- Stock: In Stock
- Product code: 00-00014530
- Weight Brutto: 42.00kg
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Unitree G1 Edu Pro E-U11 humanoid robot for robotics research and education
Unitree G1 Edu Pro E-U11 — is a humanoid robot for research, artificial intelligence algorithm development, and educational projects, with 35 degrees of freedom, two Revo 2 Basic robotic hands, and two high-level computing modules. The model is designed for universities, research laboratories, R&D teams, educational centers, and innovative enterprise units working on tasks related to movement, navigation, interaction with objects, and autonomous robot behavior. The platform can also be used for demonstrations at exhibitions, conferences, technology forums, and corporate events where the capabilities of modern humanoid robotics need to be showcased. The device supports all the functions of the Unitree G1 Edu Standard Edition version.
Main advantages of Unitree G1 Edu Pro E-U11
- 35 degrees of freedom. This configuration allows for the development of complex motor scenarios and the exploration of humanoid kinematics.
- Two Revo 2 Basic robotic hands. The five-finger design is suitable for testing algorithms for gripping and manipulating objects of various shapes.
- Two high-level computing modules. Computing resources can be used for control algorithms, machine learning, and artificial intelligence experiments.
- AI development platform. The robot allows for the exploration of autonomous behavior, motion planning, and interaction with the surrounding environment.
- Training in movements, navigation, and object handling. The humanoid robot can be used for practicing practical scenarios in robotics and scientific projects.
- 18-month warranty. The warranty period applies to Unitree G1 Edu Pro E-U11.
- Platform for education and research. Unitree G1 Edu Pro E-U11 is suitable for universities, research laboratories, innovation centers, and teams working on robotics projects.
Design and motor capabilities
The Unitree humanoid robot is built on a human-like scheme with movable joints of the arms, legs, and torso. The design allows for practicing tasks of balancing, moving, and coordinating movements.
The presence of 35 degrees of freedom creates conditions for exploring complex movement trajectories and interactions between individual joints. This architecture is useful for training control algorithms and evaluating the behavior of humanoid robots in various scenarios.
The arms and legs work as a single kinematic system, allowing for the exploration of movements similar to human ones. This is important for educational programs, robotics courses, and mobility experiments.
Revo 2 Basic robotic hands
Unitree G1 Edu Pro E-U11 is equipped with two five-finger Revo 2 Basic robotic hands. They are designed for working with objects and testing gripping algorithms.
The Revo 2 Basic robotic hands allow for exploring various ways of interacting with objects, including holding, transferring, and changing the position of items. These capabilities are useful for training robots to work with hands and collecting data for machine learning algorithms.
The presence of two hands also allows for modeling scenarios of bilateral manipulation, which are often used in humanoid robotics research.
Computing capabilities and AI development
The Unitree G1 Edu Pro E-U11 humanoid robot is equipped with two high-level computing modules. They can be used for developing and testing control algorithms, machine learning, and autonomous behavior.
The platform is suitable for tasks related to motion research, navigation, and analyzing the interaction of the robot with the surrounding environment. The AI development robot can be used in educational courses, laboratory work, and research projects where a real humanoid platform is needed to verify algorithms.
Since the list of software tools is not confirmed for this model in the provided source, information about the support of specific development platforms requires additional clarification before ordering.
Compatibility with educational platforms
Unitree G1 Edu Pro E-U11 is adapted for use in universities, research laboratories, and educational centers. The open architecture simplifies integration with additional equipment and software complexes.
The humanoid robot supports working with:
- ROS 2;
- Python;
- C++;
- NVIDIA JetPack;
- external cameras;
- additional LiDAR sensors;
- laboratory data collection systems;
- research machine learning platforms;
- network Ethernet devices;
- GPIO modules and peripheral equipment.
Thanks to standardized connection interfaces, the platform easily adapts to various scientific and educational projects. The availability of technical documentation and developer tools allows for quickly starting work on your own research tasks.
Applications
Unitree G1 Edu Pro E-U11 is designed for research, educational, and engineering tasks where a real humanoid platform is needed to verify algorithms and practical robot operation scenarios. The model can be used in scientific projects as well as during technological demonstrations, exhibitions, production research, and public events.
- Universities: teaching students robotics, mechatronics, and control systems.
- R&D laboratories: testing new algorithms for movement, navigation, and interaction with objects.
- Robotics: exploring humanoid kinematics and controlling multi-joint systems.
- Artificial intelligence: training and verifying models of autonomous robot behavior.
- Educational centers: conducting practical classes and demonstrations of robotic technologies.
- Human-machine interaction research: studying ways of human interaction with humanoid robots.
- Autonomous navigation testing: practicing orientation and movement algorithms in indoor environments.
- Object handling: researching scenarios of gripping, holding, and moving objects.
- Technological exhibitions and demonstration events: presenting robotic developments, scientific projects, and educational programs.
- Events and public activities: demonstrating the capabilities of humanoid robots during conferences, forums, and thematic exhibitions.
- Production research: verifying the prospects of using humanoid robots in auxiliary operations and experimental production processes.
- Corporate innovation centers: testing new approaches to automation and robot interaction with personnel.
