Robo-dog Unitree As2 Edu-U4

Unitree As2 Edu-U4 Robot Dog for Developers, Education, and Complex Autonomous Scenarios

Unitree As2 Edu-U4 is an advanced educational and research version of the Unitree As2 robot dog for developing, testing AI algorithms, autonomous navigation, and applied industrial tasks. The Edu-U4 version includes all features of the AS2 Edu Standard U1, has a built-in computing dock station 100 TOPS, supports secondary development, and includes technical support for AI Algorithm. The standard configuration includes 3 depth cameras and LiDAR Livox Mid-360, making the platform convenient for working with spatial perception, mapping, obstacle detection, and navigation algorithm testing. Unitree As2 Edu-U4 is suitable for universities, laboratories, engineering teams, and companies that need a mobile robotic platform for education, research, autonomous movement, patrolling, logistics, industrial testing, and demonstration projects. The robot dog weighs approximately 18 kg with the battery, has 12 joint motors, reaches speeds of over 5 m/s without load, provides a joint torque of about 90 Nm, overcomes steps up to 25 cm, moves on slopes around 40°, and has IP54 protection.

Key Advantages of Unitree As2 Edu-U4

• Full functionality of AS2 Edu Standard U1. The Edu-U4 version includes all the capabilities of the basic educational configuration U1, making it suitable for education, research, applied development, and working with robotic scenarios.
• Built-in computing dock station 100 TOPS. The computing module provides resources for local data processing, running AI algorithms, testing autonomous behavior, and working with applied tasks on a real robot.
• 3 depth cameras in standard configuration. Unitree As2 Edu-U4 has Depth Camera x3, which expands the possibilities of spatial perception, obstacle analysis, route control, and testing computer vision algorithms.
• LiDAR Livox Mid-360 in standard configuration. The robot dog is equipped with Livox Mid-360 LiDAR x1 and includes technical support for navigation algorithms. This is important for tasks of autonomous navigation, mapping, spatial orientation, and movement through complex routes.
• AI algorithm support. The Edu-U4 version includes technical support for AI Algorithm, which is useful for teams developing autonomous solutions, perception systems, behavioral models, and intelligent interaction with the robot.
• Support for secondary development. The platform provides access to technical materials, development manuals, robot models, simulation interfaces, and environments like Isaac Sim.
• Ecosystem for R&D teams. Unitree As2 Edu-U4 provides technical support, comprehensive development manuals, ecosystem support, robot models, simulation interfaces, and the ability to test solutions in simulation before launching on the physical platform.
• Long autonomy. The 648 Wh battery, or 15000 mAh, provides over 4 hours of continuous walking without load and a route of over 20 km. With a load of 15 kg, the robot dog works for over 2.5 hours and covers over 13 km.
• Working with payload. Unitree As2 Edu-U4 can carry approximately 15 kg while walking, and the maximum static load in a standing position is approximately 65 kg.
• Industrial mobility. The robot dog overcomes a step forward up to 25 cm, can climb a vertical platform up to 50 cm, and move on a slope around 40°, which is useful for testing autonomous movement on uneven surfaces and industrial routes.

Educational and Research Platform

Unitree As2 Edu-U4 is suitable for university laboratories, robotics educational programs, R&D teams, and companies working with mobile robots, autonomous navigation, mapping, computer vision, and artificial intelligence systems. The Edu-U4 version combines the functions of AS2 Edu Standard U1, a computing dock station 100 TOPS, 3 depth cameras, and LiDAR Livox Mid-360, making it usable not only for basic training but also for more complex autonomous scenarios. Developers can work with documentation, robot models, simulation interfaces, Isaac Sim, and other environments for preparing, testing, and optimizing their algorithms.

Movement Dynamics for Complex Routes

Unitree As2 Edu-U4 is designed for active quadrupedal movement, including running, climbing, overcoming obstacles, and navigating complex routes. The speed without load reaches over 5 m/s, the robot dog can climb a vertical platform up to 50 cm, overcome steps forward up to 25 cm, and move on slopes around 40°. These characteristics are useful for testing navigation algorithms, stabilization, movement planning, and autonomous behavior in real conditions.

Comprehensive Spatial Perception with 3 Depth Cameras and LiDAR

The key feature of Unitree As2 Edu-U4 is the extended sensor configuration: 3 depth cameras and LiDAR Livox Mid-360 in the standard package. This set of sensors provides more opportunities for spatial analysis, obstacle detection, route assessment, mapping, and navigation algorithm testing. LiDAR Livox Mid-360 is complemented by technical support for navigation, making the platform suitable for more complex autonomous movement scenarios in laboratory, demonstration, and industrial environments.

