IEEE© Whitenoise Papers for ATC 2017 Journal

Workshop on

Trusted Computing in Distributed and Hybrid Systems

 

IEEE© - Whitenoise published papers

The IEEE will publish 5 Whitenoise scientific papers in the Advanced Trusted Computing (ATC) Journal 2017. These publications are the topic papers for the 14th IEEE Conference on Advanced Trusted Computing workshop on Trusted Computing in Distributed and Hybrid Systems.

"The Institute of Electrical and Electronics Engineers ( IEEE , pronounced "I triple E") [2] is a professional association with its corporate office in New York City and its operations center in Piscataway, New Jersey . It was formed in 1963 from the amalgamation of the American Insjectititute of Electrical Engineers and the Institute of Radio Engineers . Today, it is the world's largest association of technical professionals with more than 420,000 members in over 160 countries around the world. Its obves are the educational and technical advancement of electrical and electronic engineering , telecommunications , computer engineering and allied disciplines. " wikipedia

Rapid Factorization of Composite Primes - This paper examines techniques for factoring prime composites and is effective with Integer Factorization Cryptography and Elliptical Curve Cryptography which both rely on composite primes of different sizes and arrived upon by different mechanisms.

Whitenoise Encryption Implementation with Increased Robustness against Side-Channel Attacks

Dynamic Distributed Key Infrastructures (DDKI) and Dynamic Identity Verification and Authentication (DIVA)

Deterministic random number generation for one time pads - creating a Whitenoise super key

Enhancing Transport Layer Security with Dynamic Identity Verification and Authentication (DIVA) - Maintaining and Enhancing SSL/TLS Reliability

Whitenoise short workshop presentations

Factorization - An alternative to the sieve method

Random Number Generator One-Time-Pad Generation

Dynamic Distributed Key Infrastructures and Dynamic Identity Verification and Authentication

WN-DIVA-TLS-extension-IEEE_presentation

Whitenoise Encryption Implementation with Increased Robustness to Side-Channel Attacks