Company Filing History:
Years Active: 2022-2025
Title: Ilya Ozerets: Innovator in Biometric Authentication
Introduction
Ilya Ozerets is a notable inventor based in San Francisco, CA. He has made significant contributions to the field of biometric authentication, holding a total of 3 patents. His work focuses on enhancing user security through innovative authentication methods.
Latest Patents
Ozerets' latest patents include a method for authenticating users through a variety of biometric modalities. One of his patents describes a process where a security threshold is received from a third party. Environmental conditions associated with a device are assessed to determine a suitable subset of biometric authentication modalities for user authentication. The method allows users to select from a display of suitable biometric modalities while excluding unsuitable options. User authentication data is then compared with previously determined biometric data to establish an authentication score. If the score meets the security threshold, the user is successfully authenticated.
Another patent by Ozerets also focuses on authentication as a service. This method involves displaying multiple biometric modalities for user selection. User authentication data is collected for each selected modality and compared with previously determined biometric data. An authentication score is calculated based on this comparison, leading to a determination of whether to authenticate the user.
Career Highlights
Ilya Ozerets currently works at Wells Fargo Bank, N.A., where he applies his expertise in biometric security. His innovative approaches to user authentication have positioned him as a key player in the field.
Collaborations
Ozerets collaborates with talented individuals such as Mariam Alexanian and Andrew G Foote, contributing to the advancement of biometric technologies.
Conclusion
Ilya Ozerets is a pioneering inventor whose work in biometric authentication is shaping the future of user security. His patents reflect a commitment to enhancing the safety and efficiency of authentication processes.