Non-Entanglement Physical Shared Ad-Hoc Randomness (NEPSAR)

Organization Name

Unknown Organization

Inventor(s)

Gideon Samid of Rockville MD (US)

Non-Entanglement Physical Shared Ad-Hoc Randomness (NEPSAR) - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240015002 titled 'Non-Entanglement Physical Shared Ad-Hoc Randomness (NEPSAR)

Simplified Explanation

The abstract describes a patent application for a contraption consisting of rotating discs with randomized holes that allow a light fluid to rise into a chamber filled with a heavier fluid, creating a randomized stream of bubbles. The two fluids are non-soluble and have different electrical conductivity, resulting in a randomized curve of electrical resistance within the chamber over time. This resistance curve is shared among parties with duplicate contraptions and the same activation settings. The physical complexity of the contraptions ensures the security of the randomness against unauthorized parties. Unlike other solutions, this invention generates shared randomness without the need for communication between the parties.

• The contraption consists of rotating discs with randomized holes.
• A light fluid rises into a chamber filled with a heavier fluid, creating a randomized stream of bubbles.
• The two fluids have different electrical conductivity, resulting in a randomized curve of electrical resistance within the chamber over time.
• The resistance curve is shared among parties with duplicate contraptions and the same activation settings.
• The physical complexity of the contraptions ensures the security of the randomness.

Potential Applications:

• Random number generation for cryptographic purposes.
• Secure key generation for encryption algorithms.
• Simulations and modeling that require random inputs.
• Gambling and gaming industries that require fair and unbiased randomness.

Problems Solved:

• Generating shared randomness without the need for communication between parties.
• Ensuring the security of the randomness against unauthorized parties.
• Providing a physical and tangible solution for generating random numbers.

Benefits:

• Secure and reliable generation of shared randomness.
• Easy implementation and operation of the contraption.
• Physical complexity ensures the security of the randomness.
• Can be used in various industries and applications requiring random inputs.

Original Abstract Submitted

a stack of rotating discs drilled with randomized holes allow a light fluid l to rise into a chamber filled with heavier fluid h, as a randomized stream of bubbles. the two fluids are mutually non-soluble, and of different electric conductivity, hence the randomized stream of bubbles generates a randomized curve of electrical resistance within the chamber, over time; this output resistance curve is shared by all parties that have a duplicate of the contraption and apply the same activation settings. the physical complexity of the contraptions keeps the randomness secure against all parties not in possession of the contraption. unlike entanglement and bb84 solutions, this invention generates shared randomness without communicating the same between the parties.