JP3706238B2 - Encrypted photo processing system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an encrypted photographic processing system that encrypts image data, and more particularly to an encrypted photographic processing system that encrypts image data that is prohibited from being diverted for a specific purpose other than copyright.
[0002]
[Prior art]
When providing customers with photo-related services, a major collection lab is equipped with various equipment such as scanners, printers, and server computers with large-capacity disks (hereinafter referred to as image servers), and photographs taken by customers are used as image servers. Network photo service that provides various services such as ordering additional photos, attaching photo images to e-mails, downloading photo image data, etc. by storing and allowing customers to access the image server via the network Proposed. In such a service, a user can access the image server using predetermined application software on a personal computer and make an order for reprinting the above-described photo. On the other hand, in the laboratory, based on the photo processing order information from the customer, photo processing such as reprint printing, photo postcard creation, album creation, image composition, cropping, etc. is performed on the image data, and processing is performed. It is possible to take measures such as transferring the applied data to the customer or informing the customer that the processing has been completed by e-mail.
[0003]
Here, “photo processing order information” specifically refers to the processing number that specifies the service content (printing, postcard creation, etc.), the image number that specifies the photo, the print size, the number of prints, and the print quality (glossy) , No gloss), paper thickness, photo processing content, cropping designation, etc.
[0004]
On the other hand, in applications that handle image data such as popular talents with specific rights or copyrights or specific characters (hereinafter referred to as copyrighted image data), copyrighted image data must be provided for purposes other than specific purposes. You may want to ban. That is, if such copyrighted image data can be freely played back on a general computer, there is a risk of infringement of portrait rights and copyrights, so print only in a specific authorized laboratory. Must be allowed and not used for other purposes.
[0005]
For this reason, there has been proposed a method for providing encrypted image data so that it can be decrypted only by a laboratory that allows application software and print output (Method 1). This is so that only the application software and a specific laboratory can decrypt the encrypted image data, so that the application software and the specific laboratory cannot output copyrighted image data for purposes other than the intended purpose. To do.
[0006]
In addition, a method has been proposed in which high-resolution image data of a copyrighted template or clip art image is stored in a laboratory in advance, and only low-resolution image data that can be leaked in an application is provided. (Method 2). In this method, when combining images using low-resolution images in an application, only the information for combining images without completing image combining, that is, only the ID number of the template and the clip art image is composited. This file is sent to the laboratory as a file, and the image is synthesized using this information only in the laboratory. According to this method, since high-resolution copyrighted image data exists only in the laboratory, the outflow of high-resolution images can be prevented.
[0007]
[Problems to be solved by the invention]
However, in the case of the method 2 described above, it is necessary to completely associate the high-resolution image data stored in the lab with the low-resolution image data used in the application. Therefore, it is necessary to change the image data of the laboratory and the image data of the application at the same time. In addition, in the application, even if the customer is a person other than the authorized person, the low-resolution image data can be freely used. Therefore, there is a possibility that the copyrighted image data is leaked although the resolution is low.
[0008]
In the case of Method 1 described above, there is no problem as in Method 2, but if the encryption method is different for each application in order to prevent free exchange of copyrighted image data among multiple applications, In this case, it is necessary to prepare a decryption function corresponding to a plurality of applications, and it is necessary to perform processing by determining in which application the encrypted image is encrypted. When the number of applications increases, the burden on the lab becomes very large.
[0009]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an encrypted photo processing system that can prevent the outflow of image data with copyright and can reduce the burden on the laboratory.
[0010]
[Means for Solving the Problems]
A first encrypted photo processing system according to the present invention is an encrypted photo processing system that encrypts image data, decrypts the encrypted image data, and performs photo processing.
Image encryption means for encrypting the image data based on a predetermined image encryption parameter; and parameter encryption means for encrypting the predetermined image encryption parameter based on a public key encryption key. With applications, and
Parameter decrypting means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key, and the encrypted image encryption parameter based on the decrypted image encryption parameter It is characterized by comprising a laboratory equipped with image decoding means for decoding image data and photographic processing means for performing photographic processing on the decoded image data.
