SYSTEMS, METHODS, AND APPLICATIONS FOR TRANSCODING DATA INTO MEDIA FILES

Organization Name

Arebus LLC

Inventor(s)

Edwin Zargarian of Arlington MA (US)

Eric Scott Bravick of Traverse City MI (US)

Sean Montgomery of Woodland Hills CA (US)

Andrew Rolfe of Glendale CA (US)

Hovannes Demirtshyan of Yerevan (AM)

SYSTEMS, METHODS, AND APPLICATIONS FOR TRANSCODING DATA INTO MEDIA FILES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240214359 titled 'SYSTEMS, METHODS, AND APPLICATIONS FOR TRANSCODING DATA INTO MEDIA FILES

The abstract describes a computer-implemented method that involves converting clear data from input files into transcoded data within a second file, which is user-recognizable as an audio and/or visual file. The transcoding process includes determining presentation properties, mapping encoding domains, generating presentation elements, and combining them to create the transcoded data for user recognition.

• Determining clear data from input files
• Generating a second file that is user-recognizable as an audio and/or visual file
• Transcoding clear data into transcoded data using encoding domains
• Determining presentation properties for the second file
• Mapping associated with encoding domains
• Generating presentation elements representing clear data values
• Combining presentation elements to create transcoded data for user recognition

Potential Applications: - Secure data transmission - Digital rights management - Anti-piracy measures

Problems Solved: - Protecting sensitive information - Preventing unauthorized access to data - Safeguarding intellectual property

Benefits: - Enhanced data security - Improved content protection - Secure digital communication

Commercial Applications: Title: Secure Data Transcoding Technology for Digital Rights Management This technology can be used in industries such as entertainment, healthcare, finance, and government to protect sensitive information and prevent unauthorized access to data. It can also be utilized by content creators, distributors, and service providers to ensure the security and integrity of their digital assets.

Prior Art: Researchers and developers in the field of data security and digital content protection have explored various methods for secure data transcoding and encryption. Relevant prior art may include patents, academic papers, and industry publications on data encryption, digital watermarking, and secure communication protocols.

Frequently Updated Research: Ongoing research in the field of data security and digital rights management focuses on improving encryption algorithms, developing secure communication protocols, and enhancing content protection mechanisms. Researchers are also exploring the use of artificial intelligence and machine learning techniques to strengthen data security and prevent unauthorized access to digital assets.

Questions about Secure Data Transcoding Technology: 1. How does this technology compare to traditional encryption methods for data protection? 2. What are the potential implications of this technology for industries that rely on secure data transmission and content protection?

Original Abstract Submitted

a computer-implemented method that comprises determining clear data from one or more input files, generating a second file, which is user-recognizable as an audio and/or visual file, by transcoding the clear data into transcoded data using at least one encoding domain, wherein the transcoded data within the second file is no longer user-recognizable as the clear data. transcoding clear data comprises: determining presentation properties for generating the second file according to presentation elements; determining a mapping associated with the at least one encoding domain; generating the presentation elements representing the clear data values of the clear data; and generating the transcoded data of the second file by combining, based on the presentation properties, the presentation elements such that, upon a presentation of the second file at a user interface, the transcoded data is audibly and/or visually user-recognizable based on the presentation properties.