Company Filing History:
Years Active: 2009-2011
Title: Michael R. Abraham: Innovator in Aircraft Safety and Control Systems
Introduction
Michael R. Abraham is a notable inventor based in O'Fallon, MO (US). He has made significant contributions to the field of aviation safety and control systems. With a total of 2 patents, his work focuses on enhancing the safety and efficiency of aircraft operations.
Latest Patents
Abraham's latest patents include an "Aircraft Collision Sense and Avoidance System and Method" and a "Surrogate Air Processor." The collision sense and avoidance system is designed for aircraft, such as Unmanned Air Vehicles (UAVs) and Remotely Piloted Vehicles (RPVs). This innovative system identifies potential collision threats and provides maneuvers to avoid them. It utilizes motion sensors, including imaging and infrared sensors, to detect local targets and assess collision threats. The avoidance maneuver unit then guides the aircraft to execute necessary flight control adjustments.
The surrogate air processor serves as a control system for remotely managing a mobile platform. It consists of a ground-based control station and a surrogate processor, which is remotely located. This setup allows for a more cost-effective and less complex mobile platform by enabling communication between the ground station and the mobile platform through a communication gateway.
Career Highlights
Michael R. Abraham is currently employed at The Boeing Company, where he continues to innovate in the aerospace sector. His work has been instrumental in developing advanced systems that enhance aircraft safety and operational capabilities.
Collaborations
Abraham has collaborated with notable colleagues, including Christian C. Witt and Dennis J. Yelton. Their combined expertise contributes to the advancement of technology in aviation safety.
Conclusion
Michael R. Abraham's contributions to aircraft safety and control systems reflect his commitment to innovation in the aerospace industry. His patents demonstrate a forward-thinking approach to addressing critical challenges in aviation.