Cruzr S2
Commercial AI service robot for reception, guidance, and customer interaction
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Overview
Cruzr S2 is UBTECH’s next-generation commercial service robot platform designed for reception, guidance, delivery, and intelligent customer interaction in public and enterprise environments. It integrates multimodal AI interaction, autonomous navigation, semantic mapping, and cloud-connected management capabilities for scalable commercial deployment.
Cruzr S2 is a wheeled humanoid robot, not a bipedal platform. It uses an omnidirectional wheeled base rather than legs, with a symmetrical body design and bidirectional waist bending. Waist rotation is ±170° within 0.8m passages. A 0–40cm vertical lifting range allows it to handle a 15kg payload across a 0–1.8m workspace, per UBTECH’s official product page. Top speed is 2 m/s. The perception system uses a passive binocular RGB stereo vision system identical to the Walker S2’s. Height, weight, and degree-of-freedom count are not published in text form on UBTECH’s official page.
Cruzr S2 uses the same fourth-generation industrial-grade dexterous hands and Co-Agent AI system as the Walker S2. UBTECH describes the hands as capable of sub-millimeter manipulation in sorting, component assembly, and multi-scenario grasping, trained via a sim-to-real embodied intelligence data pipeline.
UBTECH positions Cruzr S2 for industrial applications in logistics, warehousing, and manufacturing — explicitly as an industrial wheeled humanoid rather than a service robot. This distinguishes it from the original Cruzr, which was a commercial service and reception robot. No pricing is publicly listed; contact UBTECH directly.
Specifications
| Height | 1.52 m / 4' 12'' |
|---|---|
| Weight | 65 kg / 143.3 lb |
| Degrees of Freedom | 13 |
| Locomotion | wheeled |
| Payload | 15 kg |
| Battery Type | — |
| Speed | 2 m/s |
| Rated Runtime | 8 h |
Sensors
| Cameras | — |
|---|---|
| Depth Sensing | Yes |
| Lidar | Not disclosed |
| IMU | Yes |
| Microphones | Not disclosed |
| Tactile Sensing | basic collision and touch sensing |
Software
| Control Mode | autonomous, voice interaction, teleoperation, hybrid |
|---|---|
| Middleware | — |
| SDK | cloud platform, fleet management, AI interaction APIs |
| Connectivity | — |
Last updated 05 Jul 2026