Astribot S1 – AI Humanoid Robot That Learns, Thinks & Works Like Humans

$129,000.00
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Astribot S1 is a next-generation AI humanoid robot that learns, thinks, and works more like humans. Powered by the DFAI architecture, it delivers high-speed precision, advanced manipulation, VR teleoperation, and a complete development ecosystem for embodied AI research and intelligent automation.

Astribot S1 AI Humanoid Robot

Redefining Embodied Intelligence

Astribot S1 is a next-generation AI humanoid robot platform engineered for advanced research, robot learning, teleoperation, and real-world manipulation tasks.

Built on Astribot's Design For AI (DFAI) architecture, S1 combines powerful hardware, AI-native software, and a complete development ecosystem to accelerate embodied intelligence innovation.

Key Features

✓ Human-sized AI robot platform

✓ 7-DOF dual robotic arms

✓ Payload up to 5kg per arm

✓ End-effector speed ≥10m/s

✓ Position repeatability ±0.1mm

✓ VR teleoperation support

✓ Comprehensive API access

✓ Simulation platform compatibility

✓ AI model deployment toolkit

✓ Research-ready development environment

Designed for Research & Innovation

Astribot S1 provides a complete platform for:

  • Embodied AI research
  • Robot learning
  • Imitation learning
  • Human-robot interaction
  • Autonomous manipulation
  • Teleoperation data collection
  • Foundation model development

The platform enables researchers and developers to collect data, train policies, validate algorithms, and deploy intelligent robotic behaviors faster.

Advanced Development Ecosystem

Astribot provides a powerful software toolchain including:

  • Open API access
  • Visual development interface
  • Simulation environment support
  • Data collection workflows
  • AI deployment guidance
  • Technical support services

Applications

AI Research Labs

Develop and validate next-generation embodied intelligence models.

Universities

Accelerate robotics, machine learning, and autonomous systems research.

Data Collection Centers

Generate large-scale teleoperation datasets for model training.

Industrial Innovation

Explore intelligent automation and robotic manipulation workflows.

Technical Specifications

Height: 170 cm

Weight: 80 kg

Arm Span: 194 cm

Degrees of Freedom (Per Arm): 7 DOF

Payload (Per Arm): 5 kg

Maximum End-Effector Speed: ≥10 m/s

Position Repeatability: ±0.1 mm

Battery Runtime: 4–6 Hours

Operation Mode: Autonomous + VR Teleoperation

Development Support: API + SDK + Simulation