Unitree Go2 Edu U2 Robot Dog
The Unitree Go2 Edu U2 is a next-generation quadruped robot engineered for exceptional mobility, intelligent navigation, and versatile performance. Equipped with Unitree’s proprietary 4D LiDAR system, it offers an ultra-wide 360° × 90° field of view, enabling precise obstacle detection with minimal blind spots. Advanced AI simulation allows for complex behaviors such as upside-down walking, adaptive rollover, and rough terrain climbing—all with impressive stability and control.
Designed for education, research, and industrial innovation, the Unitree Go2 Edu U2 features flexible battery options for longer runtime, along with an Intelligent Side-Follow System that enhances real-time positioning and user interaction. This robot redefines high-performance robotics with an accessible, developer-friendly platform built for real-world applications.
Unitree Go2 Edu-U2 – Advanced Robotic Dog for Education & Research
Advanced 4D Ultra-Wide LiDAR for Precise Environmental Awareness
The Unitree Go2 EDU U2 is equipped with a cutting-edge 4D LiDAR system that offers an ultra-wide 360° × 90° field of view. This advanced LiDAR technology enables the robot to achieve precise obstacle detection and safe navigation, even across complex and dynamic terrains. With minimal blind spots and a minimum detection distance as low as 0.05 meters, the Go2 EDU-U2 ensures reliable performance in various environments, making it ideal for applications in research, industrial inspections, and autonomous exploration.
AI-Driven Autonomous Mobility
Powered by advanced AI algorithms, the Unitree Go2 Edu U2 can analyze its surroundings in real time, allowing for smooth and adaptive navigation without the need for external control. Its AI-driven mobility enables it to perform complex maneuvers such as upside-down walking, adaptive rollovers, and climbing over obstacles with excellent flexibility and stability. This makes the robot suitable for a wide range of applications, including urban exploration, indoor navigation, and rugged outdoor terrains.
Enhanced Battery Options for Extended Missions
Unitree Go2 Edu U2 is designed to support long-duration operations, featuring a 15,000mAh battery that provides up to 2–4 hours of continuous use. The high-capacity battery ensures uninterrupted performance during demanding tasks, such as industrial inspections, research projects, or educational demonstrations. Additionally, the robot supports fast charging, minimizing downtime and enhancing operational efficiency.
ISS 2.0 Intelligent Side-Follow System
The upgraded ISS 2.0 system allows Unitree Go2 Edu U2 to follow a person or object with high accuracy, maintaining consistent tracking even in crowded or fast-changing environments. This intelligent side-follow capability makes the robot ideal for collaborative tasks, guided inspections, or demonstrations, where close-proximity support and precise following are critical.
Real-Time 3D LiDAR Mapping
Equipped with real-time 3D LiDAR mapping, the Go2 EDU-U2 can construct detailed spatial models of its environment. This capability is especially valuable in construction monitoring, surveying, exploratory research, and industrial automation, as it enables both precise navigation and comprehensive data collection for analysis or reporting.
Dynamic Actions and Flexible Poses
Thanks to its flexible joints and advanced motor control, the Unitree Go2 Edu U2 can perform dynamic movements with ease. It can execute complex poses and gestures, making it suitable for educational demonstrations, interactive learning, and industrial applications. Its lifelike expressions combined with technical precision allow it to adapt to both functional and engaging use cases.
Expandable Computing for Advanced AI Applications
The Unitree Go2 Edu U2 supports the integration of the Jetson Orin NX computing module, providing enhanced processing power for advanced AI applications. This expandability allows users to deploy custom AI algorithms, conduct machine learning experiments, and develop sophisticated robotic behaviors. The modular design ensures that the robot can evolve alongside technological advancements and research requirements.
Advanced Communication and Control Capabilities
Equipped with 4G connectivity, WiFi 6, and Bluetooth, the Unitree Go2 Edu U2 offers seamless communication and control options. The built-in eSIM facilitates stable remote operation, while the OTA (Over-The-Air) update capability ensures the robot’s software remains current with the latest enhancements. These advanced communication features make the Go2 EDU-U2 suitable for applications requiring real-time data transmission and remote monitoring, such as in-field inspections or remote research projects.
High Payload Capacity for Versatile Applications
The Go2 EDU-U2 is designed to support a substantial payload capacity of up to 8 kg, making it an ideal platform for integrating various research tools, sensors, and cameras. This capability allows for the customization of the robot to meet specific operational needs, such as environmental monitoring, data collection, or experimental setups. The robust design ensures that the added equipment does not compromise the robot’s stability or performance, enabling reliable operation in diverse research scenarios.
Specifications
Specifications
| Feature | Specification |
|---|---|
| Dimensions | 70 × 31 × 40 cm |
| Weight | 15 kg (including battery) |
| Speed | 0–3.7 m/s (~13 km/h) |
| Payload Capacity | Up to 8 kg (max 10 kg) |
| Battery Capacity | 15,000 mAh |
| Operating Time | 2–4 hours depending on load |
| Maximum Climbing Height | 16 cm |
| Maximum Climbing Slope Angle | 40° |
| Connectivity | Wi-Fi 6, Bluetooth 5.2, 4G eSIM, OTA updates |
| Control Interface | Mobile app, handheld controller, SDK, ROS/ROS2 |
| Sensors | AI vision cameras, IMU, depth vision, optional 4D LiDAR |
| Additional Features | ISS2.0 Intelligent Side-Follow, 3D LiDAR mapping, voice interaction, dynamic poses, modular computing |
FAQs
What is the difference between the Unitree Go2 AIR, PRO, and EDU models?
The main differences lie in payload capacity, maximum speed, battery options, and computing power.
EDU is tailored for advanced research, featuring an optional NVIDIA Jetson Orin module and a larger 15000mAh battery for extended use.
PRO offers a balance of speed (up to 3.5 m/s) and features like force sensors and ISS 2.0.
AIR is the lightweight, entry-level option with core features for general mobility and autonomy
What is the maximum speed of the Unitree Go2 Edu U2?
Unitree Go2 Edu U2 can run up to 3.7 m/s (~13 km/h), allowing for agile movement across various terrains.
How long can Unitree Go2 Edu U2 operate on a single charge?
Depending on payload and terrain, the Unitree Go2 Edu U2 can operate for 2–4 hours.
What is the maximum payload capacity?
It supports a payload of 8 kg, with a maximum limit of 10 kg, suitable for additional sensors or equipment.
Does the Go2 EDU-U2 have LiDAR?
Yes, Unitree Go2 Edu U2 features an optional 4D LiDAR system for ultra-wide obstacle detection and mapping.
How does ISS 2.0 improve tracking and follow performance?
ISS 2.0 is a wireless vector positioning system that improves tracking accuracy by up to 50% over earlier versions. It allows smooth, intelligent side-following — even around obstacles or in dynamic environments.
Can the robot navigate slopes or stairs?
Yes, it can climb steps up to 16 cm and navigate slopes up to 40°, maintaining stability on uneven surfaces.
Is it possible to program custom actions or behaviors?
Yes. The Go2 supports graphical programming and is designed for secondary development.
This enables users to create custom movements, behaviors, and applications — ideal for education and R&D.
Does the Go2 support real-time control over WiFi or Bluetooth?
Absolutely. Unitree Go2 Edu U2 features:
WiFi6 dual-band (802.11ax)
Bluetooth 5.2/4.2/2.1
These enable seamless image transmission, control (RTT 2.0), and monitoring in real time.
What after-sales support and warranty does Unitree offer?
AIR: 6-month warranty
PRO & EDU: 12-month warranty
Warranty covers manufacturer defects, with repair/replacement support under defined conditions.
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