AgiBot D1 Ultra Quadruped Robot

AgiBot D1 Ultra quadruped robot: key points

• Compact industrial-grade quadruped robot, designed for multi-scenario applications in real-world environments.
• All-terrain locomotion: walking control based on reinforcement learning (RL), with self-balancing, anti-tip, and disturbance rejection capabilities.
• Advanced mobility: speed up to 3.7 m/s, jump height up to 35 cm, continuous stair climbing up to 16 cm, and maximum slope up to 40°.
• Static payload: approximately 8 kg.
• Compact form factor: 630 × 360 × 420 mm in standing position, for easier integration in mixed indoor / outdoor environments.
• IP54 protection: design intended for dusty, humid, muddy, or sandy environments.
• Secondary development: Open SDK, Ethernet, USB, SBUS, UART interfaces, and 12V/24V power supply for integrating sensors and external modules.
• Sensor / module compatibility: LiDAR, depth camera, RTK, 4G/5G module, video transmission, and other payloads.
• Simulation: support for URDF models and compatibility with Isaac Sim and MuJoCo.
• Actuation: peak joint motor torque of around 48 N·m and dual-encoder control, with no zero calibration required at startup.
• Travel range: up to 6 km unloaded (at 1.8 m/s) and 4 km with a 5 kg payload.
• Applications: research and education, inspection, security, emergency response, and advanced robotics experimentation.

Applications and project types (locomotion, perception, inspection, navigation, sensor integration)

The AgiBot D1 Ultra quadruped robot is intended for research laboratories, universities, and robotics professionals looking for a compact, mobile quadruped platform open to the integration of additional modules.

It is particularly relevant for projects involving locomotion on complex terrain, walking control, navigation in unstructured environments, robotic inspection, sensor fusion, and validation of algorithms in simulation before deployment on the real robot.

Practical examples: research on robust quadruped locomotion, SLAM experimentation with LiDAR or depth camera, inspection of technical sites, security robotics, emergency response scenarios, higher education in mobile robotics, and the development of demonstrators for R&D projects.

The AgiBot D1 Ultra is a relevant robotic platform for developing POCs, validating software building blocks, and testing onboard payloads before a possible industrialization phase.

Why choose the AgiBot D1 Ultra for a research or applied robotics project?

• Its compact size makes it easier to work in corridors, laboratories, technical platforms, or mixed test areas.
• Its quadruped mobility is valuable whenever terrain, stairs, uneven surfaces, or outdoor constraints limit the use of a wheeled platform.
• Its development ecosystem is designed for adding sensors, communication modules, and payloads intended for experimentation.
• Support for simulation via URDF facilitates workflows such as simulation → validation → field deployment.
• The robot is positioned for both academic and professional uses, making it an interesting platform for applied research projects.

Software ecosystem and development (SDK, interfaces, simulation)

The robot features an Open SDK for secondary development, as well as a set of standardized interfaces enabling the integration of external modules and various payloads. It also supports URDF models and can be used in simulation environments such as Isaac Sim and MuJoCo.

This approach is particularly useful for teams wishing to build a workflow combining modeling, simulation, locomotion testing, sensor integration, and validation on the real robot.

What information should you prepare for a quotation request?

To qualify a project around the AgiBot D1 Ultra, it is useful to specify: your estimated budget, the project timeline, your delivery address, the intended operating environment (indoor, outdoor, mixed), the sensors or modules you wish to integrate, as well as a short description of your use case (inspection, locomotion, research, education, navigation, data collection, etc.).