NON-HACKABLE DIGITAL IDENTITY

Organization Name

C2 Vault LLC

Inventor(s)

Tommie Andrè Andreassen Nepstad of Bergen (NO)

Jesse Vikjart Erland of Pueblo CO (US)

Melvin James Bullen of Houston TX (US)

NON-HACKABLE DIGITAL IDENTITY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240022404 titled 'NON-HACKABLE DIGITAL IDENTITY

Simplified Explanation

The abstract of the patent application describes a non-hackable digital identity system that involves registering high-resolution digital images of retinas, mapping blood flow, creating arterial and venal circulation system maps, storing the retinal image as a binary large image in memory, and creating and encrypting a retinal key.

• The system aims to create a secure digital identity by utilizing retinal images and mapping the blood flow and circulation system.
• The retinal image is stored in memory as a binary large image consisting of pixels, allowing for easy retrieval and analysis.
• A retinal key is created and encrypted to further enhance the security of the digital identity.
• The system ensures that the digital identity is non-hackable, providing a high level of security.

Potential Applications:

• Secure authentication systems for various industries, such as banking, healthcare, and government sectors.
• Access control systems for restricted areas, ensuring only authorized individuals can enter.
• Identity verification processes for online transactions and digital services.
• Biometric identification systems for law enforcement and border control.

Problems Solved:

• Addressing the issue of hacking and identity theft by providing a non-hackable digital identity system.
• Enhancing the security of authentication and access control systems.
• Improving the accuracy and reliability of identity verification processes.

Benefits:

• Increased security and protection against identity theft and hacking attempts.
• Improved accuracy and reliability of authentication and access control systems.
• Simplified and efficient identity verification processes.
• Potential for reducing fraud and unauthorized access to sensitive information.

Original Abstract Submitted

in accordance with one or more embodiments of the invention, a non-hackable digital identity, including a method of service registration including high resolution digital images of retinas, mapping blood flow, creating arterial and venal circulation system maps, storing the retinal image in memory as a binary large image, consisting of pixels, creating and encrypting a retinal key.