Company Filing History:
Years Active: 2024
Title: Andrew Scott Ogilvie: Innovator in Satellite Refueling Technology
Introduction
Andrew Scott Ogilvie is a notable inventor based in Toronto, Canada. He has made significant contributions to the field of satellite technology, particularly in the area of on-orbit refueling systems. With a total of 2 patents to his name, Ogilvie's work is paving the way for advancements in satellite servicing.
Latest Patents
Ogilvie's latest patents include a robotically controlled satellite refueling tool and an associated system. This innovative tool facilitates on-orbit refueling by teleoperation of fill/drain valves on satellites that were not originally designed for such servicing. The system incorporates quick connect safety valves and utilizes vision-based feedback along with sensor data to operate various adaptable mechanisms. The open architecture of the refueling tool allows for a vision system to monitor the fill/drain valve and the engaged section of the tool. Additionally, the support tools include a blanket cutter, blanket handler, wire cutter, and gripper tool, while the site preparation tools consist of a B-nut removal tool and a crush seal removal tool. Each tool is designed with a common base structure that interfaces with the robotic arm's end effector to transmit rotation and torque.
Career Highlights
Ogilvie is currently employed at Macdonald, Dettwiler and Associates Corporation, where he continues to innovate in satellite technology. His work is instrumental in enhancing the capabilities of satellites, making them more efficient and easier to service in orbit.
Collaborations
Ogilvie collaborates with talented individuals such as Andrew Paul Turner and Tej Sachdev, contributing to a dynamic team focused on advancing satellite technology.
Conclusion
Andrew Scott Ogilvie's contributions to satellite refueling technology exemplify the spirit of innovation in the aerospace industry. His patents and ongoing work are crucial for the future of satellite servicing and operational efficiency in space.