00:00Welcome to the video from the Car Magazine Tuning Bog on the topic of Zika.
00:08UBTC has achieved a significant milestone in humanoid robotics and successfully conducted collaborative training with multiple humanoid robots in Seegar's 5G Intelligent Factory for the first time.
00:18The Walker-S1 humanoid robots work seamlessly together in industrial environments with multiple tasks and scenarios, thereby enabling a new level of swarm intelligence.
00:32This represents a crucial advancement, as the robots no longer act as individual agents, but cooperate as an intelligent collective.
00:39UBTC has developed the BrainNet framework for this purpose, which combines a super-brain with hybrid decision-making capabilities and an intelligent sub-brain for cross-field perception and collaborative control.
00:55This system allows humanoid robots to efficiently divide and coordinate tasks and further develop their skills independently.
01:02The robots are equipped with a multimodal decision-making model based on industrial data, which significantly improves precision and scalability in industrial applications.
01:15In the ZR-5G Intelligent Factory, dozens of Walker-S1 robots were deployed in complex production areas, including final assembly, instrumentation, quality inspection, and vehicle assembly.
01:26The robots performed collaborative sorting, handling, and precision assembly tasks.
01:35They used vision-based technology to optimize sorting processes by recognizing and mapping dynamic targets.
01:43Their hybrid decision-making combines semantic navigation with dexterous handling, allowing them to respond flexibly to production demands.
01:50When handling large workpieces, the robots overcome challenges such as uneven load distribution or dynamic environmental influences.
02:01Thanks to collaborative planning and adaptive control, they adjust their posture and force in real-time, which increases efficiency.
02:09They also demonstrate exceptional capabilities in precision assembly, for example when handling sensitive materials such as films.
02:17Their high-precision sensors enable dynamic adjustment of gripping force and posture to prevent damage.
02:26In addition, the Walker-S1 uses image-based initial positioning in combination with force-based adjustment through reinforcement learning.
02:35This enables quality inspection tasks to be performed with high precision.
02:40These technological advances pave the way for humanoid water as essential players in Industry 4.0.
02:47As always, you can find the link to read the article in our magazine in the video description.
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