Company Filing History:
Years Active: 2013-2016
Title: Innovations of Inventor Xin Liu
Introduction
Xin Liu is a notable inventor based in Waukesha, WI (US). He has made significant contributions to the field of imaging technology, particularly in the area of X-ray systems. With a total of 2 patents, Liu's work has advanced the capabilities of medical imaging.
Latest Patents
Liu's latest patents include a "Method and apparatus for adaptive scatter correction." This patent describes a CT system that features a rotatable gantry designed to receive an object for scanning. The system includes an x-ray source that projects an x-ray beam toward the object, a detector that captures high-frequency electromagnetic energy, and a data acquisition system (DAS) that processes the imaging data. The computer within the system is programmed to obtain image projection data, correct it using a scatter function based on the x-ray beam's characteristics, and generate images from the corrected data.
Another significant patent is the "Method and system for scatter correction in X-ray imaging." This invention focuses on deriving scatter information through inverse tracking of scattered X-rays. In this approach, scattered rays are tracked from the detector back to the source of the X-ray radiation, which differs from traditional tracking methods. This innovative technique utilizes a density integrated volume to minimize the integration steps required.
Career Highlights
Xin Liu is currently employed at General Electric Company, where he continues to develop cutting-edge technologies in imaging. His work has been instrumental in enhancing the accuracy and efficiency of X-ray imaging systems.
Collaborations
Liu collaborates with talented individuals such as Xiaoye Wu and Jiang Hsieh, who contribute to his innovative projects and research efforts.
Conclusion
Xin Liu's contributions to imaging technology through his patents demonstrate his commitment to advancing medical diagnostics. His work at General Electric Company continues to influence the field positively.