Noise-Based Communication (NBC)
In today’s digital landscape, secure communication is more crucial than ever. However, the current
communication technologies, despite their widespread use, are vulnerable to various attacks. The
encryption methods employed to secure messages are constantly being collected and stored, with the
hope of being decrypted in the near future using quantum computers. The mathematical foundations of
popular algorithms, such as AES256 for encryption and SHA256 for hashing, are susceptible to being
cracked by quantum computers. Moreover, the existence of encrypted messages is often easily
detectable, making deniability implausible. These factors contribute to a large attack surface, posing
significant challenges to achieving truly uncrackable communications
PureCipher’s NBC technology offers a groundbreaking solution to the aforementioned problems by
eliminating the attack surface entirely. The core principle behind NBC is that the messages comprising
the communication are never directly exchanged. Instead, NBC employs proprietary and sophisticated
computational techniques to ensure secure, uncrackable, deniable, and quantum-resistant
communications.
Key Features of NBC
High-dimensional noise vectors: NBC generates high-dimensional noise vectors that are completely independent of the data payload. These noise vectors serve as the foundation for secure communication, making it virtually impossible for adversaries to intercept or decipher the actual message.
Quantum-resistant: Unlike popular encryption algorithms like AES256 and SHA256, which are vulnerable to quantum computing attacks, NBC’s mathematical structure is not based on number theory and is designed to withstand the potential threats posed by quantum computers. This future-proofs the communication security against the advent of powerful quantum computing capabilities.
Deniability: One of the key advantages of NBC is its ability to provide deniability. Since the actual messages are never exchanged, and only noise vectors are transmitted, it becomes incredibly difficult to prove the existence of any communication. This feature is particularly valuable in situations where plausible deniability is crucial.
Uncrackable security: By eliminating the attack surface and employing advanced computational techniques, NBC offers uncrackable security. Even if an adversary manages to intercept the noise vectors, they would be unable to derive any meaningful information from them without access to the synchronized functions.