Systems and Methods for Controlling Media Distribution
Media file distribution is be controlled by encrypting the media file by an application executed on a mobile device of the media file owner. The media file is encrypted using a media file encryption key. The media file encryption key is then separately encrypted using a public key of each intended recipient, and the encrypted media file encryption key is appended to the encrypted media file. Accordingly, only intended recipients will have the complementary private key to allow decryption of the encrypted media file encryption key, which once decrypted can be used to decrypt the encrypted media file itself.
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Exemplary embodiments of the present invention relate to systems and methods for controlling the distribution of media files.
Mobile devices, such as smart phones, tablets, and the like, are commonly used to capture pictures and videos, store them as media files, and distribute the stored media files to others. Because mobile devices provide a relatively easy way to distribute of media files, media files may be distributed beyond the intended recipient(s). For example, if Bob shares a media file with Cathy by e-mail or instant messaging, then Cathy can simply forward the media file to whomever she wishes. Bob's only way to control the further distribution of the media file is to ask Cathy not to further distribute it. Relying upon the trust of others to control distribution of media files is less than ideal because even if Bob currently has a very strong relationship with Cathy, this relationship may change and he may not trust her to control the distribution of the media file in view of the changed relationship.
SUMMARY OF THE INVENTIONExemplary embodiments of the present invention relate to systems and methods for controlling the distribution of media files. In accordance with exemplary embodiments of the present invention, media file distribution can be controlled by encrypting the media file by an application executed on a mobile device of the media file owner. The media file is encrypted using a media file encryption key. The media file encryption key is then separately encrypted using a public key of each intended recipient, and the encrypted media file encryption key is appended to the encrypted media file. Accordingly, only intended recipients will have the complementary private key to allow decryption of the encrypted media file encryption key, which once decrypted can be used to decrypt the encrypted media file itself.
The encrypted media file can also include a header with distribution restrictions, which control whether the encrypted media file can be redistributed by an intended recipient. If the distribution restrictions allow redistribution, the intended recipient can encrypt the media file encryption key using a further intended recipient's public key, so that the further intended recipient can use its private key to obtain the media file encryption key, which can then be used to decrypt the encrypted media file.
By encrypting the media file encryption key using an intended recipient's public key and including distribution restrictions along with the encrypted media file, the owner of the media file has more control over the extent of distribution of any of the owner's media files. Further, the load on the server storing the keys is reduced because each intended recipient is able to obtain the media file encryption key using their own private key, and thus the recipients do not need to separately obtain the media file encryption key from the server.
The description that follows describes an application executed by a mobile device to perform various functions. Those skilled in the art will recognize that mobile devices typically include one or more processors (e.g., a microprocessor, field programmable gate array (FPGA), application specific integrated circuit (ASIC)) and one or more memories to execute applications and perform the functions required by the applications. Accordingly, further details of the operations of such processors and memories are omitted in the description below for the sake of clarity.
Once registration is complete and a track address is obtained, the user can use the application to select a media file, which is one of a picture and video (step 115). Exemplary screens allowing a user of the mobile device to select a picture and video are respectively illustrated in
The selected media file is then encrypted with a media file encryption key (step 120). For example, referring to
The user of the mobile device then selects one or more intended recipients for the media file (step 125). This selection can be performed using the exemplary screens illustrated in
Once one or more intended recipients are selected (step 125), the application determines whether a public key is stored locally within the device for each of the selected intended recipients (step 130). The public key would be locally stored if, for example, an encrypted media file was previously sent to the selected intended recipients. If the public key is not locally stored for at least one of the intended recipients (“No” path out of decision step 130), then the public key is obtained from a server (step 135). Specifically, referring again to
If the intended recipient's public key is already stored locally within the sender's device (“Yes” path out of decision step 130) or after the public key is obtained from the server (step 135), the media file key is encrypted with the intended recipient's public key (step 140). For example, referring again to
Once the media file key is encrypted (step 140), then a header is generated, which includes encrypted data and publish control information (herein referred to as distribution restrictions) (step 145). The encrypted data is generated by applying Bob's public key Kpub
The distribution restrictions can indicate whether the intended recipient is allowed to redistribute the encrypted media file. For example, referring to
The application is designed so that only the media file owner is able to modify the distribution restrictions. This control is achieved by the application requiring that a mobile device first be able to decrypt the encrypted Kaes
If the owner of the media file wants to modify the distribution restrictions by selecting “Add Authorization”, the exemplary screen illustrated in
Finally, the header Thead
Once the header is generated (step 145), the owner transmits the encrypted media file to the intended recipients (step 150). This transmission function can be integrated into the application or can be performed by a separate application, such as an electronic mail or instant messaging application. The transmission function can also include posting to a website, such as a social media website, a media file sharing website, a blog, etc. Because the media file is encrypted, the website can be publically-accessible because only an authorized recipient will be able to decrypt the media file in the manner described below. In other words, although an unauthorized recipient can download the encrypted media file from the website to which it was posted, the unauthorized recipient would not be able to view the media file because the unauthorized recipient would not be able to decrypt it.
