Company Filing History:
Years Active: 2023
Title: The Innovations of Roger P. Cutitta
Introduction
Roger P. Cutitta is an accomplished inventor based in Westminster, MD (US). He has made significant contributions to the field of radar technology, particularly with his innovative designs that enhance the capabilities of radar systems. His work is recognized for its practical applications in various sectors, including defense.
Latest Patents
Roger P. Cutitta holds a patent for an "Asynchronous, coherent, radar transmitter-receiver system." This invention includes a radar system that features at least one radio receiver, which comprises an antenna designed to receive RF data. The system is capable of processing both direct-path RF signals and reflected RF signals from targets. The technology utilizes a memory unit to store predetermined RF waveform profile data, a timing unit for synchronization, and a matched filter application to identify RF signal signatures. The processors within the system analyze received RF data, split identified RF signals, create matched filters, and generate radar data based on adjusted arrival times and phases of the signals.
Career Highlights
Roger P. Cutitta is currently employed by the US Government as represented by the Secretary of the Army. His role involves developing advanced radar technologies that are crucial for military applications. His innovative approach has led to the creation of systems that improve the accuracy and efficiency of radar operations.
Collaborations
Throughout his career, Roger has collaborated with notable colleagues, including Kenneth Irving Ranney and Kyle Alexander Gallagher. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Roger P. Cutitta's contributions to radar technology exemplify the impact of innovative thinking in defense applications. His patent for an asynchronous, coherent radar transmitter-receiver system showcases his expertise and commitment to advancing technology in this critical field.