Company Filing History:
Years Active: 2016-2020
Title: Innovator Spotlight: Robert E. Lee of Tempe, Arizona
Introduction
Robert E. Lee is an inventive force hailing from Tempe, Arizona, known for his contributions to technology and security through his innovative patents. With a total of four patents to his name, Lee focuses on enhancing the reliability and effectiveness of user identity verification methods. His work is particularly relevant in today's digital age, where secure access to computer resources is paramount.
Latest Patents
One of Robert E. Lee's notable patents is titled "Verifying a user's identity based on adaptive identity assurance levels." This innovative system manages access to computer-based resources by obtaining user requests and facilitating secure identity verification. The process involves assessing various identity-proofing techniques and their success rates in preventing fraudulent access. Lee's system calculates an identity assurance level for the user, determining whether it meets the minimum requirements for resource access. This advanced method promotes enhanced security and tailored access protocols.
Career Highlights
Lee currently contributes his expertise at Intuit, Inc., a leading financial software company known for its commitment to user-centered innovations. His role in driving technological advancements has made significant impacts on how identity verification can be adapted for varying levels of access and security.
Collaborations
Throughout his career, Robert E. Lee has collaborated with talented professionals such as Douglas L. Foiles and Thomas M. Pigoski, II. These partnerships have fostered an environment of creativity and innovation, allowing for the development of cutting-edge solutions in identity verification.
Conclusion
Robert E. Lee's work is shaping the future of secure access technologies through his thoughtful innovations and collaborations. As he continues to push boundaries in the realm of identity assurance, his patents will remain vital in enhancing security protocols across various digital platforms.