IP54 Protection for Laboratory and Field Testing

Unitree As2 Edu-U4 has IP54 protection, allowing it to be used in conditions of dust and water splashes within this class. This is important for testing not only in the laboratory but also on test sites, industrial facilities, warehouse areas, and patrol routes. The operating temperature range from −20 °C to 50 °C allows the robot to be used in various operating conditions.

Autonomy for Long-Term Testing and Patrolling

The 648 Wh battery, or 15000 mAh, provides over 4 hours of continuous walking without load and a route of over 20 km. With a load of 15 kg, Unitree As2 Edu-U4 works for over 2.5 hours and covers over 13 km. This is useful for long-term autonomous movement tests, patrolling, logistics scenarios, navigation research, and field demonstrations.

Power System for Stable Movement with Load

Unitree As2 Edu-U4 has 12 degrees of freedom and 12 joint motors, ensuring stable movement and operation with load. The maximum joint torque is approximately 90 Nm. The working load while walking is about 15 kg, and the maximum static load in a standing position can reach approximately 65 kg. This allows the robot to be used for carrying sensors, computing modules, test equipment, and demonstration loads.

Where Unitree As2 Edu-U4 is Used

• Educational laboratories. The robot dog is suitable for practical training in robotics, mechatronics, autonomous systems, mobile robots, computer vision, and robotic navigation.
• University research. Unitree As2 Edu-U4 can be used for testing movement algorithms, stabilization, spatial perception, mapping, autonomous navigation, and robot interaction with the environment.
• AI algorithm development. The built-in computing dock station 100 TOPS provides resources for local data processing, AI Algorithm testing, autonomous solutions, behavioral models, and interaction with robotic systems.
• Extended spatial perception. Thanks to three depth cameras in the standard configuration, the robot dog is suitable for environmental analysis, obstacle detection, computer vision testing, and working with complex routes.
• Autonomous navigation. LiDAR Livox Mid-360 in the standard package, along with technical support for navigation algorithms, allows Unitree As2 Edu-U4 to be used for mapping, spatial orientation, route planning, and testing autonomous movement.
• Autonomous movement testing. The robot dog allows testing routes, movement on slopes, overcoming steps, working on uneven surfaces, and platform behavior in real conditions.
• Patrolling. Unitree As2 Edu-U4 can be used for demonstration or testing of observation routes at technical, warehouse, industrial, and research facilities.
• Logistics. The platform is suitable for experimental scenarios of moving loads up to 15 kg while walking, as well as for testing logistics routes in warehouse and industrial environments.
• Demonstration projects. The Unitree robot dog is convenient for presentations, exhibitions, educational events, and public demonstrations of robotic solutions with autonomous navigation, LiDAR, and spatial perception systems.
• Industrial tasks. Unitree As2 Edu-U4 can be applied for applied testing in production, technical, and service processes, including scenarios of patrolling, logistics, monitoring, and autonomous movement.

Unitree As2 Edu-U4 Package

Unitree As2 Edu-U4 is delivered as an extended educational and development configuration for robotics, autonomous navigation, simulation, AI algorithms, and applied industrial tasks. The version includes all features of AS2 Edu Standard U1 and is additionally equipped with a built-in computing dock station 100 TOPS, three depth cameras, and LiDAR Livox Mid-360 in the standard configuration. The package may include the Unitree As2 Edu-U4 robot, a long-lasting 15,000 mAh battery, a fast charger 51 V / 9 A, a charging panel, a handheld control remote, technical support for AI Algorithm, technical support for navigation algorithms, development materials and manuals, support for robot models and simulation interfaces, support for Isaac Sim and other simulation environments, UniStore Application Platform, and OTA software updates. The exact package of Unitree As2 Edu-U4 should be clarified before ordering, as available modules and options may vary depending on supply.

Technical Specifications of Unitree As2 Edu-U4

Application Tips

• Determine the main usage scenario for Unitree As2 Edu-U4: education, research, demonstrations, patrolling, logistics, autonomous navigation, computer vision, or AI algorithm development.
• For tasks of autonomous movement, mapping, and spatial analysis, utilize the advantages of three depth cameras and LiDAR Livox Mid-360 in the standard configuration.
• For AI and local data processing tasks, consider the capabilities of the built-in computing dock station 100 TOPS.
• Check the operating conditions: temperature, route complexity, need for IP54 protection, presence of obstacles, and autonomy requirements.
• Prepare the team to work with technical documentation, simulations, robot models, Isaac Sim, and testing autonomous scenarios.

Buy Unitree As2 Edu-U4

Unitree As2 Edu-U4 can be tailored to tasks of education, research, autonomous navigation, AI algorithm development, patrolling, logistics, or industrial application. Our manager will consult on the current price, available modules, and configuration, and help choose the configuration that best meets your requirements.