Company Filing History:
5 out of 832,891 Years Active: 2011-2016
Title: Eunice Lee: Innovator in Biometric Monitoring Technologies
Introduction
Eunice Lee is a prominent inventor based in Fair Oaks, CA (US). She has made significant contributions to the field of biometric monitoring technologies, holding a total of 5 patents. Her innovative work focuses on developing systems that enhance the monitoring of biological conditions.
Latest Patents
One of Eunice Lee's latest patents is a strain monitoring system and apparatus. This system is designed to monitor strain as an indicator of various biological conditions, including spinal fusion, glucose levels, spinal loading, and heart rate. The system incorporates an inter-digitated capacitor sensor, an RF transmitter, and an associated antenna, all of which are microminiature or microscopic in size. These components can be implanted in a biological host, such as a human or animal. Additionally, an inductively coupled power supply is utilized to eliminate the need for chemical batteries. Power is supplied to the sensor and transmitter, and data is transmitted from the sensor when an external receiving device, like a handheld RF ID type receiver, is placed near the implanted components. The implanted sensor, transmitter, and power supply can remain in place permanently or be removed when necessary.
Career Highlights
Eunice Lee has established herself as a leading figure in her field through her innovative patents and research. Her work has the potential to revolutionize how biological conditions are monitored, providing valuable insights into health and wellness.
Collaborations
Eunice collaborates with talented individuals in her field, including Amjad Ramahi and Deborah Munro. Their combined expertise contributes to the advancement of biometric monitoring technologies.
Conclusion
Eunice Lee's contributions to the field of biometric monitoring are noteworthy and impactful. Her innovative patents, particularly in strain monitoring systems, showcase her dedication to improving health monitoring technologies. Her work continues to inspire advancements in the medical and technological fields.