Company Filing History:
Years Active: 1998-2000
Title: Innovations by Jason E. Alderete: Pioneering Optical Sensors
Introduction
Jason E. Alderete, a distinguished inventor based in Hopkins, MN, has made significant contributions to the field of optical sensors. With two patents to his name, he has focused his research on developing innovative methods for measuring various properties of blood, as well as other fluid samples.
Latest Patents
Jason's latest patents demonstrate his expertise in optical measurement technologies. The first patent, titled "Optical Measurement of Blood Hematocrit Incorporating a Self-Calibration," outlines an optical method for obtaining hematocrit values from blood using light transmittance properties. The technique employs an algorithm that calculates hematocrit values based on absorbance spectra obtained at wavelengths of approximately 500 nm and 800 nm. This method is noted for its insensitivity to the oxygen saturation levels of hemoglobin and the scattering effects of plasma and other blood constituents.
The second patent, "Optical Carbon Dioxide Sensor, and Associated Methods of Manufacture," provides a groundbreaking approach to manufacturing a fiber optic sensor. This sensor detects and measures carbon dioxide concentration in a fluid sample. The innovative method involves integrating a fluorescent indicator composition within a silicone capsule, which is designed to enhance the detectable signal by containing reflective particles and tapering to a narrow tip.
Career Highlights
Jason is currently affiliated with Optical Sensors, Inc., where he continues to push the boundaries of sensor technology. His work has opened new avenues for the application of optical sensors in medical and environmental monitoring.
Collaborations
Throughout his career, Jason has collaborated with notable colleagues, including Wylie I. Lee and William V. Fowler. Together, they have combined their expertise to drive forward advancements in sensor technology and optics.
Conclusion
Jason E. Alderete's innovative spirit and technical prowess have established him as a vital contributor to the field of optical measurement. His patents reflect a commitment to enhancing the accuracy and reliability of sensors, showcasing the profound impact of his work on both scientific research and practical applications in health monitoring.