Company Filing History:
Years Active: 2020
Title: Bicong Zhang: Innovating Orthopedic Surgery with Robotics
Introduction
Bicong Zhang is a prominent inventor based in Beijing, China, recognized for his innovative contribution to the field of orthopedic surgery. His cutting-edge invention, a remotely operated orthopedic surgical robot system, represents a significant advancement in the capabilities of surgical procedures, particularly those involving fracture reductions.
Latest Patents
Zhang holds a patent for a Remotely operated orthopedic surgical robot system for fracture reduction with visual-servo control method. This system is designed to perform fracture reduction operations using a sophisticated visual-servo control method. It integrates multiple components, including surgical image acquisition equipment, a fracture reduction robot with various types, and a remote operation workstation equipped with a graphical user interface. This interface allows doctors to examine fracture reduction path planning results generated by an artificial intelligence algorithm, enabling them to manually adjust and optimize the planning. The workstation then calculates the control commands for the robot based on this planning, enhancing precision in surgery.
Career Highlights
Zhang's work is affiliated with Tsinghua University, where he collaborates with other esteemed researchers in the medical technology field. His pioneering approach to integrating robotics and surgical procedures has garnered attention and respect in the medical community.
Collaborations
Throughout his career, Bicong Zhang has worked alongside notable colleagues, including Gangtie Zheng and Shijie Zhu. Together, they continue to push the boundaries of what is possible in orthopedic surgery, leveraging technology to improve patient outcomes.
Conclusion
Bicong Zhang's innovative spirit and commitment to enhancing medical practices demonstrate the critical role that inventors play in advancing healthcare technologies. His patented robotic system is a testament to the future of surgery, where automation and precision will revolutionize patient care.