printed is a properly issued medium, and the medium on which the two-dimensional code 110 is printed is an illegally copied medium. The reading unit 1 (1a, 1b) executes the processing shown in FIG. 3, and controls the information of the two-dimensional code 100, 110 read in s3, s8, or s11, and the determination result in s10, s13, or s16 To the unit 21.

  The IC ticket information reading unit 22 (22a, 22b) reads the ticket information on the non-contact IC ticket by wireless communication with the non-contact IC ticket that the user who passes through the ticket gate passage stands in the wireless communication area. Write the ticket information. The IC ticket information reading unit 22a is attached to the participation unit shown in FIG. The IC ticket information reading unit 22b is attached to an entrance unit (not shown).

  The imaging area of the reading unit 1a (imaging area of the imaging unit 5 described above) and the wireless communication area of the IC ticket information reading unit 22a are, as shown in FIG. 6, a ticket gate passage for users who enter from the station premises. Located near the entrance. The imaging area of the reading unit 1b and the wireless communication area of the IC ticket information reading unit 22b are provided in the vicinity of the entrance of the ticket gate for users who enter the station.

  The collection unit 24 collects the used kits in this use. The collection unit 24 is provided in the entry unit and is not provided in the entry unit. The collection unit 24 opens and closes a shutter provided in the ticket collection port 24a. The ticket collection port 24a is provided near the imaging area of the reading unit 1a.

  The user detection unit 25 detects the position of the user located in the ticket gate passage by using a plurality of sensors arranged along the ticket gate passage. The user detection unit 25 is attached to one unit disposed opposite to the ticket gate passage with a plurality of light emitting elements attached along the ticket gate passage, and to the other unit at a position where each light emitting element faces. A plurality of light receiving elements. If there is a light receiving element that does not receive the light emitted from the light emitting element, the user detecting unit 25 determines that there is a user at a position corresponding to the light receiving element.

  The display unit 26 includes two indicators 26a for displaying a message to a user traveling through the ticket gate passage. One indicator 26a is attached to the participation unit shown in FIG. 5, and displays a message for a user who participates from the station premises. The other indicator is attached to an entrance unit (not shown) and displays a message for a user who enters the station.

  The door opening / closing unit 27 opens the doors 27a and 27b provided on the exit side of the user when allowing the user to pass through the ticket gate. The door opening / closing unit 27 closes the doors 27a and 27b provided on the exit side of the user when the passage of the user in the ticket gate is not permitted. The door 27a shown in FIGS. 5 and 6 is a door that opens and closes for users who enter the station, and the door 27b is a door that opens and closes for users who enter from the station. The entrance unit is also provided with doors 27a and 27b at opposing positions.

  The communication unit 28 controls data communication with a use state management device (not shown).

  In addition, the use state management device uses a ticket that has been properly ticketed, an identification number of the ticket, entrance information that indicates whether the ticket has been used for entry processing, and entry information that indicates whether the ticket has been used for entry processing. State management information is stored.

  Next, the operation of the automatic ticket gate 20 will be described. In the automatic ticket checker 20, the IC ticket information reading unit 22 (22a, 22b) repeatedly polls the non-contact IC ticket located in the wireless communication area at regular time intervals. In the automatic ticket gate 20, the reading unit 1 (1a, 1b) performs the processing shown in FIG.

  When the automatic ticket checker 20 first receives a response from the non-contact IC ticket located in the wireless communication area, the IC ticket information reading unit 22 performs the ticket check process for the user who possesses the non-contact IC ticket. Do. On the other hand, when the automatic ticket checker 20 first reads the information of the two-dimensional codes 100 and 110 printed on the ticket located in the optical reading area, the reading unit 1 performs the processing shown in FIG. The ticket gate processing is performed for the user who possesses this ticket. Since the ticket gate process using a non-contact IC ticket is the same as that of a known automatic ticket gate, the description is omitted here, and the ticket gate process using a ticket in which the two-dimensional codes 100 and 110 are printed on the ticket surface will be described.

  FIG. 7 is a flowchart showing an entrance process by a ticket printed with a two-dimensional code. The automatic ticket gate 20 performs the processing shown in FIG. 7 after the reading unit 1b executes the processing shown in FIG. 3 for the ticket possessed by the user who enters the station. The reading unit 1b reads the information of the two-dimensional code 100, 110 read by s3, s8, or s11 in s18 shown in FIG. 3 and the determination result in s10, s13, or s16, and controls the control unit 21 of the automatic ticket gate 20. Is output.