- New technology development centers: collecting data for creating and improving robot control algorithms.
To better understand how the Unitree G1 Edu Pro E-U11 works, watch the video below. It shows the robot's movements, its capabilities, and examples of use for training, research, algorithm testing, and demonstrations.
Package contents
Unitree G1 Edu Pro E-U11 is delivered assembled and ready for initial setup upon receipt. The exact package contents depend on the configuration and are agreed upon before placing the order.
- Humanoid robot Unitree G1 EDU — 1 pc.
- Battery 9000 mAh — 1 pc.
- Charger 54 V 5 A — 1 pc.
- Hand controller — 1 pc.
- Additional computing module (depending on configuration) — 1 pc.
Technical specifications of Unitree G1 EDU Pro E-U11
| Parameter | Value |
|---|---|
| Net weight with battery | Approximately 35 kg |
| Number of degrees of freedom (DOF) | 35 DoF |
| Degrees of freedom of one leg | 6 |
| Degrees of freedom of the torso | 1 |
| Degrees of freedom of one arm | 5 |
| Type of manipulator hands | Revo 2 Basic (five-fingered humanoid) |
| Folded position dimensions | 690x450x300 mm |
| Working position dimensions | 1320x450x200 mm |
| Maximum load on the arm | Up to 3 kg |
| Maximum knee joint torque | 120 Nm |
| Joint bearings | Industrial cross roller bearings |
| Type of drives | PMSM with internal rotor, low inertia, and high speed |
| Torso rotation (Z-axis) | ±155° |
| Torso tilt (X-axis) | ±30° |
| Torso tilt (Y-axis) | ±30° |
| Knee joint movement | 0° ~ 165° |
| Hip joint (Pitch) | ±154° |
| Hip joint (Roll) | -30° ~ +170° |
| Hip joint (Yaw) | ±158° |
| Wrist (Pitch) | ±92.5° |
| Wrist (Yaw) | ±92.5° |
| Hollow internal wiring through joints | Yes |
| Joint encoders | Dual encoders |
| Cooling system | Local air cooling |
| Battery type | Lithium battery 13S |
| Battery capacity | 9000 mAh |
| Removable battery | Yes (hot-swap support) |
| Autonomous operation time | Up to 2 hours |
| Charger | 54 V, 5 A |
| Basic computing platform | 8-core high-performance processor |
| High-performance computing module | NVIDIA Jetson Orin NX 16GB |
| Environmental perception sensors | Intel RealSense D435i depth camera, 3D LiDAR, Unitree 4D LiDAR-L1 |
| Microphone array | 4 integrated microphones |
| Built-in speaker | 5 W |
| Wireless interfaces | Wi-Fi 6, Bluetooth 5.2 |
| Access to hardware interfaces | Two Gigabit Ethernet ports (RJ45), 4 x USB-C, GPIO buses, I²C, UART |
| Power outputs | 12V, 24V, 58V |
| Software environments | ROS 2, Python, C++, unitree_sdk2, URDF models |
| Secondary development | Fully supported |
| OTA updates | Supported |
| Manufacturer's warranty | 18 months |
| Purpose | Academic research, artificial intelligence, machine learning, SLAM testing |
Usage precautions for Unitree G1 Edu Pro E-U11
- Startup without support. Do not turn on the Unitree G1 Edu Pro E-U11 if the robot is lying on the floor, tilted, or in an unstable position without support. Initial startup, calibration, and basic movement testing should be performed on a protective suspension stand or a special support chair.
- Incorrect battery installation. Do not force the battery into the housing with excessive force. If the battery does not smoothly slide along the guides to the fixation point, stop the installation and check its position. Forcing the installation may damage the power connectors and internal contact groups.
- Programming without development mode. Do not send custom commands via SDK without first switching to the development mode provided by the manufacturer. Otherwise, a conflict may arise between external commands and the built-in motion controller, which can cause jerks, drive tremors, stabilization errors, or mechanical damage to nodes.
- Exceeding hand load. Do not exceed the permissible load for the Revo 2 Basic robotic hands. Working with overly heavy objects can lead to servo overheating, accelerated gear wear, and loss of gripping accuracy.
- Connecting modules under voltage. Do not connect or disconnect external sensors, expansion boards, or other modules to GPIO, I²C, UART, or other ports when the robot is powered on. All work with additional equipment, useful load, and external modules should be performed only after the device is completely powered off.
- Testing new scenarios. Do not run unverified walking, manipulation, or balancing algorithms near people, animals, glass surfaces, stands, or expensive equipment. Conduct initial tests in a free zone with sufficient space around the robot and the ability to quickly stop command execution.
- Mechanical interference during movement. Do not touch joints, hands, knee nodes, shoulder drives, and moving parts while the robot is operating. The Unitree G1 Edu Pro E-U11 drives have high torque, so physical interference during movement can be dangerous for the user and the equipment itself.
Buy Unitree G1 Edu Pro E-U11
If you plan to buy Unitree G1 Edu Pro E-U11 for research or educational tasks, check the current Unitree G1 price, price list, and available configurations before placing an order.
