The UBTECH Walker S2 is an industrial humanoid robot engineered for heavy-duty automation tasks in manufacturing environments.
Standing 176 mm tall with a total weight of 75 kg, the platform delivers 52 degrees of freedom distributed across its body: 6 DOF per leg, 7 DOF per arm, and 2 DOF for waist and head articulation.
This configuration enables the flexible, human-like movements necessary for navigating complex production spaces and performing multi-axis manipulation tasks.
Each arm supports payloads up to 15 kg, making the Walker S2 suitable for material handling, parts transfer, and assembly operations that require bimanual coordination.
The system operates for approximately 2 hours per charge at a maximum speed of 2 m/s.
The platform is built on full-stack humanoid technology that integrates AI-driven planning, visual simultaneous localization and mapping (VSLAM), and learning-based motion control.
This architecture allows the robot to perceive its environment, plan task sequences, and adapt movements based on operational feedback.
Manufacturing engineers and automation integrators evaluating humanoid solutions for flexible work cells should consider the Walker S2 where anthropomorphic form factor and dual-arm manipulation are required.