Company Filing History:
Years Active: 2019
Title: **Innovative Contributions of Eric Thomas Miller in Gear Control Technology**
Introduction
Eric Thomas Miller, a talented inventor based in Dansville, MI, has made significant strides in the field of gear technology. With one patented innovation to his name, Miller's work has the potential to enhance the manufacturing and performance of gear systems, particularly in automotive applications.
Latest Patents
Miller holds a patent for a "System and method for controlling gear mounting distance using optical sensors." This innovative system incorporates a first optical sensor and a second optical sensor to accurately measure distances from designated reference points to the surfaces between gear teeth. By doing so, it enables the gear feature controller to determine the necessary stock removal amount of the gear based on the analyzed data. This method can lead to increased precision in gear manufacturing, enhancing the overall performance and durability of gear systems.
Career Highlights
Currently employed at Ford Motor Company, Eric Thomas Miller has positioned himself as an essential contributor to the advancements in gear technology. His tenure at Ford has allowed him to apply his innovative ideas and technical expertise in a leading automobile manufacturing environment, driving forward the company's commitment to research and development.
Collaborations
Miller collaborates with other skilled professionals, including his coworkers Paul John Bojanowski and Scott Klozik. Together, they foster an environment that values teamwork and the sharing of ideas, which is often essential for breakthroughs in technology and innovation.
Conclusion
Through his work, Eric Thomas Miller has demonstrated that innovative thinking combined with technical prowess can lead to significant advancements in gear technology. As he continues his journey, the implications of his patented invention are expected to resonate within the automotive industry and beyond, contributing to enhanced precision and efficiency in gear systems.