#China #Shenzhen #ZEEKR #UBTECH #Walker S1

UBTECH's Revolutionary Collaborative Training for Humanoid Robots

UBTECH has embarked on an extraordinary journey with its innovative Swarm Intelligence program. This initiative, recently unveiled during practical training sessions at ZEEKR's 5G Intelligent Factory, marks the start of an unprecedented era for humanoid robots. The program focuses on enhancing collaborative abilities among multiple humanoids as they tackle complex, real-world industrial tasks across various scenarios.

In today’s rapidly evolving manufacturing landscape, industrial automation is more crucial than ever. UBTECH's humanoid robots—particularly the Walker S1—are at the forefront of introducing swarm intelligence, allowing them to function effectively in tandem. This novel approach transitions away from traditional single-agent robotics by fostering collective intelligence through high-frequency interactions within production environments.

At the heart of this transformation is BrainNet, an advanced software framework specifically designed for humanoid robot collaboration. By implementing the Internet of Humanoids (IoH), UBTECH has established a centralized control hub that connects various system components, creating a powerful and intelligent network. The architecture includes both a super brain, leveraging a large reasoning multimodal model, and an intelligent sub-brain that integrates advanced perception and decision-making capabilities.

As these robots progress into multi-agent collaboration, their ability to handle numerous industrial tasks simultaneously enhances overall productivity. The super brain system empowers the robots with hybrid decision-making skills while maintaining intricate control over complex scenarios on the production line. Meanwhile, the intelligent sub-brain, built using the Transformer model, provides a layer of cross-field perception that is essential for seamless multi-robot operation.

To keep pace with the demands of modern manufacturing, UBTECH has also developed a large reasoning multimodal model, designed to continuously evolve the BrainNet system. With deep-reasoning technology, this AI engine equips humanoid robots with common-sense reasoning akin to humans. This capability allows for autonomous task management and enhances the adaptability of robots in fast-paced, dynamic work environments.

UBTECH's training program, termed Practical Training 2.0, signifies a leap forward from conventional individual task execution to a sophisticated network where humanoid robots collaborate effectively. At ZEEKR’s facilities, the Walker S1 robots execute operations within several complex production settings, executing collaborative sorting, handling, and precision assembly tasks with remarkable efficiency.

During the collaborative sorting phase, for instance, these robots employ advanced vision-based perception technologies to fine-tune sorting tasks. By leveraging their ability to track dynamic targets, they create a shared understanding that enables intelligent decision-making and subsequent collaborative actions. This intricate system underscores the potential of swarm intelligence, where robots synchronize to enhance their operational efficiency.

Synchronized operations extend to handling tasks as well. Given the challenges associated with uneven loads and alterations in trajectory planning, UBTECH has introduced a coordinated control system that empowers robots to respond adaptively during transport tasks. Such improvements significantly enhance stability and efficiency when dealing with heavy-duty loads.

In precision assembly contexts, the Walker S1's dexterity shines, especially during the manipulation of delicate materials. Their advanced gripping capabilities, informed by high-precision sensory technologies, ensure that no damage occurs while navigating complex assembly processes. Moreover, the integration of vision with feedback-based control during quality inspections further exemplifies the flexibility and reliability of UBTECH's humanoid designs.

Collaborating with industry giants such as Dongfeng Liuzhou Motor, BYD, and FAW-Volkswagen, UBTECH aims to expand the application of its Walker S series robots across the automotive sector. Already leading the charge in introducing humanoid robotics to production environments worldwide, the company is on a trajectory of continuous innovation and enhanced performance in intelligent manufacturing. As Practical Training 2.0 progresses, UBTECH is poised to redefine standards in robotic collaboration, paving the way for broader applications of swarm intelligence across industries.

This groundbreaking initiative not only showcases UBTECH's commitment to pushing the boundaries of technology but also emphasizes the importance of intelligent teamwork in modern manufacturing. As humanoid robots evolve, they will increasingly serve as indispensable assets in enhancing productivity and efficiency across diverse industrial operations.