Kyung Hoon Kwon

Title: Innovations of Kyung Hoon Kwon

Introduction

Kyung Hoon Kwon is a notable inventor based in Incheon, South Korea. He has made significant contributions to the field of antenna technology, particularly in the area of polarized beam separation and channel correction. With a total of 2 patents, his work has implications for advanced communication systems.

Latest Patents

Kyung Hoon Kwon's latest patents include a "Method for temporally/spatially separating polarized beams and correcting channel irreversibility" and a "multi-beam antenna device using same." The first patent discloses a method for temporal and spatial separation of polarized beams, along with a correction for channel non-reciprocity. This multi-beam antenna apparatus features an array antenna that includes transmission and reception antenna elements, enabling the formation of multiple transmission and reception beams. The technology effectively separates polarized beams using two different orthogonal polarizations while addressing channel non-reciprocity issues.

The second patent focuses on a "spatial multiplexing method and device using polarized wave in a multibeam system." This invention outlines a spatial multiplexing method that determines different phases and polarizations for two beams, allowing for enhanced signal processing in multi-beam systems.

Career Highlights

Kyung Hoon Kwon is currently employed at KMW Inc., where he continues to innovate in the field of antenna technology. His work has positioned him as a key figure in the development of advanced communication systems.

Collaborations

Some of his notable coworkers include Tae Youl Oh and Min Seon Yun, who contribute to the collaborative environment at KMW Inc. Their combined expertise fosters innovation and drives the development of cutting-edge technologies.

Conclusion

Kyung Hoon Kwon's contributions to antenna technology through his patents demonstrate his commitment to advancing communication systems. His innovative methods for polarized beam separation and channel correction are paving the way for future developments in the field.