[0011]
A second encrypted photo processing system according to the present invention is an encrypted photo processing system that encrypts image data, decrypts the encrypted image data, and performs photo processing.
Image encryption means for encrypting the image data based on a predetermined image encryption parameter; and parameter encryption means for encrypting the predetermined image encryption parameter based on a public key encryption key. A first application with
A second application for providing photo processing order information to the encrypted image data and the encrypted image encryption parameter; and
Parameter decrypting means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key, and the encrypted image encryption parameter based on the decrypted image encryption parameter An image decoding means for decoding image data, and a photo processing means for performing photo processing on the decoded image data based on the photo processing order information, To do.
[0012]
Here, the “image encryption parameter” is a parameter for encrypting an image by a secret key encryption method, and an encryption key for encrypting image data in an application and image data in a laboratory are decrypted. Therefore, the decryption key for this is common. In the secret key method, characters in an unencrypted document (plain text) are rearranged to be encrypted, and the rearrangement method is described in the key. Known secret key cryptosystems include DES (Data Encryption Standard), IDEA (International Data Encryption Algorithm), and the like. DES is a secret key encryption system established by the US Bureau of Commerce Standards Bureau, and converts 64-bit plaintext into 64-bit encryption using a 64-bit key. IDEA is a secret key cryptosystem designed to be efficiently calculated by software, and converts plain text in 64-bit units into 64-bit ciphers using a 128-bit key. This image encryption parameter is randomly generated by the application every time and can be used to encrypt the image data.
[0013]
It should be noted that different image encryption parameters are used each time image data is encrypted, and it is necessary to prevent others from knowing unless it is decrypted with a decryption key. For this reason, a random number is used as the image encryption parameter.
[0014]
Also, the “public key scheme” is a scheme in which a key to be encrypted and a key to be decrypted are different from a secret key cryptosystem, and is called an asymmetric cryptosystem. There is a one-to-one correspondence between the encryption key and the decryption key in the public key method, and the image encryption parameter encrypted with the encryption key can be decrypted only with the decryption key corresponding to the encryption key. If this encryption key is disclosed, only a specific person who has a corresponding decryption key can decrypt the cipher encrypted with this encryption key. Therefore, it is effective when many people send information that can be decoded only by a specific person to this specific person. As this public key cryptosystem, an RSA (Rivest, Shamir, Adleman) scheme which is a public key cryptosystem using prime factors is known.
[0015]
Furthermore, “photo processing order information” specifically refers to the service number (printing, creating postcards, creating albums, compositing images, etc.), processing number for specifying the service content, image number for specifying the photo, print size, print It is the number of prints, the designation of trimming, the print surface quality (glossy, dull), and the contents of photo processing.
[0016]
In the second encrypted photo processing system according to the present invention, it is preferable that the photo processing order information includes composite information of the encrypted image data and the unencrypted image data.
[0017]
In the first and second encrypted photo processing systems according to the present invention, it is preferable that the decryption key in the laboratory is encrypted, and further, the encrypted decryption key is stored under a predetermined condition. It is preferable that only decoding is possible.
[0018]
Here, “predetermined conditions” means, for example, a variable embedded in software used for reproducing image data in a laboratory, an ID unique to a device used in a laboratory, an expiration date, etc. This means a state in which it is determined that the lab trying to decrypt the key is a lab that is permitted to decrypt image data.
[0019]
Further, the first and second encrypted photo processing systems according to the present invention preferably further comprise copyright information giving means for giving copyright information to the encrypted image data. It is preferable to further include a count processing means for performing a count process based on the copyright information every time the photo processing is performed on the converted image data.
[0020]
Here, the “count process” refers to a process of adding the number of times the image data is processed each time a photographic process is performed on the decoded image data.
[0021]
A first encrypted photo processing method according to the present invention is an image encryption method for encrypting image data,
The image data is encrypted based on a predetermined image encryption parameter, and the predetermined image encryption parameter is encrypted based on a public key encryption key.
[0022]
A second encrypted photo processing method according to the present invention is an image encryption method for encrypting image data,
The image data is encrypted based on a predetermined image encryption parameter, and the predetermined image encryption parameter is encrypted based on a public key encryption key, and the encrypted image data and the encryption The image processing order information is added to the converted image encryption parameter.
