Company Filing History:
Years Active: 2014-2016
Title: Rachael Stockton: Innovator in Cryptography
Introduction
Rachael Stockton is a prominent inventor based in Newton, MA (US). She has made significant contributions to the field of cryptography, holding 2 patents that showcase her innovative techniques. Her work focuses on enhancing security measures in distributed systems, making her a valuable asset in the tech industry.
Latest Patents
One of her latest patents is titled "Split Tokenization." This improved technique provides protection of secrets by splitting a secret into shares and generating tokens for each share. For instance, a terminal can split a credit card number into shares and transmit each share to distinct token servers. Each server generates a corresponding token, which is sent to an application server. When access to the secret is required, the application server retrieves the shares using the tokens, allowing for secure recovery of the original secret.
Another notable patent is the "Variable Epoch Scheduler for Proactive Cryptography Systems." This technique protects resources in a distributed computer system by scheduling key updates with variable durations. The Variable Epoch Scheduler (VES) creates schedules for key updates, ensuring that at least two epochs have different durations. This flexibility allows for enhanced security as the system adapts to varying needs.
Career Highlights
Rachael Stockton is currently employed at EMC Corporation, where she continues to develop innovative solutions in cryptography. Her expertise and dedication to her work have positioned her as a leader in her field.
Collaborations
Throughout her career, Rachael has collaborated with notable colleagues, including Marten Van Dijk and Robert Damon Hopley. These partnerships have further enriched her contributions to the field.
Conclusion
Rachael Stockton's innovative work in cryptography, particularly her patents on split tokenization and variable epoch scheduling, highlights her significant impact on enhancing security in distributed systems. Her contributions continue to shape the future of cryptographic technology.