Core Specifications & Performance
The U10 stands out for its balance of power and high-degree-of-freedom (DoF) articulation, allowing it to perform movements that mimic or even exceed human capabilities.
| Feature | Specification |
| Total Degrees of Freedom | 35 to 37 DoF (depending on specific configuration) |
| Height (Standing) | 1320 mm (approx. 4’4″) |
| Weight | ~35 kg (including battery) |
| Knee Joint Torque | 120 N·m (Max) |
| Arm Payload | ~3 kg |
| Battery Life | ~2 hours (9000 mAh quick-release battery) |
| Max Speed | 2 m/s |
Key Technical Highlights
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Dexterous Manipulation: The U10 is typically equipped with two BrainCo Five-Finger hands (Revo 2 Basic) or Dex3-1 force-controlled three-finger hands. These include tactile sensors that enable the robot to handle delicate objects—like an egg—or perform precise tool-based tasks.
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Onboard Intelligence: It features a massive upgrade in computing power via the NVIDIA Jetson Orin module, providing up to 100 TOPS of AI performance. This allows for real-time reinforcement learning and complex neural network processing directly on the unit.
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Full-Spectrum Perception: The “head” serves as a sensor hub, integrating a Livox MID-360 3D LiDAR for 360° environmental mapping and an Intel RealSense depth camera for obstacle avoidance and object recognition.
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Advanced Mobility: Beyond walking, the G1 EDU series is known for its “extra-large” joint movement space, enabling it to perform squats, rolls, and recover from falls with high agility.
Developer & Educational Focus
The U10 is an open platform, making it a favorite for “Embodied AI” research:
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Secondary Development: Full access to high-level and low-level SDKs.
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Software Support: Native integration with ROS / ROS 2 and Python, allowing researchers to program custom gait, balance, and manipulation algorithms.
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Design: Features “full joint hollow electrical routing,” meaning all cables are internal, protecting the wiring during complex maneuvers and providing a clean, professional aesthetic.
Best Use Cases
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University Labs: Studying human-robot interaction (HRI) and bipedal biomechanics.
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Industrial Automation: Prototyping “pick-and-place” tasks in environments designed for humans.
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Technology Showcases: Demonstrating the current state of humanoid AI at exhibitions or retail environments.
Reviews
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