[0023]
The photo processing order information in the second encrypted photo processing method preferably includes synthesis information of the encrypted image data and the unencrypted image data.
[0024]
Furthermore, it is preferable that copyright information is given to the encrypted image data.
[0025]
A first decrypted photo processing method according to the present invention is a decrypted photo processing method for performing photo processing by decrypting image data encrypted by the first encrypted photo processing method according to the present invention,
Decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key; decrypting the encrypted image data based on the decrypted image encryption parameter; The decrypted image data is subjected to photographic processing.
[0026]
A second decrypted photo processing method according to the present invention is a decrypted photo processing method for performing photo processing by decrypting the image data encrypted by the second encrypted photo processing method according to the present invention,
Decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key; decrypting the encrypted image data based on the decrypted image encryption parameter; The decrypted image data is subjected to photo processing based on the photo processing order information.
[0027]
In the decrypted photo processing method according to the present invention, it is preferable that the decryption key is encrypted, and further, the encrypted decryption key can be decrypted only under a predetermined condition. preferable. Further, when copyright information is given to the encrypted image data, it is preferable to perform a counting process based on the copyright information every time the photo process is performed.
[0028]
A first encrypted photo processing apparatus according to the present invention is an image encryption apparatus for encrypting image data,
Image encryption means for encrypting the image data based on predetermined image encryption parameters;
Parameter encryption means for encrypting the predetermined image encryption parameter based on a public key encryption key is provided.
[0029]
A second encrypted photo processing apparatus according to the present invention is an image encryption apparatus for encrypting image data,
Image encryption means for encrypting the image data based on predetermined image encryption parameters;
Parameter encryption means for encrypting the predetermined image encryption parameter based on a public key encryption key;
Photo processing order information adding means for adding photo processing order information to the encrypted image data and the encrypted image encryption parameter is provided.
[0030]
Further, it is preferable that the photo processing order information in the second encrypted photo processing apparatus includes composite information of the encrypted image data and the unencrypted image data.
[0031]
Furthermore, it is preferable that a copyright information giving unit for giving copyright information to the encrypted image data is provided.
[0032]
A first decryption photo processing apparatus according to the present invention is a decryption photo processing apparatus that decrypts image data encrypted by the first encrypted photo processing apparatus according to the present invention and performs photo processing,
Parameter decrypting means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key;
Image decryption means for decrypting the encrypted image data based on the decrypted image encryption parameter;
And a photographic processing means for performing photographic processing on the decoded image data.
[0033]
A second decryption photo processing apparatus according to the present invention is a decryption photo processing apparatus that performs photo processing by decrypting the image data encrypted by the second encryption photo processing apparatus according to the present invention,
Parameter decrypting means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key;
Image decryption means for decrypting the encrypted image data based on the decrypted image encryption parameter;
And a photographic processing means for performing photographic processing on the decoded image data based on the photographic processing order information.
[0034]
In the decrypted photo processing apparatus according to the present invention, it is preferable that the decryption key is encrypted, and that the encrypted decryption key can be decrypted only under a predetermined condition. preferable. In addition, when copyright information is given to the encrypted image data, it is preferable to include a count processing unit that performs a count process based on the copyright information every time the photo process is performed.
[0035]
【The invention's effect】
According to the encrypted photo processing system of the present invention, when an image is encrypted in an application, the image data is encrypted based on a predetermined image encryption parameter, and the image encryption parameter is further encrypted by a public key method. Encrypt based on the key. When the encrypted image data and the image encryption parameter are decrypted in the laboratory, the encrypted image encryption parameter is first decrypted based on the decryption key corresponding to the encryption key in the application and decrypted. The image data is decrypted with the image encryption parameter thus set, and the decrypted image data is subjected to photo processing. As described above, in the present invention, an image is encrypted with an image encryption parameter in an application, and the image encryption parameter is encrypted with a public key encryption key. A person who does not know the decryption key for decryption cannot decrypt the image data and perform photo processing, thereby preventing outflow of the image data other than the intended use. In addition, since the image encryption parameters are encrypted using the common public key encryption key and decryption key in the application and the lab, the encryption method in the application can be shared. Since it is not necessary to have a different decoding function for each, the burden on the laboratory can be reduced.
