Company Filing History:
Years Active: 2017
Title: Alan M Taft: Innovator in Satellite Communication Technology
Introduction
Alan M Taft is a notable inventor based in Torrance, California. He has made significant contributions to the field of satellite communication technology. His innovative work focuses on improving inter-satellite links, which are crucial for modern communication systems.
Latest Patents
Alan M Taft holds a patent for an "Integrated antenna and RF payload for low-cost inter-satellite links using super-elliptical antenna aperture with single axis gimbal." This patent describes a dual-reflector inter-satellite link (ISL) subsystem designed for communications satellites in low earth orbit or medium earth orbit. The ISL subsystem features a main antenna reflector that utilizes a single-axis gimbal to steer the main reflector solely in the elevation plane. The design includes a stationary antenna subreflector, horn, and RF feed circuitry relative to the host satellite. The super-elliptical design of the main reflector allows for a beam shape that does not require azimuth plane steering, while still meeting ISL signal strength requirements. This innovative approach results in a system that is smaller, lighter, less complex, and more cost-effective than traditional ISL systems, while also enhancing reliability.
Career Highlights
Alan M Taft is currently employed at Northrop Grumman Systems Corporation, where he continues to develop advanced technologies in satellite communications. His work has been instrumental in pushing the boundaries of what is possible in this field.
Collaborations
Throughout his career, Alan has collaborated with talented individuals such as Sudhakar K Rao and Daniel H Roper. These collaborations have contributed to the success of his projects and innovations.
Conclusion
Alan M Taft is a distinguished inventor whose work in satellite communication technology has led to significant advancements in inter-satellite link systems. His innovative patent demonstrates a commitment to improving the efficiency and reliability of satellite communications.