Location History:
- Scottsdale, AZ (US) (2002 - 2008)
- Tempe, AZ (US) (2008 - 2010)
Company Filing History:
Years Active: 2002-2010
Title: Inventor Linda J. Hockersmith: Pioneer in Noninvasive Analyte Property Estimation
Introduction: Linda J. Hockersmith, a renowned inventor based in Scottsdale, AZ, is a trailblazer in the field of noninvasive analyte property estimation. With a total of 4 patents to her name, Linda's innovative contributions have revolutionized the way analyte properties are determined without invasive methods.
Latest Patents:
1. "Method and Apparatus for Improving Performance of Noninvasive Analyte Property Estimation": Linda's invention focuses on enhancing analyzer performance by utilizing conditional additional acquisition of noninvasive spectra. This method confirms, updates, and supplements spectral data, leading to more accurate analyte property determination.
2. "Method and Apparatus for Presentation of Noninvasive Glucose Concentration Information": In this patent, Linda presents glucose concentration histories in formats that facilitate conveying crucial information. By reducing data into video formats or outputting through a voice synthesizer, the glucose concentration information becomes more accessible for medical professionals and end users alike.
Career Highlights: Linda J. Hockersmith is a key figure at Sensys Medical, Inc., a leading company in the field of noninvasive analyte analysis. Her expertise and dedication have played a pivotal role in driving innovation and advancing technology in the healthcare industry.
Collaborations: Linda has collaborated with notable colleagues such as Stephen L. Monfre and Timothy Lewis Ruchti. Together, they have worked on cutting-edge projects and patents that have significantly impacted the field of noninvasive analyte property estimation.
Conclusion: Linda J. Hockersmith's pioneering work in noninvasive analyte property estimation exemplifies her dedication to advancing healthcare technology. Her patents and collaborations stand as a testament to her innovative spirit and commitment to transforming the way analyte properties are determined.