Company Filing History:
Years Active: 2020-2024
Title: Innovations by Sheng-Hong Yang in Surgical Robotics
Introduction
Sheng-Hong Yang is a prominent inventor based in Kaohsiung, Taiwan. He has made significant contributions to the field of surgical robotics, holding a total of 7 patents. His work focuses on enhancing the capabilities and precision of surgical robotic systems.
Latest Patents
Among his latest innovations is a surgical robotic arm control system and control method. This system includes a surgical robotic arm, an image capturing unit, and a processor. The robotic arm features multiple joint axes, allowing for intricate movements. The image capturing unit obtains a first image, which the processor uses to execute a spatial environment recognition module. This module generates various information images, including environment, direction, and depth information. The processor then calculates path information to guide the robotic arm's movements based on this data.
Another notable patent is the surgical robotic arm control system and method, which also includes a first and second image capturing unit. The first unit captures a field image containing a target object, while the second unit, located at the end of the robotic arm, captures a second target image. The processor analyzes these images to obtain movement and rotation information, enabling the robotic arm to approach and interact with the target object effectively.
Career Highlights
Sheng-Hong Yang is affiliated with the Metal Industries Research & Development Centre, where he continues to innovate in the field of surgical robotics. His work has been instrumental in advancing robotic technologies that improve surgical outcomes.
Collaborations
He collaborates with talented coworkers, including Bo-Wei Pan and Jian Jia Zeng, who contribute to the development of cutting-edge robotic systems.
Conclusion
Sheng-Hong Yang's contributions to surgical robotics exemplify the potential of innovative technologies in medicine. His patents reflect a commitment to improving surgical precision and patient care through advanced robotic systems.