IMAGE RECOGNITION SYSTEM, IMAGE RECOGNITION METHOD, HOLOGRAM RECORDING MEDIUM, HOLOGRAM PLAYBACK DEVICE, AND IMAGE CAPTURE DEVICE

Abstract

[Problem to be Solved]

Conventional devices for reproduction of holograms for appreciative viewing do not have any functionality to gate access to special content by exploiting the characteristics of the hologram. Further, a system that allows users to easily perform judgment of authenticity has been much awaited as, with holograms, although a counterfeit prevention effect can be expected visually, counterfeit imitations of the holograms themselves are already in circulation.

[Means to Resolve the Problem]

It is made possible to read holographic barcodes with such portable information consoles as smartphones to perform judgment of authenticity. In this process, by controlling from the portable information console side the light sources illuminating the hologram, it is possible to add a strong authenticity judgment function without a major increase in cost and also without building any special infrastructure.

Claims

1. A method of recognizing images. comprising: creating information using a hologram and an information processing device incorporating both a light source and an image sensor, in which at least two conditions are created, by moving the integrated information processing device relative to the hologram with the light source and image sensor fixed in a condition in which neither their relative positions nor their relative angles are adjustable, and/or, by changing only the mode of lighting without movement of the information processing device and the hologram relative to each other, and a procedure of acquiring image information in the said different conditions by said information processing device using the image sensor.

2-32. (canceled)

33. A method of image recognition using a hologram and an information processing device incorporating both a light source and an image sensor, comprising: a procedure in which at least two conditions are created, by moving the integrated information processing device relative to the hologram with the light source and image sensor fixed in a condition in which neither their relative positions nor their relative angles are adjustable, and/or, by changing only the mode of lighting without movement of the information processing device and the hologram relative to each other, a procedure of acquiring image information in the said different conditions by the said information processing device using the image sensor, and a procedure to compare the said information with information representing the features of the medium to be recognized that is acquired by a different procedure.

34. A method of image recognition described in claim 33, further comprising: incorporation of a means of communication in the said information processing device, a procedure for transmitting to and receiving from a device that is different from the said information processing device the acquired image information and/or the information representing the features of the medium to be recognized, and a procedure for performing different actions according to the said result.

35. An image recognition method according to claim 33, in acquiring the information recorded in the said hologram, further comprising: a procedure to read information placed in the vicinity of the said hologram that is recorded by a method other than that of the hologram.

36. A method of image recognition according to claim 33, further comprising: a procedure to link the unique individual ID information of the information processing device incorporating an image sensor, together with the said image information.

37. A method of image recognition according to claim 33, further comprising: a procedure for making the information processing device to be in the sensing state in which, using a hologram medium on which one or more image codes for authentication are holographically printed, it receives and decodes the hologram medium at a specified sampling interval, a procedure for making the light source to be in a first mode of lighting, a procedure for verifying that the holographically recorded barcode is successfully decoded during the first mode of lighting, a procedure for making the light source to be in a second mode of lighting, and a procedure for verifying that the holographically recorded barcode is successfully decoded during the second mode of lighting.

38. A method of image recognition according to claim 33, further comprising: a procedure for making the information processing device to be in a condition for, using a hologram medium on which holograms are printed from which one or more different image codes for authentication are reproduced, capturing with fixed focus using an image capturing device that is roughly still, a procedure for making different light sources to be lighted, and a procedure for using for judgment of authenticity the ability to read the corresponding image code information for authentication within a specified period of time.

39. A method of image recognition according to claim 33, further comprising: a procedure for using a medium in which an encrypted image code for authentication is holographically recorded and creating at least two conditions with different positional relationships among the illuminating light, the said medium and the image sensor, a procedure to regenerate a single image code for authentication by reconstructing partial areas that are captured, and a procedure to decode the said regenerated image code for authentication.

40. A method of image recognition according to claim 33, further comprising: a procedure for, in an information processing device incorporating a light source and an image sensor that is a portable information console, acquiring the values detected by at least one among acceleration sensors and gyrosensors incorporated in the portable information console, and a procedure to utilize for image analysis the acquired detected values.

