Company Filing History:
Years Active: 2023
Title: Innovations by Georgios Prekas in Imaging Technology
Introduction
Georgios Prekas is an accomplished inventor based in Solon, OH (US). He has made significant contributions to the field of imaging technology, particularly through his innovative patent that enhances imaging systems. His work is characterized by a focus on improving the accuracy and efficiency of imaging processes.
Latest Patents
Georgios Prekas holds a patent titled "Sparse background measurement and correction for improving imaging." This patent describes an advanced imaging system that includes a first x-ray source designed to produce x-ray photons suitable for imaging. The system projects these photons onto a designated imaging area and utilizes a rotatable gantry to traverse an angular path. A data processor within the system collects data related to the transmission of x-ray photons and background data at various angles. The analytical portion of the processor is capable of removing errors in the collected data, ultimately generating a corrected image that enhances the quality of the imaging results. He has 1 patent to his name.
Career Highlights
Georgios Prekas is currently employed at Accuray Inc., a company known for its innovative solutions in radiation therapy and imaging. His role at Accuray allows him to apply his expertise in imaging technology to develop cutting-edge systems that improve patient outcomes.
Collaborations
Throughout his career, Georgios has collaborated with notable colleagues, including Chuanyong Bai and Robert Zahn. These collaborations have contributed to the advancement of imaging technologies and have fostered a productive environment for innovation.
Conclusion
Georgios Prekas is a notable inventor whose work in imaging technology has led to significant advancements in the field. His patent on sparse background measurement and correction exemplifies his commitment to improving imaging systems. His contributions continue to influence the industry and enhance the quality of imaging processes.