UBTECH Debuts Walker Tienkung, Revolutionizing Humanoid Robotics

Launching a New Era

UBTECH Robotics has officially launched its latest humanoid robot, the Walker Tienkung, marking a significant leap in advanced bipedal robotics. Available now at a premium price of approximately $115,000, this robot is positioned as a research-grade platform tailored for universities, labs, and developers pushing the boundaries of robotic innovation. Its release signals UBTECH’s commitment to transforming robotics from experimental curiosities into practical, versatile machines ready for real-world challenges. The Walker Tienkung’s debut arrives at a pivotal moment when the demand for intelligent, adaptable robots is surging across multiple industries.

Unmatched Adaptive Capabilities

Distinct from predecessors, the Walker Tienkung excels in fluid, human-like locomotion and interaction. It features cutting-edge sensory arrays including RGB and stereo cameras, LiDAR, ultrasonic sensors, and an IMU, enabling it to perceive its environment with precision. The robot’s ability to navigate complex indoor spaces through multi-modal SLAM (Simultaneous Localization and Mapping) and its collaborative mode for safe human interaction set it apart. These capabilities empower it to handle diverse payloads—from fragile scientific instruments to packages—while maintaining safe, intuitive operation alongside humans.

Engineering Breakthroughs Inside

At the heart of Walker Tienkung lies a fusion of robust engineering and sophisticated software. Its bipedal, legged mobility is powered by 21 degrees of freedom, driven by a synergy of ROS2 and proprietary control systems coded in Python and C++. This architecture enables real-time dynamic balance and impact resistance, allowing the robot to walk steadily on multiple terrains while carrying out precise manipulations. Safety mechanisms such as force limiting, collision detection, and emergency stop protocols are integrated seamlessly to ensure reliability in unpredictable environments.

Real-World Versatility

The Walker Tienkung is designed for a spectrum of applications, from scientific research and scenario innovation to logistics, rescue missions, and industrial automation. Its agility and sensory sophistication allow it to operate in environments requiring delicate object handling or rapid navigation through cluttered indoor spaces. Whether assisting researchers with complex experiments, transporting tools in automated factories, or aiding in emergency response, Walker Tienkung’s adaptive intelligence and dexterity make it a versatile asset across domains demanding both precision and resilience.

Precision Specs Unveiled

Measuring 172 cm tall, 60 cm wide, and 40 cm deep, the robot weighs 73 kg and moves at a top speed of 7 km/h, striking a balance between agility and stability. Its battery life extends from three to five years, supported by hot-swappable units that enable up to 3.5 hours of continuous operation and 8 hours standby. Equipped with RGB and stereo cameras, LiDAR, ultrasonic sensors, an inertial measurement unit (IMU), gyroscope, force sensors, and temperature monitors, it boasts comprehensive environmental awareness. Integration of indoor and visual SLAM alongside LiDAR mapping ensures precise navigation, while its payload capacity accommodates tools, packages, precision instruments, and interactive human engagement.

Competitive Edge Analysis

When placed alongside rivals like AgiBot X2-N, T1 Humanoid, DR02, and Zerith H1, Walker Tienkung stands out with its robust sensor suite and multi-layered navigation systems, delivering superior spatial awareness and indoor maneuverability. While some competitors offer higher top speeds—such as Tien Kung’s 12 km/h—Walker Tienkung’s design emphasizes balanced mobility and safety, with advanced collaborative modes and force-limiting features. Its open-source ROS2 software environment coupled with proprietary enhancements provide flexibility and control that appeal strongly to research institutions. However, the trade-off lies in its relatively heavier weight and moderate speed compared to more agile models, positioning it as a durable, precise research platform rather than a high-speed field robot.

Competitors

AgiBot X2-N

AgiBot

T1 Humanoid

Booster Robotics

DR02

Deep Robotics

Zerith H1

Zerith

Shaping Robotics’ Future

UBTECH’s Walker Tienkung is poised to influence the robotics market by bridging the gap between research innovation and practical deployment. Its launch heralds a future where humanoid robots are not just experimental but integral to scientific, industrial, and rescue operations. Offering direct purchase as well as subscription-based access, UBTECH is also disrupting traditional acquisition models, making high-end robotics more accessible to diverse users. As autonomous systems become increasingly embedded in daily workflows, Walker Tienkung’s blend of adaptability, safety, and software sophistication could set new standards, propelling humanoid robotics into mainstream application and accelerating the industry’s evolution.