[0036]
Further, by further encrypting the decryption key in the lab, it is possible to prevent the image data from being freely decrypted in the lab, thereby reliably preventing the outflow of the image from the lab.
[0037]
Further, in the second encrypted photo processing system according to the present invention, the non-encrypted image is obtained by including the composite information of the encrypted image data and the unencrypted image data in the photo processing order information. Since it is not necessary to perform decryption processing on data (for example, image data without copyright), processing in an application and a laboratory can be performed efficiently.
[0038]
Further, by assigning copyright information to the encrypted image data, it is possible to confirm whether or not the image data to be decrypted in the laboratory has a copyright. At this time, every time photo processing is performed on the decrypted image data, the image processing fee is paid to the copyright holder according to the number of prints, for example, by performing a counting process based on the copyright information. In addition, the copyright holder can reliably collect the image usage fee from the laboratory that has permitted the use of the image data.
[0039]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0040]
FIG. 1 is a block diagram showing a configuration of an encrypted photo processing system according to an embodiment of the present invention. As shown in FIG. 1, the encrypted photo processing system according to this embodiment includes an application 1 that handles image data and a laboratory 2.
[0041]
Application 1 includes application software for synthesizing image data and encryption software for encrypting image data. The lab 2 incorporates decryption software for decrypting encrypted image data and an image encryption parameter described later.
[0042]
Next, the operation of this embodiment will be described.
[0043]
First, in the application 1, the print request image data S requested to be printed in the laboratory 2 is encrypted. This encryption is performed by an encryption method such as DES or IDEA described above based on the image encryption parameter P by a secret key encryption method. On the other hand, the image encryption parameter P is encrypted with a public key encryption key K1. The lab 2 stores a decryption key K2 corresponding to the encryption key K1 on a one-to-one basis. As a result, encrypted image data (hereinafter referred to as encrypted image data) S ′ and encrypted image encryption parameter (hereinafter referred to as encrypted parameter) P ′ are obtained and sent to the laboratory 2. .
[0044]
The image encryption parameter P needs to be different every time when the print request image data S is encrypted, so that it cannot be understood by others unless it is decrypted by a decryption key in the laboratory 2 described later. There is. For this reason, a random number is used as the image encryption parameter P.
[0045]
On the other hand, in the laboratory 2, the encryption parameter P ′ is decrypted with the decryption key K2 corresponding to the encryption key K1 of the application 1. The decryption key K2 is encrypted in the laboratory 2 so that it cannot be easily used by a general person, and the decryption of the encrypted decryption key K2 ′ is performed by special software. This software operates by determining the variables embedded in the software used for printing, the ID unique to the equipment used in the lab 2, the expiration date, and the like when decrypting the encrypted decryption key K2 '. . Further, the obtained decryption key K2 is designed to automatically disappear immediately after being used for decryption of the encryption parameter P ′. By encrypting the decryption key K2 in this way, the decryption key K2 ′ encrypted only for a specific device for a specific purpose can be decrypted. Even if it leaks, this decryption key K2 'cannot be decrypted. Therefore, the encrypted image data S ′ cannot be decrypted, and as a result, the outflow of the image data S can be prevented.
[0046]
Next, in the laboratory 2, the encrypted image data S ′ is decrypted by using the image encryption parameter P decrypted by the decryption key K2, and print request image data S is obtained. To finish the processing. The print request image data S that has been subjected to the photo processing in the lab 2 in this way is used for reproduction in a printer or the like.
[0047]
As described above, in the present embodiment, the application 1 encrypts an image with the image encryption parameter P, and the image encryption parameter P is also encrypted with the public key encryption key K1. Thus, the encryption parameter P ′ can be decrypted only in the laboratory 2 having the decryption key K2 corresponding to. Therefore, a person who does not know the decryption key K2 for decrypting the encryption parameter P ′ cannot use the image data S, thereby preventing the image data S from being leaked for purposes other than the intended use. In addition, since the image encryption parameter P is encrypted with the common public key encryption key K1 and the decryption key K2 in the application 1 and the lab 2, the encryption method in the plurality of applications 1 is made common. As a result, the lab 2 does not need to have a different decryption function for each application, and the burden on the lab 2 can be reduced.
