Daeki Hong

Title: Daeki Hong: Innovator in Time Synchronization Technology

Introduction

Daeki Hong is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the field of telecommunications, particularly in the area of time synchronization for orthogonal frequency division multiplexing (OFDM) systems. His innovative work has led to the development of a patented technology that enhances the efficiency and reliability of communication systems.

Latest Patents

Daeki Hong holds a patent for an "Apparatus and method for time synchronization and reception apparatus of OFDM system." This invention involves an apparatus that oversamples a received signal using a master clock with a frequency at least four times higher than the minimum sampling frequency in a transmission apparatus. The technology sets one of the oversampled signals to an on-time signal and shifts the remaining signals based on this reference. The apparatus calculates a correlation value by correlating the shifted signals with the on-time signal and detects the start point of a frame by comparing the maximum energy value with a predetermined threshold value. This innovation is crucial for improving the performance of OFDM systems.

Career Highlights

Daeki Hong is affiliated with the Electronics and Telecommunications Research Institute, where he continues to advance research in telecommunications technologies. His work has not only contributed to academic knowledge but has also practical implications in enhancing communication systems.

Collaborations

Throughout his career, Daeki has collaborated with notable colleagues, including Hyun Seo Oh and Hyun Kyun Choi. These collaborations have fostered a productive environment for innovation and development in the field of telecommunications.

Conclusion

Daeki Hong's contributions to time synchronization technology exemplify the impact of innovative thinking in telecommunications. His patented work is a testament to his expertise and dedication to advancing communication systems.