Company Filing History:
Years Active: 1996
Title: Innovations of Koeunyi Bae
Introduction
Koeunyi Bae is an accomplished inventor based in Ithaca, NY (US). He has made significant contributions to the field of digital ultrasound imaging and radar systems. With a total of 2 patents, his work focuses on enhancing image quality and signal processing.
Latest Patents
One of his latest patents is titled "Ultrasound image enhancement using beam-nulling." This invention addresses the issue of artifacts caused by spurious ultrasound reflections from highly reflective objects outside the region of interest. By perturbing the time delay on each receive channel, a null is formed in the ultrasound beam patterns, effectively reducing the magnitude of these artifacts and enhancing the overall image quality.
Another notable patent is "Clutter suppression for thinned array with phase only nulling." This invention involves an active array antenna designed for radar systems. It utilizes elemental antennas distributed over a circular aperture, which is thinned for cost efficiency. The T/R modules operate at maximum output, and a phase controller manages the phase shifts to form a main beam and its associated sidelobes. A perturbation phase generator adds a phase shift to create a null in the sidelobe structure, effectively reducing signal transduction from unwanted sources such as ground clutter or jammers.
Career Highlights
Koeunyi Bae has worked with prominent companies such as Martin Marietta Corporation and General Electric Company. His experience in these organizations has contributed to his expertise in the fields of imaging and radar technology.
Collaborations
Throughout his career, Koeunyi has collaborated with notable colleagues, including Moayyed A Hussain and Kai-Bor Yu. These partnerships have further enriched his work and innovations.
Conclusion
Koeunyi Bae's contributions to ultrasound imaging and radar technology demonstrate his innovative spirit and technical expertise. His patents reflect a commitment to enhancing image quality and signal processing in complex systems.