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US-20260128907-A1 - Methods and systems of provisioning content authenticity

US20260128907A1US 20260128907 A1US20260128907 A1US 20260128907A1US-20260128907-A1

Abstract

The present invention discloses a system and method for provisioning content authenticity. The system comprises a computing device, a database in communication with the computing device via a network, and an author device associated with an author. The author device is in communication with the computing device via the network. The computing device is configured to receive identity data from the author device and verify the identity data of the author. The computing device generates a digital signature based on the identity data and embeds the digital signature into content data received from the author device. The computing device generates a content integrity score (CIS) for the content data and a verification badge based on the CIS. The CIS quantifies human input and AI contribution levels. The system transmits the verification badge data, comprising the content data and the digital signature, to an entity device to provide verifiable content authenticity.

Inventors

  • Alexandru E. Denes
  • Alexander Brandon Denes

Dates

Publication Date
20260507
Application Date
20251102

Claims (20)

  1. 1 . A system for provisioning content authenticity, comprising: at least one computing device comprising at least one processor and a memory storing a plurality of program modules; at least one database in communication with the computing device via a network, wherein the database comprises data related to author and data for providing content authenticity, and at least one author device associated with an author, in communication with the computing device via the network, wherein the computing device is configured to: receive an identity data from the author device and verify the identity data of the author; generate a digital signature data based on the identity data, wherein the generation is based on a signature artificial intelligence model; receive a content data from the author device; embed the digital signature data into the content data; generate a content integrity score (CIS) data for the content data and generate a verification badge data based on the content integrity score data, wherein the CIS data comprising a content integrity score is calculated based on at least one of an extent of manual author input, an extent of use of artificial intelligence tools, and an amount of artificial intelligence generated content within the content data, and transmit the verification badge data to an entity device, wherein the verification badge data comprises the content data comprising the digital signature data.
  2. 2 . The system of claim 1 , wherein the computing device is configured to generate the digital signature data by: transmitting the identity data to a certification authority entity, and receiving the digital certificate data from the certification authority entity, wherein the digital certificate data represents a certificate issued by the certification authority entity to validate the identity data, wherein the digital signature data comprises the digital certificate data.
  3. 3 . The system of claim 1 , wherein the computing device is configured to verify the identity data of the author by performing multi-factor authentication (MFA).
  4. 4 . The system of claim 1 , wherein the identity data comprises biometric data and identification documents issued by a certified authority, wherein the computing device is configured to analyse the biometric data and the identification documents to verify the identity data.
  5. 5 . The system of claim 1 , wherein the computing device is configured to verify the identity data of the author by: generating a verification query data based on the identity data; transmitting the verification query data to the author device, and receiving a verification response data based on the verification query data from the author device.
  6. 6 . The system of claim 1 , wherein the computing device is further configured to: transform the content data comprising the digital signature data into a plurality of content data comprising the corresponding digital signature data; perform a first analysis of the plurality of the content data; generate a hierarchical content data structure comprising the plurality of content data comprising the corresponding digital signature data, and store the hierarchical content data structure, wherein the hierarchical content data structure is associated with a corresponding index data, wherein the hierarchical content data structure is accessed based on the corresponding index data.
  7. 7 . The system of claim 1 , wherein the computing device is further configured to: transform the identity data into a plurality of identification data; performing a second analysis of the plurality of the identification data, and generating a hierarchical data structure comprising the plurality of identification data, wherein the generating is based on the second analysis, wherein each identification data is associated with an index data configured to allow accessing the corresponding identity data within the hierarchical data structure based on the index data.
  8. 8 . The system of claim 1 , wherein the computing device is further configured to: transform the content data comprising the digital signature data into a plurality of content data comprising the corresponding digital signature data; perform a third analysis of the plurality of the content data; generate a plurality of blocks comprising the plurality of content data comprising the corresponding digital signature data, and transmit the plurality of blocks across the network associated with a plurality of devices, wherein the plurality of device comprises at least one of the author devices and the entity device.
  9. 9 . The system of claim 8 , wherein the computing device is further configured to: receive alternate content data from the author device, and update the plurality of blocks based on the alternate content data.
  10. 10 . The system of claim 1 , wherein the verification badge data comprises at least one of the content data and a public key data.
  11. 11 . The system of claim 1 , wherein the computing device is further configured to transmit the verification badge data and content integrity score to a blockchain node for storage in a distributed ledger.
  12. 12 . The system of claim 1 , wherein the computing device is configured to receive the content data by: provide an author interface at the author device configured to allow creation, editing, and uploading of the content data; perform ongoing biometric verification of the author during content creation; generate a hash value of the content data; automatically generate metadata associated with the content data, and transmit the hash value and the metadata to the blockchain node for storage in the distributed ledger, wherein the distributed ledger is maintained by a plurality of blockchain nodes across the network.
  13. 13 . The system of claim 1 , wherein the verification badge data comprises verification badge, wherein the verification badge indicates one of human-generated content, human content assisted by artificial intelligence, content generated by artificial intelligence, or content generated through a combination of human input and artificial intelligence, wherein the verification badge is visually embedded within the content data.
  14. 14 . The system of claim 13 , wherein the verification badge is selectable to display details about the content integrity score and the level of human versus artificial intelligence involvement in creating the content data.
  15. 15 . The system of claim 1 , wherein content data, after embedding the digital signature data and verifying originality, is time-stamped and recorded on the blockchain ledger comprising a log of subsequent changes to the content data.
  16. 16 . The system of claim 13 , wherein the blockchain ledger is publicly accessible for verification of authorship, metadata, digital signature data, verification badge, content integrity score, version history, and subsequent modifications of the content data.
  17. 17 . A method for provisioning content authenticity, comprising: providing at least one computing device comprising at least one processor and a memory storing a plurality of program modules, at least one database in communication with the computing device via a network, and at least one author device associated with an author, in communication with the computing device via the network, wherein the database comprises data related to author and data for providing content authenticity; receiving, at the computing device, an identity data from the author device and verify the identity data of the author; generating, at the computing device, a digital signature data based on the identity data, wherein the generation is based on a signature artificial intelligence model; receiving, at the computing device, a content data from the author device; embedding, at the computing device, the digital signature data into the content data; generating, at the computing device, a content integrity score (CIS) data for the content data and generate a verification badge data based on the content integrity score data, wherein the CIS data comprising a content integrity score is calculated based on at least one of an extent of manual author input, an extent of use of artificial intelligence tools, and an amount of artificial intelligence generated content within the content data, and transmitting, at the computing device, the verification badge data to an entity device, wherein the verification badge data comprises the content data comprising the digital signature data.
  18. 18 . The method of claim 17 , wherein the computing device is configured to receive the content data by: providing an author interface at the author device configured to allow creation, editing, and uploading of the content data; performing ongoing biometric verification of the author during content creation; generating a hash value of the content data; automatically generating metadata associated with the content data, and transmitting the hash value and the metadata to the blockchain node for storage in the distributed ledger, wherein the distributed ledger is maintained by a plurality of blockchain nodes across the network.
  19. 19 . The method of claim 18 , wherein content data, after embedding the digital signature data and verifying originality, is time-stamped and recorded on the blockchain ledger comprising a log of subsequent changes to the content data.
  20. 20 . The method of claim 18 , wherein the blockchain ledger is publicly accessible for verification of authorship, metadata, digital signature data, verification badge, content integrity score, version history, and subsequent modifications of the content data.