  The automatic ticket gate 20 determines whether or not the ticket on which the two-dimensional codes 100 and 110 are printed is determined to be a true medium in the reading unit 1b (s21). If it is not determined that the automatic ticket gate 20 is a true medium (that is, if it is determined that a false medium or a symbol is not detected), the door opening / closing unit 27 closes the door 27a (s24), and the user This process is terminated without permitting the user to enter the station via the ticket gate passage.

  Further, if the reading unit 1b determines that the reading unit 1b is a true medium, the automatic ticket gate 20 uses the ticket information (information of the two-dimensional codes 100 and 110) read by the reading unit 1b to pass the user through the ticket gate. It is determined whether or not to permit (s22). In s22, it is determined whether or not to allow the user to pass through the ticket gate passage according to the valid period of the ticket included in the ticket information and the valid section.

  If the automatic ticket gate 20 determines in s22 that the user is not permitted to pass through the ticket gate (s23), the door opening / closing part 27 closes the door 27a (s24), and the user passes through the ticket gate and enters the station premises. The process is terminated without allowing the user to enter.

  Further, if the automatic ticket gate 20 does not determine in step s22 that the ticket gate passage is not permitted, the automatic ticket gate 20 requests the usage state management device to notify the usage state management information of the ticket whose reading unit 1b has read the current ticket information. (S25). The ticket information read by the reading unit 1b includes a ticket identification number. In s25, the use state management apparatus is notified of the identification number of the ticket.

  When the reading unit 1b receives the ticket usage status management information read from the current ticket information (s26), the automatic ticket gate 20 receives the usage status management information of the user in the ticket gate from the usage status management device. It is determined whether or not the passage is permitted (s27). In s27, if the ticket that the reading unit 1b has read this time ticket information is an issued unused ticket, it is determined that the user is allowed to pass through the ticket gate. On the other hand, if the ticket whose reading unit 1b has read the ticket information this time is an unissued ticket or a ticket used for entrance processing, it is determined that the passage of the user in the ticket gate is not permitted.

  If the automatic ticket gate 20 determines that the passage of the user in the ticket gate is not permitted in s27 (s28), the door opening / closing part 27 closes the door 27a (s24), and the user passes through the ticket gate and enters the station premises. The process is terminated without allowing the user to enter.

  If the automatic ticket gate 20 determines in s27 that the user is allowed to pass through the ticket gate (s28), the door opening / closing part 27 opens the door 27a (s29), and the user passes through the ticket gate and passes through the station. Allow admission to the premises. Further, the automatic ticket gate 20 notifies the use state management device of the update of the entrance information of the ticket whose reading unit 1b has read the current ticket information to the use state management device (s30), and ends this processing. .

  In response to this update request, the usage state management apparatus updates the entry information of the ticket whose reading unit 1b has read the current ticket information to information indicating that it has been used for the entry process.

  Next, with reference to FIG. 8, the participation process by a ticket printed with a two-dimensional code will be described. FIG. 8 is a flowchart showing entry processing by a ticket on which a two-dimensional code is printed. The automatic ticket gate 20 performs the processing shown in FIG. 8 after the reading unit 1a executes the processing shown in FIG. 3 for the ticket possessed by the user who enters from the station premises. The reading unit 1a reads the information of the two-dimensional code 100, 110 read by s3, s8, or s11 in s18 shown in FIG. 3 and the determination result in s10, s13, or s16, and controls the control unit 21 of the automatic ticket checker 20. Is output.

  The automatic ticket gate 20 determines whether or not the ticket on which the two-dimensional codes 100 and 110 are printed is determined to be a true medium in the reading unit 1a (s41). If it is not determined that the automatic ticket gate 20 is a true medium (that is, if it is determined that a false medium or a symbol is not detected), the door opening / closing unit 27 closes the door 27b (s44), and the user This process is terminated without permitting the user to enter the ticket gate and enter the station.

  Further, if the reading unit 1a determines that the reading unit 1a is a true medium, the automatic ticket gate 20 uses the ticket information (information of the two-dimensional codes 100 and 110) read by the reading unit 1a to pass the user through the ticket gate. It is determined whether or not to permit (s42). In s42, it is determined whether or not to allow the user to pass through the ticket gate passage according to the valid period of the ticket included in the ticket information and the valid section.

  When the automatic ticket gate 20 determines in s42 that the user is not permitted to pass through the ticket gate (s43), the door opening / closing part 27 closes the door 27b (s44), and the user passes through the ticket gate and enters the station premises. This process is terminated without permitting participation in the game.