[0048]
In order to prevent the outflow of copyrighted image data that requires encryption, it is necessary to encrypt the image data S as in the present embodiment. It is not efficient because it takes time. For this reason, it is preferable that only the image data S with copyright is encrypted, and the image data S that does not need to be encrypted is sent as it is to the lab 2 without being encrypted. In this case, it is only necessary to send composite information of a plurality of pieces of image data including copyrighted image data S to the lab 2 as a composite file. In the lab 2, only the encrypted image data S ′ is decrypted based on the composite information. do it.
[0049]
In the above embodiment, the image processing order information for setting the image print size, the number of prints, the print surface quality (glossy, matte), the paper thickness, the contents of the photo processing, and the like is encrypted image data S ′. Further, it may be sent to the laboratory 2 by giving it to the encryption parameter P ′. At this time, in the laboratory 2, the photo processing is performed on the image data S decrypted based on the assigned photo processing order information. Note that the above-described composite information may be added to the photo processing order information and sent to the laboratory 2.
[0050]
Furthermore, in the above embodiment, since the application 1 encrypts the image data S, it is necessary to handle the unencrypted image data S in the application 1, and the unencrypted image data S is taken out without permission. Could be misused. In order to prevent this, it is preferable to adopt the following method. That is, the copyright holder encrypts the image data S in advance, creates the encrypted image data S ′ and the encryption parameter P ′, and provides them to the application 1. At the same time, an image sample for notifying what kind of image the encrypted image data S ′ represents is provided. Specifically, the image sample may be an image representing only an outline, a low-resolution image, or a printed material. The application 1 selects the encrypted image data S ′ to be used using the image sample, and sends the selected encrypted image data S ′ and the encryption parameter P ′ to the laboratory 2. As a result, there is no image data S that can be used as it is in the application 1, and the encrypted image data S ′ cannot be decrypted, so that the copyrighted image data from the application 1 can be prevented from flowing out. . Even in this case, the synthesized image data and characters may be combined with the encrypted image data S ′ and the encrypted parameter P ′, or the combined information is added to the photo processing order information. 2 may be sent.
[0051]
Further, in the above embodiment, the copyright information may be attached to the encrypted image data S ′ and sent to the lab 2, thereby confirming whether or not the image data S to be decrypted by the lab 2 is copyrighted. can do. At this time, it is preferable that the lab 2 performs a counting process of adding the number of times of processing each time the image data S to which the copyright information is given is processed. This makes it easy for the lab 2 to pay, for example, an image usage fee according to the number of prints to the copyright holder. For the copyright owner, the image usage fee is received from the lab 2 that permits the use of the image data S. It can be collected with certainty.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an encrypted photo processing system according to an embodiment of the present invention.
