#China #Shanghai #Shanghai Electric #Humanoid Robots #Robotics Innovation

Shanghai Electric Launches Humanoid Robot Training Facility

On March 11, 2025, Shanghai Electric made a significant leap forward in robotics by unveiling China's first heterogeneous humanoid robot training facility, the Humanoid Robot Kylin Training Ground. This innovative center, set in Shanghai, aims to train up to 1,000 humanoid robots by 2027, thereby enhancing their industrial applications across various sectors. The collaboration involves nine prominent research institutions, affirming a mutual goal to revolutionize the humanoid robotics industry in China.

The training ground is noteworthy not only for its ambition but also for its scale; it is currently equipped to accommodate over 100 humanoid robots, making it the largest of its kind in the country. This facility represents a commitment to elevating the application and research of humanoid robots, particularly in industrial settings. By training these robots across more than ten industries, such as equipment manufacturing, automotive production, and home appliances, the initiative aims to collect vast amounts of operational data, laying the groundwork for developing advanced large-scale robot models.

Shanghai Electric's Nuclear Power Group, in conjunction with the National and Local Co-Built Humanoid Robotics Innovation Center, is set to spearhead this ambitious project. Since March 2024, they have focused on applying humanoid robots in extreme and high-risk environments, particularly in the nuclear power industry. The goal is to replace hazardous, repetitive tasks with trained robots, thus improving efficiency and safety in nuclear manufacturing.

The training facility is already operational, having successfully deployed its first humanoid robot in typical nuclear industry operations on December 1, 2024. This robot is uniquely designed for tasks such as inspections and loading/unloading within industrial contexts. The collaboration between Shanghai Electric and the National-Local Center aims to further blend their strengths in nuclear power technology with robotic applications, pushing the envelope in efficiency, safety, and technological excellence.

Future Prospects and Capabilities

The training facility is engineered with sophisticated configurations and advanced force control, allowing it to not only train humanoid robots effectively but also to adapt to various tasks that robots may encounter in real-world industrial settings. Their objectives include:

• - Extensive Data Collection: Documenting operational data to refine humanoid robot capabilities across multiple sectors.
• - Training Versatility: Enabling robots to tackle various industrial tasks, which is crucial for their widespread adoption.
• - Innovation in Safety: Reducing human exposure to high-risk tasks and improving overall workplace safety.

Through ongoing collaborations and continuous improvements in training methodologies, Shanghai Electric and its partners aim to set new industry standards. The outcomes of this initiative are expected to transform not just manufacturing logistics but also other sectors that can benefit from the integration of humanoid robotics.

Conclusion

Shanghai Electric's commitment to pioneering innovations in humanoid robotics represents a critical step toward a more automated future in manufacturing. By bridging the gap between advanced robotic capabilities and industrial applications, this project is poised to play a transformative role in intelligent manufacturing, setting the stage for further advancements in robotics in the coming years.