Michael Sorensen

Title: The Innovations of Michael Sorensen: A Pioneer in Magnetometer Calibration

Introduction: Michael Sorensen, an accomplished inventor based in Woburn, MA, has made significant strides in the field of magnetic sensing technology. His innovative work has led to the development of a unique system for calibrating 3-axis magnetometer arrays, which are essential in various applications, especially those involving ferromagnetic materials.

Latest Patents: Michael Sorensen holds one notable patent titled, "Calibration and Monitoring for 3-Axis Magnetometer Arrays of Arbitrary Geometry." This patent outlines a method and system for calibrating both rigid and non-rigid arrays of 3-axis magnetometers. The process involves determining critical parameters such as scale factors and bias values for individual magnetometers, as well as the orientation and positioning of each within the array. By streamlining the calibration for large arrays, his method enhances reproducibility and reduces the overall time needed for calibration, making it valuable for extensive research endeavors.

Career Highlights: Michael Sorensen currently contributes his expertise at The Charles Stark Draper Laboratory, Inc., a prestigious organization known for its cutting-edge research and innovation in technology. His dedication to advancing magnetometer technology showcases his commitment to addressing complex problems through engineering solutions.

Collaborations: Throughout his career, Michael has had the privilege of collaborating with talented individuals in his field, including Philip Babcock and Cort Nolan Johnson. These partnerships have fostered an environment of innovation and collective problem-solving, further enhancing the progress in magnetic sensing technologies.

Conclusion: Michael Sorensen's work exemplifies the essence of innovation within the realm of engineering and technology. His patent for calibrating 3-axis magnetometer arrays not only highlights his ingenuity but also plays a critical role in the analysis of structures containing ferromagnetic materials. As advancements in technology continue to evolve, Michael's contributions will undoubtedly remain significant in the industry.