Location History:
- Buc, FR (2020)
- Paris, FR (2022 - 2024)
Company Filing History:
Years Active: 2020-2025
Title: Innovations of Zhijin Li in X-ray Mammography
Introduction
Zhijin Li is a prominent inventor based in Paris, France, known for his contributions to medical imaging technology. He holds a total of five patents, showcasing his innovative approach to enhancing x-ray mammography systems. His work focuses on improving patient positioning and imaging accuracy, which is crucial for effective breast cancer screening and intervention.
Latest Patents
One of Zhijin Li's latest patents is a system and method for training a sensor-guided x-ray mammography system. This invention provides various methods and systems for breast positioning assistance during mammography and image-guided interventional procedures. The system utilizes a sensor detection mechanism to evaluate the position of the patient, breast, and breast anatomy. It determines if the patient and breast are adjusted to the desired positions for optimal imaging. Real-time feedback is provided to guide users in positioning the breast and/or patient based on the evaluation. The evaluation is conducted by an artificial intelligence (AI) model stored within the x-ray mammography system, which is trained using sensor data from previous imaging procedures.
Career Highlights
Zhijin Li has worked with notable companies in the healthcare sector, including GE Precision Healthcare LLC and General Electric Company. His experience in these organizations has contributed significantly to his expertise in medical imaging technologies.
Collaborations
Zhijin has collaborated with several professionals in his field, including Serge Muller and Giovanni Palma. These collaborations have likely enriched his work and led to further advancements in his projects.
Conclusion
Zhijin Li's innovative contributions to x-ray mammography systems demonstrate his commitment to improving medical imaging technology. His patents reflect a deep understanding of the complexities involved in patient positioning and imaging accuracy. His work continues to influence the field and enhance the quality of breast cancer screening and intervention.