When the encrypted media file has been received (step 1615) and that user wishes to view the encrypted media file, the user launches the application of the present invention on his/her mobile device, selects the encrypted media file using the application, and the application attempts to decrypt the encrypted media file key that is at the end of the encrypted media file using the recipient's private key (step 1620). It will be recognized that a particular person's public key and private key are complementary keys and that encryption with a particular person's public key means the encrypted media file can only be decrypted using that particular person's private key. For example, referring again to
If the media file key was not encrypted with the recipient's public key then the decryption attempt will be unsuccessful (“No” path out of decision step 1625) and the recipient is informed of the unauthorized decryption attempt (step 1630). The application can also inform the server of the unsuccessful decryption attempt and the server can notify the media file owner. If, however, the media file key was encrypted with the recipient's public key then the decryption is successful (“Yes” path out of decision step 1625) and the encrypted media file is decrypted using the media file key and is displayed on the recipient's mobile device (step 1635). In accordance with exemplary embodiments of the present invention, the displayed media file can include a watermark with the track address of the owner and the recipient, an example of which is illustrated in
If the recipient decides to redistribute the decrypted media file to a further recipient (step 1640), the application on the recipient's mobile device reviews the distribution restrictions in the media file to determine whether further distribution is allowed (step 1645). If the distribution restrictions indicate that further distribution is not allowed (“No” path out of decision step 1645), then the recipient is informed that the media file may not be further distributed without authorization from the owner (step 1650).
If, however, the distribution restrictions indicate that further distribution is allowed (“Yes” path out of decision step 1645), then the media file key is encrypted with the further recipient's public key and transmit the encrypted media file to the further recipient (step 1655). For example, referring again to
The decrypted media file and the decrypted media file key are accessible only within the application of the present invention and is not otherwise available on the recipient's mobile device. This ensures that a recipient cannot simply forward the decrypted media file because the decrypted file is only available to the application, which prevents unauthorized redistribution.
It should be recognized that the methods of
The description above uses examples of mobile devices that are referred to as phones. It will be recognized that this is merely exemplary and that the present invention can be employed with any type of mobile device, including mobile telephones, tablets, personal digital assistants (PDAs), and the like.
The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.
Claims
1. A method, comprising:
- receiving, by an application executed on a first mobile device, a selection of a media file, wherein the media file is a picture or video, wherein the first mobile device is associated with an owner of the media file;
- receiving, by the application, an intended recipient of the selected media file;
- encrypting, by the application, the media file using a media file encryption key to produce an encrypted media file;
- encrypting, by the application, the media file encryption key using a public key of the intended recipient;
- attaching the encrypted media file encryption key to the encrypted media file;
- transmitting, by the application, the encrypted media file and attached encrypted media file encryption key to the intended recipient;
- receiving, by a second application on a second mobile device associated with the intended recipient, the encrypted media file;
- decrypting, by the second application, the encrypted media file key using a private key of the intended recipient to produce the media file encryption key;
- determining, by the second application, whether the received encrypted media file includes distribution restrictions indicating whether the encrypted media file can be redistributed by the recipient,
- wherein when the distribution restrictions indicate that the encrypted media file can be redistributed, the method further comprises receiving, by the second application, a further intended recipient of the decrypted media file; encrypting, by the second application, the media file encryption key using a public key of the further intended recipient; attaching the media file encryption key encrypted using the public key of the further intended recipient to the encrypted media file; and transmitting, by second application, the encrypted media file with the attached media file encryption key encrypted using the public key of the further intended recipient to the further intended recipient.
2. The method of claim 1, further comprising:
- decrypting, by the second application, the encrypted media file using the media file encryption key; and
- reproducing, by the second application, the decrypted media file on a screen of the second mobile device.
3. The method of claim 2, wherein the decrypted media file is reproduced with a watermark on the screen of the second mobile device.
4. The method of claim 3, wherein the watermark includes an identification of the owner of the media file and the intended recipient.
5. The method of claim 2, further comprising:
- receiving, by the application executed on the first mobile device, the distribution restrictions for the selected media file; and
- adding, by the application executed on the first mobile device, the distribution restrictions to the encrypted media file.
