Image:
Galbot
A general-purpose humanoid robot platform designed for scalable industrial applications and AI development.

ActionGPT
Height
127
cm
Weight
35
kg
Speed
2.0
m/s
Payload
2
kg
Actuators
Proprietary high-speed electric motors, planetary reducers
DoF (Domains of freedom)
23
°
Advanced semantic reasoning for complex voice-guided tasks.
Mass-produced integrated joints for high-load stability.


High-performance mapping system with ultra-low drift.
Three-layer safety monitoring and redundant hardware backup.
A general-purpose humanoid robot platform designed for scalable industrial applications and AI development.
Standing 127 cm and weighing 35 kg, the AgiBot G1 features 23 degrees of freedom. Powered by ActionGPT for semantic reasoning and high-speed electric motors with planetary reducers for agile locomotion.
Image:
Galbot
Designed for factory and domestic navigation. Features include millisecond-latency VR teleoperation, 360° sensing coverage, and the ability to mount 20 mm obstacles in industrial pathways.
G1 by AgiBot
Actuators
Proprietary high-speed electric motors, planetary reducers
DoF (Domains of freedom)
23
°
Height
127
cm
Speed
2.0
m/s
Weight
35
kg
Payload
2
kg
Runtime
2.0
h
OS / AI System
ActionGPT
Integrates Agibot's ActionGPT for semantic logic. It features proprietary six-axis force sensors on both arms for fine manipulation and end-cloud collaborative data validation.
Image:
Galbot
Primary clients are shopping malls, exhibition halls, and corporate offices. It is used as an interactive guide and receptionist for high-traffic indoor environments.
Represents the transition from rule-based interaction to LLM-driven semantic reasoning, allowing the G1 to understand and execute complex, multi-step natural language commands.
The compact 127cm frame makes the robot non-intimidating and highly agile, allowing it to operate comfortably around humans in tight indoor spaces.
Features a gait and arm-swing profile designed to be visually predictable, helping nearby people feel comfortable with its autonomous operations.
Utilizes LLM-based reasoning to understand natural language instructions, allowing it to follow "human" logic when executing simple domestic or office tasks.

