Company Filing History:
Years Active: 2021-2025
Title: **Innovative Contributions of Inventor Sung Min Lee in Magnetic Resonance Imaging**
Introduction
Sung Min Lee, an accomplished inventor based in Bucheon-si, South Korea, has made a significant impact in the field of medical imaging through his innovative patent. With a keen focus on enhancing magnetic resonance imaging (MRI) techniques, Lee's work stands at the intersection of technology and healthcare.
Latest Patents
Sung Min Lee holds a patent titled "Apparatus and method for reconstructing magnetic resonance image using learning, and under-sampling apparatus method and recording medium thereof." This invention introduces an under-sampling apparatus designed for MRI image reconstruction utilizing machine learning techniques. The invention outlines a method where a designated first region of the k-space image is fully sampled, while the remaining areas are under-sampled. Specifically, lines within the second region are selected at regular intervals for full sampling, allowing for the acquisition of high-resolution MR images while significantly reducing imaging time.
Career Highlights
Lee is currently affiliated with Yonsei University, specifically through its University-Industry Foundation (UIF). His position at this prestigious institution allows him to contribute to groundbreaking research and the development of advanced technological solutions in medical imaging.
Collaborations
Throughout his career, Sung Min Lee has collaborated with notable colleagues, including Chang Min Hyun and Jin Keun Seo. These partnerships have fostered a rich environment for innovation, leading to the development of technologies that aim to improve patient outcomes and streamline diagnostic processes in healthcare.
Conclusion
Sung Min Lee's contributions to the field of magnetic resonance imaging through his innovative patent demonstrate his commitment to advancing medical technologies. With his dedication to research and collaboration, Lee continues to pave the way for new solutions that enhance imaging techniques and improve healthcare delivery.