6. A method, comprising:
- receiving, by an application executed on a first mobile device, a selection of a media file, wherein the media file is a picture or video, wherein the first mobile device is associated with an owner of the media file;
- receiving, by the application, an intended recipient of the selected media file;
- encrypting, by the application, the media file using a media file encryption key to produce an encrypted media file;
- encrypting, by the application, the media file encryption key using a public key of the intended recipient;
- attaching the encrypted media file encryption key to the encrypted media file;
- transmitting, by the application, the encrypted media file and attached encrypted media file encryption key to the intended recipient;
- receiving, by a second application on a second mobile device associated with the intended recipient, the encrypted media file;
- decrypting, by the second application, the encrypted media file key using a private key of the intended recipient to produce the media file encryption key;
- decrypting, by the second application, the encrypted media file using the media file encryption key; and
- reproducing, by the second application, the decrypted media file on a screen of the second mobile device.
- receiving, by the application executed on the first mobile device, distribution restrictions for the selected media file; and
- adding, by the application executed on the first mobile device, the distribution restrictions to the encrypted media file,
- wherein the distribution restrictions indicate whether the encrypted media file can be redistributed by the recipient,
- wherein when the distribution restrictions indicate that the encrypted media file can be redistributed, the method further comprises receiving, by the second application, a further intended recipient of the decrypted media file; encrypting, by the second application, the media file encryption key using a public key of the further intended recipient; attaching the media file encryption key encrypted using the public key of the further intended recipient to the encrypted media file; and transmitting, by second application, the encrypted media file with the attached media file encryption key encrypted using the public key of the further intended recipient to the further intended recipient.
7. The method of claim 6, wherein the distribution restrictions indicate a number of possible redistributions of the encrypted media file and a current number of distributions of the encrypted media file.
8. The method of claim 7, wherein the second application increments the current number of distributions and includes the number of possible distributions and the incremented current number of distributions in the further encrypted file.
9. The method of claim 1, further comprising:
- receiving, by the application, an identification of the intended recipient;
- transmitting, by the application to a server, the identification of the intended recipient; and
- receiving, by the application from the server, the public key of the intended recipient.
10. The method of claim 9, further comprising:
- storing, by the application, the identification of the intended recipient and the public key of the intended recipient;
- receiving, by the application, a recipient group for the intended recipient; and
- displaying, by the application, the intended recipient in the recipient group on a screen of the first mobile device.
11. The method of claim 1, wherein the transmission of the encrypted media file is by electronic mail or instant messaging.
12. The method of claim 1, wherein the transmission of the encrypted media file is by posting the encrypted media file on a website.
13. The method of claim 1, wherein when the application executed on the first mobile device receives a selection of a plurality of intended recipients of the selected media file, the application separately encrypts the media file key using a public key of each of the selected plurality of intended recipients and attaches each of the separately encrypted media file keys to the encrypted media file prior to transmitting the encrypted media file.
14-18. (canceled)
19. The method of claim 1, wherein the distribution restrictions indicate a number of possible redistributions of the encrypted media file and a current number of distributions of the encrypted media file.
20. The method of claim 19, wherein the second application increments the current number of distributions and includes the number of possible distributions and the incremented current number of distributions in the further encrypted file.
21. A method, comprising:
- receiving, by a second application executed on a second mobile device from a first application executed on a first mobile device, an encrypted media file, wherein the first mobile device is associated with an owner of the media file, the second mobile device is associated with an intended recipient of the encrypted media file, the media file is encrypted using a media file encryption key, the media file encryption key is encrypted using a public key of intended recipient, and the encrypted media file encryption key is attached to the received encrypted media file;
- decrypting, by the second application, the encrypted media file key using a private key of the intended recipient to produce the media file encryption key;
- determining, by the second application, whether the received encrypted media file includes distribution restrictions indicating whether the encrypted media file can be redistributed by the recipient,
- wherein when the distribution restrictions indicate that the encrypted media file can be redistributed, the method further comprises receiving, by the second application, a further intended recipient of the decrypted media file; encrypting, by the second application, the media file encryption key using a public key of the further intended recipient; attaching the media file encryption key encrypted using the public key of the further intended recipient to the encrypted media file; and transmitting, by second application, the encrypted media file with the attached media file encryption key encrypted using the public key of the further intended recipient to the further intended recipient.
22. The method of claim 21, wherein the distribution restrictions indicate a number of possible redistributions of the encrypted media file and a current number of distributions of the encrypted media file.
23. The method of claim 22, wherein the second application increments the current number of distributions and includes the number of possible distributions and the incremented current number of distributions in the further encrypted file.
Type: Application
Filed: Jun 2, 2014
Publication Date: Dec 3, 2015
Applicant: Atlanta DTH Inc (Norcross, GA)
Inventor: Michael Day (Norcross, GA)
Application Number: 14/293,305