Description

TECHNICAL FIELD The present invention generally relates to data processing. More specifically, the present invention relates to a system and method for provisioning of content authenticity. BACKGROUND The existing technologies for provisioning content authenticity are deficient with regard to several aspects. Furthermore, content authenticity is necessary to provide genuine credit to the author of the content. Furthermore, content authenticity may provide assurance to the readers about the originality of the content. Hence, providing trustworthy content to the reader. Further, the existing technologies are inefficient in providing verified content to the readers. Furthermore, the existing technologies further rely on third-party intermediaries for verifying authenticity between two or more parties. Such reliance reduces efficiency, increases cost, introduces bias, and creates additional security risks. Furthermore, the existing technologies are deficient in recording immutable content. Additionally, the existing technologies do not provide transparent mechanisms for validating the chain of custody of content from creation to distribution. Further, the existing technologies lack standardized methods for proving integrity when content is transferred, stored, or modified, thereby allowing potential manipulation to go undetected. In addition, the existing technologies fail to establish a universally trusted framework for verification that can operate independently of centralized control. These shortcomings further weaken reliability, limit scalability, and restrict adoption of content authenticity solutions. Therefore, there is a need for improved methods and systems for provisioning of content authenticity. SUMMARY The present invention discloses a system and method for provisioning of content authenticity. The system comprises at least one computing device comprising at least one processor and a memory storing a plurality of program modules. The system further comprises at least one database in communication with the computing device via a network. The system further comprises at least one author device associated with an author, the author device in communication with the computing device via the network. The computing device is configured to receive identity data from the author device and verify the identity data of the author. The computing device generates a digital signature data based on the identity data using a signature artificial intelligence model. The computing device is further configured to receive content data from the author device and embed the digital signature data into the content data. The computing device generates a content integrity score (CIS) data for the content data and a verification badge data based on the content integrity score data. The CIS data is calculated based on at least one of the extents of manual author input, the extent of use of artificial intelligence tools, and the amount of artificial intelligence-generated content within the content data. The computing device transmits the verification badge data to an entity device. The verification badge data comprises the content data including the digital signature data. In one embodiment, the computing device is configured to generate the digital signature data by transmitting the identity data to a certification authority entity and receiving digital certificate data from the certification authority entity. The digital certificate data represents a certificate issued by the certification authority entity to validate the identity data. The digital signature data comprises the digital certificate data. In another embodiment, the computing device verifies the identity data of the author by performing multi-factor authentication. The identity data comprises biometric data and identification documents issued by a certified authority, and the computing device analyzes the biometric data and the identification documents to verify the identity data. The computing device can also generate a verification query based on the identity data, transmit the verification query to the author device, and receive a verification response data from the author device. The computing device is further configured to transform the content data comprising the digital signature data into a plurality of content data comprising the corresponding digital signature data, perform a first analysis of the plurality of content data, generate a hierarchical content data structure comprising the plurality of content data, and store the hierarchical content data structure. The hierarchical content data structure is associated with a corresponding index data and can be accessed based on the index data. Similarly, the computing device transforms the identity data into a plurality of identification data, performs a second analysis of the plurality of identification data, and generates a hierarchical data structure comprising the plurality of identification data. Ea