Company Filing History:
Years Active: 2020-2021
Title: Ian Matt - Innovator in Proactive Directional Control Systems
Introduction
Ian Matt is a notable inventor based in Fareham, GB, recognized for his contributions to the field of mobile structure control systems. With a total of two patents to his name, he has developed innovative techniques that enhance the functionality and reliability of directional control in various applications.
Latest Patents
Ian's latest patents include "Proactive Directional Control Systems and Methods" and "Adaptive Autopilot Control Systems and Methods." The first patent discloses techniques for providing proactive directional control for mobile structures. This system incorporates a logic device, memory, sensors, actuators, and user interface modules. The logic device estimates steering angle disturbances based on environmental conditions, allowing for adjustments to the directional control signal sent to the actuator. The second patent focuses on improving the ability of mobile structures to maintain a desired reference path. It utilizes high-quality turn rate signals and GPS data to generate cross track and contour errors, enabling robust track keeping and contour following.
Career Highlights
Throughout his career, Ian has worked with prominent companies such as FLIR Systems, Incorporated and Teledyne FLIR, LLC. His experience in these organizations has contributed significantly to his expertise in developing advanced control systems for mobile structures.
Collaborations
Ian has collaborated with talented individuals in his field, including Mark Johnson and Christopher Yeomans. These partnerships have fostered innovation and the exchange of ideas, further enhancing the development of his patented technologies.
Conclusion
Ian Matt's work in proactive directional control systems and adaptive autopilot technologies showcases his commitment to advancing mobile structure control. His patents reflect a deep understanding of the challenges in this field and offer innovative solutions that can significantly improve performance and safety.