Location History:
- Annapolis, MD (US) (2013 - 2015)
- Monterey, VA (US) (2016)
Company Filing History:
Years Active: 2013-2016
Title: Innovations of Vaclav Majer in Satellite Technology
Introduction
Vaclav Majer is a notable inventor based in Annapolis, MD, specializing in satellite technology. He has made significant contributions to the field, holding a total of three patents. His work focuses on enhancing the functionality and efficiency of geosynchronous satellites.
Latest Patents
One of his latest patents is titled "Eccentricity control for geosynchronous satellites." This invention involves setting initial conditions, duration, and schedule for the eccentricity control. It defines a plurality of parameters, including control loci for centroid, semi-major axis, semi-minor axis, uncontrolled eccentricity radius, right ascension of ascending node, and inclination. These parameters are designed to maintain a mean geodetic longitude of the geosynchronous satellite within a predefined distance from a station longitude when the eccentricity control is applied.
Another significant patent is "Inclination vector control with continuous or quasi-continuous maneuvers." This method provides a satellite inclination control strategy by tracking optimal inclination vector control cycles for a satellite in near geosynchronous orbit. It utilizes control rates to counter inclination growth, which includes continuously or quasi-continuously firing a thruster. This approach aims to achieve convergence to the optimal inclination vector control cycles despite variances in orbit determination, maneuver implementation, and orbit propagation modeling errors.
Career Highlights
Vaclav Majer is currently associated with Kratos Integral Holdings, LLC, where he applies his expertise in satellite technology. His innovative work has positioned him as a key figure in the advancement of satellite control systems.
Conclusion
Vaclav Majer's contributions to satellite technology through his patents demonstrate his commitment to innovation in the field. His work continues to influence the efficiency and functionality of geosynchronous satellites.