  If the automatic ticket checker 20 does not determine in step s42 that the ticket gate passage is not permitted, the automatic ticket checker 20 requests the use state management device to notify the use state management information of the ticket whose reading unit 1a has read the current ticket information. (S45). The ticket information read by the reading unit 1a includes a ticket identification number. In s45, the use state management device is notified of the identification number of the ticket.

  When the reading unit 1a receives the ticket usage status management information read from the current ticket information from the usage status management device (s46), the automatic ticket gate 20 receives the usage status management information of the user in the ticket gate. It is determined whether or not the passage is permitted (s47). In s47, if the ticket whose reading unit 1a has read the ticket information this time has already been issued and is used for the entry process and not used for the entry process, the user is permitted to pass through the ticket gate passage. judge. On the contrary, when the ticket that the reading unit 1a has read the ticket information this time is an unissued ticket, when the ticket is not used for the entrance process, or when the ticket is used for the entry process, etc. In addition, it is determined that the passage of the user in the ticket gate is not permitted.

  If the automatic ticket gate 20 determines in s47 that the user is not permitted to pass through the ticket gate (s48), the door opening / closing part 27 closes the door 27b (s44), and the user passes through the ticket gate and enters the station premises. This process is terminated without permitting participation in the game.

  If the automatic ticket gate 20 determines that the passage of the ticket gate is permitted in s47 (s48), the collection unit 24 opens the shutter provided in the ticket collection port 24a (s49). The automatic ticket gate 20 collects the ticket that the user has input into the ticket collection port 24a (s50), and the collection unit 24 closes the shutter provided at the ticket collection port 24a (s51).

  In the automatic ticket gate 20, the door opening / closing part 27 opens the door 27a (s52), and permits the user to pass through the ticket gate and enter the station. Further, the automatic ticket gate 20 notifies the use state management device of the update of the ticket entry information that the reading unit 1a has read the current ticket information to the use state management device (s53), and ends this processing. .

  In response to this update request, the use state management device updates the entry information of the ticket whose reading unit 1a has read the current ticket information to information indicating that it has been used for the entry process.

  As described above, in the automatic ticket gate 20, it is possible to prevent an illegally created medium such as a ticket from being used, and it is also possible to prevent unauthorized use of a xel or the like.

  In addition, the automatic ticket checker 20 outputs the information of the two-dimensional codes 100 and 110 read in s3, s8, or s11 output by the reading unit 1 (1a, 1b) in s18 when a predetermined operation is performed, In addition, the display unit 26 may display the determination result in s10, s13, or s16 on the display 26a, or may be configured to notify by voice.

  Further, the automatic ticket gate 20 may be configured to execute the processing shown in FIG. 3 by the control unit 2 of the reading unit 1 and the control unit 21 of the automatic ticket gate 20 in a shared manner. For example, the control unit 2 of the reading unit 1 executes processing related to imaging of the two-dimensional codes 100 and 110, reading of information, and detection of the symbols 102, and the control unit 21 of the automatic ticket gate 20 executes other processing. You may make it make it. Alternatively, the control unit 2 of the reading unit 1 may execute processing related to imaging of the two-dimensional codes 100 and 110, and the control unit 21 of the automatic ticket checker 20 may execute other processing.

  Moreover, you may comprise the control part 2 of the reading unit 1, and the control part 21 of the automatic ticket gate 20 by one control part (computer).

  The reading unit 1 according to the present invention is not limited to the automatic ticket gate 20 described above, and may be any device that reads information recorded in a two-dimensional code and processes the read information. Applicable.

DESCRIPTION OF SYMBOLS 1 (1a, 1b) ... Reading unit 2 ... Control part 3 ... 1st irradiation part 4 ... 2nd irradiation part 5 ... Imaging part 6 ... Reading part 7 ... Output part 20 ... Automatic ticket gate 100,110 ... Two-dimensional Code 101 ... cover 102 ... symbol

Claims (10)

