Shuyi Jing

Title: Shuyi Jing: Innovator in Robotics

Introduction

Shuyi Jing is a prominent inventor based in Nanjing, China. He has made significant contributions to the field of robotics, particularly in the development of methods that enhance the efficiency and quality of robotic operations. With a total of 2 patents to his name, Jing is recognized for his innovative approaches to solving complex problems in the robotics industry.

Latest Patents

Shuyi Jing's latest patents include a "Method for Robot to Automatically Find Bending Position" and a "Robot Joint Space Point-to-Point Movement Trajectory Planning Method." The first patent outlines a method that allows a robot to automatically determine the bending position by establishing a gripper tool coordinate system and executing a series of movements to detect sensor states. This innovation reduces teaching difficulty and improves bending quality, particularly in the elevator industry where different specifications are common. The second patent focuses on trajectory planning for robotic movements, ensuring that the robot can move from a start point to a target point efficiently while adhering to preset movement parameters. This method is characterized by its minimal computational requirements and strong real-time performance.

Career Highlights

Shuyi Jing is currently employed at Nanjing Estun Robotics Co., Ltd., where he continues to push the boundaries of robotic technology. His work has not only contributed to the advancement of robotics but has also played a crucial role in enhancing production efficiency and reducing maintenance costs in various applications.

Collaborations

Shuyi Jing collaborates with talented individuals in his field, including Jinbao Zhang and Lin Zhou, who contribute to the innovative environment at Nanjing Estun Robotics Co., Ltd.

Conclusion

Shuyi Jing's contributions to robotics through his patents and work at Nanjing Estun Robotics Co., Ltd. highlight his role as a key innovator in the industry. His methods for improving robotic operations demonstrate the potential for technology to enhance efficiency and quality in manufacturing processes.