Company Filing History:
Years Active: 2020
Title: Innovations by Yue Li in Noise Reduction Technology
Introduction
Yue Li is an accomplished inventor based in Changchun, China. He has made significant contributions to the field of data processing, particularly in the area of noise reduction from magnetic resonance sounding (MRS) oscillating signals. His innovative approach utilizes advanced algorithms to enhance the quality of MRS signals, which is crucial for various applications in scientific research and medical diagnostics.
Latest Patents
Yue Li holds a patent titled "Method for random noise reduction from MRS oscillating signal using joint algorithms of EMD and TFPF." This invention focuses on a method for reducing random noise in MRS oscillating signals. The process involves decomposing the MRS signal into different eigen-mode components using the EMD algorithm. Subsequently, the signal-dominated eigen-mode component is encoded as an instantaneous frequency of an analytical signal using the TFPF algorithm. This method effectively suppresses random noise while requiring fewer filtering constraints, making it simple to operate and adaptable to MRS signals with low signal-to-noise ratios.
Career Highlights
Yue Li's career is marked by his dedication to advancing noise reduction techniques. His innovative methods have garnered attention in the scientific community, showcasing his expertise in data processing and signal analysis. His work has the potential to significantly improve the accuracy and reliability of MRS applications.
Collaborations
Yue Li has collaborated with notable colleagues, including Tingting Lin and Yang Zhang. These partnerships have contributed to the development and refinement of his innovative methods, enhancing the overall impact of his research.
Conclusion
Yue Li's contributions to noise reduction technology through his patented methods demonstrate his commitment to innovation in the field of data processing. His work not only advances scientific understanding but also has practical implications for various applications.