[Explanation of symbols]
1 Application
2 Lab

Claims (19)

An encrypted photo processing system that encrypts copyrighted image data having a copyright , decrypts the encrypted image data with copyright, and performs photo processing,
Image encryption means for encrypting the copyrighted image data based on a predetermined image encryption parameter, and parameter encryption for encrypting the predetermined image encryption parameter based on a public key encryption key A first application comprising means,
The encrypted image data with copyright and the encrypted image encryption parameter are combined with the encrypted image data with copyright and unencrypted image data without copyright. A second application for providing photo processing order information including composite information for decoding, and parameter decryption means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key And image decrypting means for decrypting the encrypted copyrighted image data based on the decrypted image encryption parameter, and the photographic processing for the decrypted copyrighted image data A lab comprising a photographic processing means for performing photographic processing including image synthesis with image data without copyright based on order information. Encrypted photo processing system. 2. The encrypted photo processing system according to claim 1, wherein the decryption key is encrypted . 3. The encrypted photo processing system according to claim 2, wherein the encrypted decryption key can be decrypted only under a predetermined condition . 4. The encrypted photo processing system according to claim 1, further comprising copyright information giving means for giving copyright information to the encrypted image data with copyright . 5. The counter processing apparatus according to claim 4, further comprising: a count processing unit that performs a count process based on the copyright information every time the photo processing is performed on the copyrighted image data decrypted in the laboratory. encryption photographic processing system. An image encryption method for encrypting copyrighted image data having a copyright,
The copyrighted image data is encrypted based on a predetermined image encryption parameter, and the predetermined image encryption parameter is encrypted based on a public key encryption key, and the encrypted copyright is Photographic processing including image information of the encrypted image data with copyright and the unencrypted image data without copyright in the encrypted image data and the encrypted image encryption parameter An encrypted photo processing method characterized by adding order information . 7. The encrypted photo processing method according to claim 6, wherein copyright information is added to the encrypted image data with copyright . A decrypted photo processing method for performing photo processing by decrypting copyrighted image data encrypted by the encrypted photo processing method according to claim 6,
The encrypted image encryption parameter is decrypted based on a decryption key corresponding to the encryption key, and the copyrighted image data encrypted based on the decrypted image encryption parameter is A decrypted photograph characterized by decrypting and subjecting the decrypted copyrighted image data to photographic processing including the image composition with image data without the copyright based on the photographic processing order information Processing method . A decrypted photo processing method for decrypting copyrighted image data encrypted by the encrypted photo processing method according to claim 7 and performing photo processing,
The encrypted image encryption parameter is decrypted based on a decryption key corresponding to the encryption key, and the copyrighted image data encrypted based on the decrypted image encryption parameter is A decrypted photograph characterized by decrypting and subjecting the decrypted copyrighted image data to photographic processing including the image composition with image data without the copyright based on the photographic processing order information Processing method . 10. The decrypted photo processing method according to claim 8, wherein the decryption key is encrypted . 11. The decrypted photo processing method according to claim 10, wherein the encrypted decryption key can be decrypted only under a predetermined condition . 10. The decrypted photo processing method according to claim 9, wherein each time the photo processing is performed on the decrypted image data with copyright, a count processing is performed based on the copyright information . An image encryption apparatus for encrypting copyrighted image data having a copyright,
Image encryption means for encrypting the copyrighted image data based on predetermined image encryption parameters;
Parameter encryption means for encrypting the predetermined image encryption parameter based on a public key encryption key;
In order to combine the encrypted image data with copyright and the image data without encryption with the encrypted image data with the copyright and the encrypted image encryption parameter An encrypted photo processing apparatus, comprising: photo processing order information adding means for adding photo processing order information including the composite information . 14. The encrypted photo processing apparatus according to claim 13, further comprising copyright information giving means for giving copyright information to the encrypted image data with copyright . A decrypted photo processing apparatus for performing photo processing by decrypting copyrighted image data encrypted by the encrypted photo processing apparatus according to claim 13,
Parameter decrypting means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key;
Image decrypting means for decrypting the encrypted image data with copyright based on the decrypted image encryption parameter;
Photographic processing means for performing photographic processing including image synthesis on the decrypted copyrighted image data based on the photographic processing order information and image data without the copyright. A decrypted photo processing apparatus . A decrypted photo processing apparatus for performing photo processing by decrypting copyrighted image data encrypted by the encrypted photo processing apparatus according to claim 14,
Parameter decrypting means for decrypting the encrypted image encryption parameter based on a decryption key corresponding to the encryption key;
Image decrypting means for decrypting the encrypted image data with copyright based on the decrypted image encryption parameter;
Photographic processing means for performing photographic processing including image synthesis on the decrypted copyrighted image data based on the photographic processing order information and image data without the copyright. A decrypted photo processing apparatus . 17. The decrypted photo processing apparatus according to claim 15, wherein the decryption key is encrypted . 18. The decrypted photo processing apparatus according to claim 17, wherein the encrypted decryption key can be decrypted only under a predetermined condition . 17. The decoding according to claim 16, further comprising count processing means for performing count processing based on the copyright information each time the photo processing is performed on the decrypted image data with copyright. Photographic processing device .

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