Unitree Robotics has introduced the new H2 robot with a high-performance computing module delivering up to 2070 TOPS

Unitree Robotics, a global leader in innovative robotics that is shaping a new paradigm in the development and integration of autonomous systems, has unveiled the flagship humanoid platform Unitree H2.

The new model represents a systemic evolution in the design of next-generation robots, focusing on bionic kinematics, high-precision mechatronics, and intelligent motion control algorithms. The H2 combines industrial-grade architecture, powerful computing modules, and adaptive software that evolves through OTA updates, laying the foundation for a wide range of applications in research, education, and industrial automation. 

The architecture of the new robot 

With a height of 182 cm and a weight of about 70 kg, Unitree H2 features human-like proportions that ensure stability, balance, and natural movement. 

The structural frame is made of aircraft-grade aluminum, titanium alloys, and high-strength engineering plastics — a combination that guarantees high rigidity, minimal weight, and resistance to deformation. This design allows for efficient load distribution across components while maintaining precise kinematic accuracy. 

Motion control algorithms 

Unitree H2 is equipped with an advanced motion control system featuring 31 degrees of freedom, enabling the precise replication of a wide range of biomechanical movements. The joint design provides torque of up to 360 N·m in the legs and 120 N·m in the arms, ensuring stable operation under high loads and accurate execution of complex dynamic motions. 

Movements are coordinated by low-inertia PMSM motors with internal rotors and industrial-grade crossed roller bearings, delivering high positioning accuracy, fast response, and stability across the kinematic chain.

The H2’s control algorithms are continuously updated via the OTA system, allowing the optimization of dynamic models, improved energy efficiency, and adaptive motion trajectories according to environmental conditions. As a result, H2 operates as an evolutionary robotic system capable of refining its own algorithms without physical intervention. 

Computing system and Artificial Intelligence

The architecture of Unitree H2 is built around a high-performance computing module delivering up to 2070 TOPS, providing support for modern artificial intelligence models and autonomous control algorithms. This configuration enables the system to simultaneously process sensor data, perform complex real-time computations, and adapt its behavior to environmental conditions.

With its scalable computing architecture, H2 supports multiple AI models, expanding its application range—from educational and research use to industrial automation.

The H2 EDU variant is specifically designed for educational and scientific environments. It supports secondary development, granting access to internal interfaces, APIs, and algorithmic control layers. This makes H2 EDU an open platform suitable for developing custom software solutions, experimenting with AI models, and validating research concepts in real-world conditions.

Power system and sensor integration

Unitree H2 is equipped with a 15 Ah (0.972 kWh) lithium battery operating at a maximum voltage of 75.6 V, providing up to 3 hours of autonomous operation. The power system is built on low internal resistance cells, ensuring stable output even under peak loads. Operational efficiency during extended cycles is maintained through a localized air-cooling system that balances the thermal performance of internal components. 

The sensor architecture includes:

• a binocular camera with a wide field of view,

• an array microphone and high-power speaker for voice interaction,

• Wi-Fi 6 and Bluetooth 5.2 wireless connectivity modules.

Together, these systems form a multimodal perception infrastructure that enables navigation, spatial orientation, and interactive communication with the user.

Unitree H2 represents a new stage in the evolution of humanoid robotics, expanding the boundaries of autonomous interaction between humans and machines.

Futurology is the official distributor of Unitree Robotics. The brand’s products are available through Futurology’s dealer network in the United States. For partnerships or more information, please contact info@futurology.tech.