Years Active: 2024
Title: Gregory Moszczynski: Innovator in Computer-Generated Forces
Introduction
Gregory Moszczynski is a notable inventor based in Kingston, CA. He has made significant contributions to the field of computer simulations, particularly in the area of computer-generated forces (CGF). His innovative approach has led to the development of a unique method for creating CGF entities that enhance interactive simulation environments.
Latest Patents
Moszczynski holds a patent for his invention titled "Efficient creation of computer-generated force (CGF) entities using frequency response matrices." This patent describes a method for efficiently generating CGF entities that include simulated external vehicles within interactive computer simulations. The process involves creating an array of state-space model structures with initially unknown parameters, which, once identified, will define a linearized approximation of a non-linear model of the simulated vehicle. The method further includes generating frequency response matrices by exciting input-output relationships of the non-linear model at various trim conditions using short Gaussian pulses. These matrices define a set of linear equations, which are solved to calculate the parameters, ultimately allowing for the generation of the CGF entity.
Career Highlights
Throughout his career, Gregory Moszczynski has focused on advancing the capabilities of interactive computer simulations. His work has been instrumental in improving the realism and functionality of CGF entities, making them more effective for various applications in simulation environments.
Collaborations
Moszczynski has collaborated with Vincent Myrand-Lapierre, contributing to the development and refinement of his innovative methods in computer-generated forces.
Conclusion
Gregory Moszczynski's contributions to the field of computer-generated forces through his patented methods demonstrate his commitment to innovation in interactive simulations. His work continues to influence the development of more sophisticated simulation technologies.