An information symbol formed on a medium, wherein modules having different light reflection characteristics are arranged in a code area, and when a part of the code area is irradiated with light of a first wavelength, the module A reading unit that reads the information of the information symbol provided with a covering portion that transmits the reflected light from the first light and that is irradiated with light having a second wavelength different from the first wavelength. Because
A first irradiation unit that irradiates the reading region with light of the first wavelength;
A second irradiation unit that irradiates the reading region with light of the second wavelength;
An imaging unit for imaging the reading area;
A reading unit that processes an image of the reading area captured by the imaging unit and reads information of the information symbol captured in the image;
The information of the information symbol read by the reading unit by processing the image of the reading region captured by the imaging unit by irradiating the reading region with the light of the first wavelength by the first irradiation unit. Reading information and information of the information symbol read by processing the image of the reading area captured by the imaging unit by the second irradiation unit irradiating the reading area with light of the second wavelength And a determination unit that determines whether the medium on which the information symbol is formed is appropriate based on the result.   In the determination unit, the reading unit processes the image of the reading region captured by the imaging unit by irradiating the reading region with light having the first wavelength by the first irradiation unit, and the information symbol. 2. The reading unit according to claim 1, wherein if the information of the information symbol cannot be read, the medium on which the information symbol is formed is not determined to be appropriate.   In the determination unit, the reading unit processes the image of the reading region captured by the imaging unit by irradiating the reading region with light of the second wavelength by the second irradiation unit, and the information symbol. 3. The reading unit according to claim 1, wherein when the information can be read, the medium on which the information symbol is formed is determined to be inappropriate. The information symbol is formed in a region where the covering portion of the code region is not provided with a specific pattern based on the arrangement of the modules.
In the determination unit, the reading unit processes the image of the reading region captured by the imaging unit by irradiating the reading region with light having the second wavelength by the second irradiating unit and processing the specific image. The reading unit according to claim 1, wherein if the pattern cannot be read, the medium on which the information symbol is formed is not determined to be appropriate. The reading unit reads the information of the information symbol by processing the image of the reading region picked up by the imaging unit by irradiating the reading region with the light of the first wavelength by the first irradiation unit. Further, the second irradiation unit irradiates the reading region with the light of the second wavelength and processes the image of the reading region captured by the imaging unit to read the information of the information symbol. And when the specific pattern can be read,
The reading unit according to claim 4, wherein the determination unit determines that the medium on which the information symbol is formed is appropriate. The reading unit reads the information of the information symbol by processing the image of the reading region picked up by the imaging unit by irradiating the reading region with the light of the first wavelength by the first irradiation unit. Further, the second irradiation unit irradiates the reading region with the light of the second wavelength and processes the image of the reading region captured by the imaging unit to read the information of the information symbol. And when the specific pattern cannot be read,
The reading unit according to claim 4, wherein the determination unit determines that a specific pattern cannot be detected that does not determine whether the medium on which the information symbol is formed is appropriate or not.   The reading unit according to claim 1, further comprising: an output unit that outputs a determination result of the determination unit for a medium on which the information symbol is formed. A reading unit according to any one of claims 1 to 7,
An automatic ticket gate for determining whether or not a user is allowed to pass through the ticket gate using the determination result obtained by determining whether or not the ticket on which the ticket information is printed by the information symbol is appropriate in the determination unit of the reading unit Machine. An information symbol formed on a medium, wherein modules having different light reflection characteristics are arranged in a code area, and when a part of the code area is irradiated with light of a first wavelength, the module Information reading that reads the information of the information symbol provided with a covering portion that transmits the reflected light from the first and transmits a light having a second wavelength different from the first wavelength. A method,
A first reading step in which a first irradiation unit irradiates the reading region with light of the first wavelength and processes an image of the reading region captured by the imaging unit to read information of the information symbol;
A second reading step in which a second irradiation unit irradiates the reading region with light of the second wavelength and processes an image of the reading region imaged by the imaging unit to read information of the information symbol;
Whether the medium on which the information symbol is formed is appropriate based on the reading result of the information symbol in the first reading step and the reading result of the information symbol in the second reading step. A determination step for determining whether or not. An information symbol formed on a medium, wherein modules having different light reflection characteristics are arranged in a code area, and when a part of the code area is irradiated with light of a first wavelength, the module The computer reads the information of the information symbol provided with a covering portion that transmits the reflected light from the light source and receives a light having a second wavelength different from the first wavelength. An information reading program to be executed by
A first reading step in which a first irradiation unit irradiates the reading region with light of the first wavelength and processes an image of the reading region captured by the imaging unit to read information of the information symbol;
A second reading step in which a second irradiation unit irradiates the reading region with light of the second wavelength and processes an image of the reading region imaged by the imaging unit to read information of the information symbol;
Whether the medium on which the information symbol is formed is appropriate based on the reading result of the information symbol in the first reading step and the reading result of the information symbol in the second reading step. An information reading program for causing a computer to execute a determination step for determining whether or not.

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