#China #Shenzhen #ZEEKR #UBTECH #Walker S1

UBTECH's Groundbreaking Multi-Humanoid Robot Training Program

In a significant stride towards the future of robotics, UBTECH has unveiled the world's inaugural collaborative training program for humanoid robots at ZEEKR's cutting-edge 5G Intelligent Factory. This initiative establishes a blueprint for deploying swarm intelligence, as multiple humanoid robots work in synchrony across various scenarios and tasks in an industrial environment.

The Fusion of Technology and Robotics

UBTECH's innovative approach harnesses the concept of swarm intelligence, enabling their humanoid robots, particularly the Walker S1 model, to engage collaboratively in complex production tasks. This evolution represents a shift from single-agent autonomy to a collective, intelligent action. To facilitate this transformation, UBTECH has introduced BrainNet, an advanced software framework that supports inter-robot collaboration and the creation of an Internet of Humanoids (IoH), which acts as a central control system for implementing swarm intelligence.

This framework connects collaborative inference nodes and skill nodes from cloud devices, effectively creating a collective intelligence that can tackle intricate challenges posed by modern manufacturing systems. The BrainNet super brain utilizes a multimodal reasoning model to enhance decision-making capabilities, allowing humanoid robots to perform complex tasks seamlessly.

Advancements in Robot Training

The recent training phase at ZEEKR’s factory marked what UBTECH calls Practical Training 2.0, moving beyond individual autonomy to collective intelligence. In this state-of-the-art facility, multiple Walker S1 robots were deployed in various production areas, including final assembly, quality inspection zones, and vehicle assembly stations. Through collaborative sorting and manipulation tasks, the humanoid robots demonstrated their capacity to function as a cohesive unit in actual industrial settings.

During collaborative sorting operations, the Walker S1 robots employed advanced cross-environment perception techniques, utilizing hybrid intelligent decision-making processes to refine sorting tasks effectively. This allowed for real-time adjustments and collective mapping, fostering robust team coordination.

In terms of manipulation tasks, the humanoid robots faced considerable challenges such as load distribution and trajectory planning. UBTECH responded by creating a shared planning and control system that enables multiple robots to collaboratively determine pathways and manage loads efficiently, greatly improving operational stability and efficacy.

Precision in Assembly Processes

When it comes to delicate assembly tasks, the Walker S1 robots showcased remarkable dexterity, particularly when handling deformable materials. They utilized adaptive detection and high-precision control technologies to ensure that materials remained intact and correctly aligned during assembly. This versatility highlights UBTECH's commitment to innovation, as the robots are equipped with touch-sensitive hands that enhance their functionality in complex industrial applications.

Furthermore, the robots employ combined visual positioning with force-based secondary positioning through reinforcement learning, enabling them to undertake quality inspections and intricate processes with unmatched precision and adaptability. This capability paves the way for utilizing humanoid robots in various industrial tasks, optimizing workflows across multiple production lines.

Partnership and Future Developments

UBTECH is collaborating with several prominent industry players, including Geely Auto and FAW-Volkswagen, to implement the Walker S1 humanoid robots in more factories than any other humanoid robot series globally. With the rollout of Practical Training 2.0, UBTECH is poised to accelerate the integration of humanoid robots into diverse manufacturing environments, thereby reinforcing the evolution of robotics in industrial applications.

The synergy created through this revolutionary collaborative training highlights UBTECH's commitment to pushing the boundaries of robot capabilities. As the company continues to refine its models of AI and robotic functionality, the future of swarm intelligence in humanoid robots appears promising, heralding a new era of intelligent manufacturing.