41. A method of image recognition according to claim 33, further comprising: a procedure for using an information processing device incorporating an image sensor that has a means of communication with a remote server to transmit to, and receive from, the server information such as information about the control of lighting of the hologram reproduction device, the captured images, the content of decoded data and the time required for decoding.

42. A method of image recognition according to claim 33, further comprising: a procedure for reading, as a marking image formed on the hologram medium, the face of the hologram or in its vicinity on the base material by printing or working by a non-holographic method, information which enables the determination of the position or angular direction of a hologram medium, a procedure for predicting the position of the hologram medium from the information acquired from the said marking image, and a procedure for capturing or decoding the hologram image by restricting the zone based on the said predicted information.

43. A method of image recognition according to claim 33, further comprising: a procedure for an information processing device to decode a barcode which constitutes a marking that is printed by two-dimensional printing, a procedure for fixing the focus upon completion of decoding, and a procedure to then capture the hologram image.

44. A method of image recognition according to claim 33, further comprising: a procedure for, in an information processing device incorporating an image sensor, a light source and a display device, displaying the image captured by the image sensor in real time, a procedure for lighting the light source, a procedure for displaying a first guiding mark on the display device, a procedure for prompt alignment of the guiding mark on the display device with a first marking image displayed on the hologram medium, on the face of the hologram or in its vicinity on the base material by printing or working by a non-holographic method, a procedure for displaying a second guiding mark on the display device after the first hologram information has been read, and a procedure to prompt its alignment with a second marking image on the face of the hologram or in the vicinity on the base material.

45. A method of image recognition according to claim 44, further comprising: a procedure for, in an information processing device incorporating an image sensor, a light source and a display device, transmitting the data about the model type of the information processing device to a storage device, a procedure for acquiring from the said storage device data about the position of the guide marking to be displayed on the display device, and a procedure for displaying on the display device according to the acquired data.

46. A method of image recognition according to claim 44, further comprising: a procedure for transmitting to the said storage device the image of the holographic barcode on the image sensor when a holographic barcode is successfully decoded, or the information of parameters such as position and angle that are acquired therefrom, a procedure for displaying a first guiding mark on the display device, a procedure to prompt alignment of the guiding mark on the display device with a first marking image displayed on the hologram medium, on the face of the hologram or in its vicinity on the base material by printing or working by a non-holographic method, a procedure for displaying a second guiding mark on the display device after the first hologram information has been read, and a procedure to prompt its alignment with a second marking image on the face of the hologram or in the vicinity on the base material.

47. A medium, as a medium in which image codes for authentication are recorded holographically, comprising: information that indicates that it is a code for authentication that can be read by a portable information console incorporating a light source and an image sensor, and information that is holographically recorded and in the form of at least two independent image codes for authentication or segments of an image code for authentication which are reproduced when the said medium is illuminated at the same position on the medium face by light from different angles, or illuminated by light of different wavelengths.

48. A medium according to claim 47, a medium with a prerecorded image code for authentication, which cannot be decoded with illuminating light of a single type from a single direction, but is made to be possible to decode if reconstructed from a plurality of images according to a known prescription.

49. A medium according to claim 47, characterized by displaying a marking image, or an image code for authentication, on the hologram medium, on the face of the hologram or in its vicinity on the base material by printing or working by a non-holographic method.

50. An image recording medium according to claim 49, characterized by having printed information that indicates that it is a code for authentication that can be read by a portable information console incorporating a light source and an image sensor, and a marking symbol indicating the direction in which the portable information device and the medium should be moved relative to each other when reading the image code for authentication.

51. An image recording medium according to claim 49, characterized by having printed marking images and image codes for graphic authentication, among which at least one is printed with trapezoidal distortion such as to be captured as a rectangle when held at an angle at which the entire holographic authentication image can be captured.

