Company Filing History:
Years Active: 2014-2020
Title: The Innovative Mind of Kerry Keal in Inertial Measurement Systems
Introduction
Kerry Keal, an inventive spirit based in Santa Clara, California, has made significant strides in the field of inertial measurement systems. With a total of three patents to his name, Keal's contributions to technology are noteworthy, particularly in enhancing the accuracy of navigation systems.
Latest Patents
Among his latest inventions, Kerry Keal has developed a system for heading confidence interval estimation. This inertial measurement system comprises an accelerometer processing unit that generates calibrated accelerometer data. Additionally, it includes a magnetometer processing unit that generates calibrated magnetometer data and a gyroscope processing unit that produces calibrated gyroscope data. By utilizing these calibrated datasets, the system is adept at generating a heading angle error that indicates its accuracy. This innovation is instrumental in improving the reliability of navigation systems that rely on accurate heading information.
Career Highlights
Currently, Kerry Keal is associated with InvenSense, Inc., a leader in innovation within the inertial and motion sensing industry. His work at InvenSense has positioned him at the forefront of advancements in inertial measurement technology, showcasing his commitment to pushing boundaries in this field.
Collaborations
Throughout his career, Kerry has had the privilege to collaborate with talented colleagues, including Yuan Zheng and Shang-Hung Lin. These partnerships have fostered an environment of innovation, driving forward the development of cutting-edge technologies and enhancing the capabilities of inertial measurement systems.
Conclusion
Kerry Keal’s work demonstrates the impactful role inventors play in shaping technology. With his innovative patents and collaborations at InvenSense, he continues to influence the future of inertial measurement systems, contributing to advancements that will aid numerous industries reliant on precise navigation data.