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<h2>Introducing the Next Generation of Humanoid Robots at Geely's Zeekr 5G Smart Factory</h2>
<h3>A New Era of Human-Like Teamwork in Manufacturing</h3>
<p>In a groundbreaking advancement in the manufacturing sector, Geely's Zeekr 5G smart factory in Ningbo, east China's Zhejiang Province, is ushering in a new era of industrial automation. At the heart of this technological revolution are dozens of advanced humanoid robots that are working together seamlessly on the factory floor—sorting materials, transporting boxes, and assembling delicate car parts. This marks a significant shift toward human-like teamwork in manufacturing.</p>
<p>These state-of-the-art robots, known as Walker S1 robots, have been developed by the Shenzhen-based technology company UBTECH. What makes this development particularly noteworthy is that it is the first instance where multiple humanoid robots have been trained to collaborate on a diverse array of tasks across complex zones in a real-world factory environment.</p>
<h3>The Power of "Brain Network" System</h3>
<p>The Walker S1 robots operate using UBTECH's innovative "brain network" system, which transforms them from individual units into a synchronized, collaborative team. Jiao Jichao, vice president of UBTECH, explains that the "brain network" system consists of a "super brain" for decision-making and "mini-brains" for real-time actions.</p>
<h4>The "Super Brain" for Centralized Decision-Making</h4>
<p>The "super brain" acts as a central hub for decision-making. Using sophisticated artificial intelligence (AI) systems like DeepSeek, it analyzes an extensive array of data and assigns tasks, functioning similarly to a human manager who oversees and coordinates workflows.</p>
<h4>The "Mini-Brains" for Real-time Actions</h4>
<p>Conversely, each robot is equipped with a "mini-brain" that allows it to perceive its surroundings in real time. For instance, it can adjust its grip strength to handle fragile parts delicately while simultaneously sharing live updates with its "teammates" on the factory floor.</p>
<p>This dual system ensures that the robots are not only highly capable individually but also function as a well-coordinated team.</p>
<h3>A Day in the Life of the Walker S1 Robots</h3>
<p>In the Zeekr 5G smart factory, the Walker S1 robots are seen tracking components across different work zones using their advanced camera systems. By mapping out workspaces and continually monitoring their environment, these robots can navigate the factory floor efficiently.</p>
<p>One key feature is their ability to handle flexible materials like film without causing damage. Such tasks require a high degree of dexterity and precision, attributes that the Walker S1 robots have been designed to master.</p>
<h3>Data Gathering and Skill Improvement</h3>
<p>A pivotal aspect of UBTECH’s "brain network" system is its data-gathering capability. The robots continuously collect data while performing their tasks, which helps in refining their skills. According to Jiao, this process has already generated "hundreds of millions" of real-world industrial data points stored in a centralized knowledge database. Robots can quickly learn new skills for various assembly line roles by accessing this rich repository of data.</p>
<h3>Expanding Collaborations</h3>
<p>UBTECH has already established partnerships with other automakers such as BYD and BAIC, as well as with logistics giant SF Express. These collaborations aim to advance the applications of the Walker S series robots within different industries.</p>
<h4>Future Plans</h4>
<p>"We are planning to partner with more factories, comprehensively promote the implementation of multi-robot collaborative training, and scale up the use of humanoid robots in industrial settings," said Jiao Jichao.</p>
<h3>Maintenance and Repair Techniques for Walker S1 Robots</h3>
<h4>Regular Software Updates</h4>
<p>One major part of maintaining these robots involves regular software updates. Given that the "super brain" and "mini-brains" are AI-driven, software updates can improve decision-making algorithms, enhance data interpretation, and optimize task assignments. UBTECH should offer over-the-air updates, which allow the robots to download and apply new software versions without requiring physical intervention.</p>
<h4>Hardware Maintenance</h4>
<p>The physical components of the Walker S1 robots need regular check-ups to ensure optimal performance. This includes inspections of motor functions, sensor calibrations, and battery health checks. For example, the camera systems used for tracking components require lens cleaning and software recalibrations to maintain high-precision tracking capabilities.</p>
<h4>Data Backup and Recovery</h4>
<p>Since the "brain network" system relies heavily on a centralized knowledge database that stores "hundreds of millions" of real-world industrial data points, ensuring that this data is securely backed up is crucial. Regular backups to secure servers or cloud storage can protect against data loss due to hardware failures or cyber-attacks.</p>
<h4>Error Diagnosis and Troubleshooting</h4>
<p>To diagnose any issues within the "brain network" system, UBTECH should employ a real-time monitoring system that tracks the performance of both the "super brain" and the "mini-brains." This monitoring system can alert engineers about any anomalies or errors in real time, such as a robot failing to grasp a part correctly or a "mini-brain" reporting a malfunctioning sensor.</p>
<p>Detailed logs and error reports generated by the monitoring system can be analyzed to pinpoint the root causes of any problems. Once identified, fixes can be implemented either through software patches or hardware repairs.</p>
<h4>Scalable Training Programs</h4>
<p>One of the main advantages of the "brain network" system is the ability to quickly train robots for new tasks. To ensure that the robots remain effective as manufacturing processes evolve, UBTECH should continuously update the centralized knowledge database with new data and training protocols.</p>
<p>This could involve simulating new tasks in a controlled virtual environment where robots can practice and refine their skills without interrupting the actual factory operations. Once a new skill is mastered in the virtual environment, it can be transferred to the real-world robots.</p>
<h4>Collaboration with OEMs for Custom Solutions</h4>
<p>Since UBTECH plans to expand its partnerships, it might need to develop customized maintenance and repair strategies for specific clients like Zeekr, BYD, BAIC, and SF Express. For instance, an auto manufacturer might require more robust robots capable of handling heavy parts, while a logistics company might need robots optimized for sorting and transporting a wide variety of packages.</p>
<p>To cater to such diverse needs, UBTECH could work closely with original equipment manufacturers (OEMs) to understand their unique requirements and tailor maintenance and repair techniques accordingly.</p>
<h3>Conclusion</h3>
<p>The humanoid robots deployed at Geely’s Zeekr 5G smart factory in Ningbo represent the cutting edge of manufacturing technology. UBTECH’s Walker S1 robots, with their "brain network" system comprising a "super brain" for centralized decision-making and "mini-brains" for real-time action, are setting a new standard for human-like teamwork on factory floors.</p>
<p>Through a combination of technologically advanced AI, real-time data gathering, and a continuously updated knowledge database, these robots are not only performing tasks with remarkable precision but also learning and improving over time.</p>
<p>As UBTECH continues to expand its partnerships and scale up the deployment of humanoid robots, it is poised to make a significant impact on the future of industrial automation. With appropriate maintenance and repair techniques such as regular software updates, hardware check-ups, data backups, real-time error monitoring, and scalable training programs, these robots can maintain their optimal performance and continue to push the boundaries of what is possible in manufacturing.</p>
<p>The future looks bright for the manufacturing industry as it embraces this new era of humanoid robots and human-like teamwork.</p>
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