Description

BRIEF EXPLANATION OF THE FIGURES

[0221] FIG. 1 Cross-sectional figure for explanation of the hologram recording material

[0222] FIG. 2 Schematic figure for explanation of the exposure process of the hologram recording material

[0223] FIG. 3 Figure for explanation of the overall configuration of the holographic stereogram production apparatus

[0224] FIG. 4 Figure for explanation of the optical system of the holographic stereogram production apparatus

[0225] FIG. 5 Figure showing the concept of the holographic stereogram

[0226] FIG. 6 Figure showing a conventional example of a hologram reproduction device incorporating many LEDs

[0227] FIG. 7 Figure showing a conventional example of a hologram reproduction device incorporating many LEDs

[0228] FIG. 8 Figure showing the reproduced image seen from directly in front when illuminated by many LEDs

[0229] FIG. 9 Figure showing an example of a hologram medium in which the present invention is applied

[0230] FIG. 10 Figure showing an example of a hologram reproduction device in which the present invention is applied

[0231] FIG. 11 Figure showing the conditions of reading of a holographic barcode in which the present invention is applied

[0232] FIG. 12 Figure showing the conditions of reading of a holographic barcode in which the present invention is applied

[0233] FIG. 13 Figure showing examples of hologram media in which the present invention is applied

[0234] FIG. 14 Figure showing the reconstruction of a holographic barcode from partial captured data

[0235] FIG. 15 Figure showing an example of a card to which a holographic barcode is attached

[0236] FIG. 16 Figure showing an example of a device to facilitate reading of a holographic barcode

[0237] FIG. 17 Figure showing an example of a box incorporating a holographic barcode

[0238] FIG. 18 Figure showing an example of a flow chart for displaying guides on a portable information console

[0239] FIG. 19 Figure showing an example of a see-through display in the form of glasses and incorporating a device for reading holographic barcodes

[0240] FIG. 20 Figure showing an example of a partition guide pole incorporating a device for reading holographic barcodes

EXPLANATION OF THE NUMBERING

[0241] 3: hologram recording medium [0242] 4: base film [0243] 5: photopolymer layer [0244] 10: holographic stereogram production apparatus [0245] 900: medium [0246] 901: card-shaped support [0247] 902: hologram [0248] 903, 904: two-dimensionally printed barcode [0249] 905: holographic barcode [0250] 910: AC inlet [0251] 911: USB connector [0252] 913: platform [0253] 914: smartphone [0254] 915: speaker [0255] L1-L7: LED light sources [0256] HB1, HB2, HB3: holographic barcodes [0257] PB1a, PB1b, PB2, PB3: two-dimensionally printed barcodes [0258] 955: battery housing [0259] 960: bracket [0260] 965: switch [0261] 969: desk [0262] 980: movable light-source penlight [0263] 981: sliding rail [0264] 982: sliding unit [0265] L1-L7 light sources [0266] LX1, LX2: LEDs

IMAGE RECOGNITION SYSTEM, IMAGE RECOGNITION METHOD, HOLOGRAM RECORDING MEDIUM, HOLOGRAM PLAYBACK DEVICE, AND IMAGE CAPTURE DEVICE

Inventors

Cpc classification

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B42D25/328

PERFORMING OPERATIONS; TRANSPORTING

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G06K7/1404

PHYSICS

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G03H2001/2292

PHYSICS

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G06V10/145

PHYSICS

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G06K7/10732

PHYSICS

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G06V20/95

PHYSICS

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G03H1/0005

PHYSICS

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G03H1/0011

PHYSICS

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G03H2001/2247

PHYSICS

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G06V10/247

PHYSICS

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G06K19/16

PHYSICS

Classification Explorer

G03H2001/2244

PHYSICS

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G03H1/22

PHYSICS

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G03H1/268

PHYSICS

Classification Explorer

G06V10/88

PHYSICS

Classification Explorer

G06V10/95

PHYSICS

Classification Explorer

G06K7/10

PHYSICS

Classification Explorer

G03H1/2286

PHYSICS

International classification

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G06K7/10

PHYSICS

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G06K9/20

PHYSICS

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G03H1/22

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G03H1/00

PHYSICS

Abstract

Claims

Description