Robot already masters Webster's Flip or Mortal Forward
Very complex movements to execute.
Imagine a robot performing movement so complex that even elite athletes train for years to master, this scene that until recently seemed impossible, is now reality. Lingxi
This twist, known in the world of gymnastics for requiring exceptional strength, balance and coordination, had never been performed by a humanoid machine until now. The recorded video shows the moment of takeoff, the rotation in the air and the perfect landing, as if physics itself had been reprogrammed.
The secret behind this feat lies in AGIBOT's proprietary motion control algorithms combined with ultra-high precision sensors. This built-in intelligence allows robots to adjust their posture in real time, distributing forces like a human athlete would. It is a kind of choreography between mathematics and biomechanics executed with the coldness of a processor.
But the Lingxi X2 didn't come out of nowhere.
Created by engineer Pen Sikui, the humanoid was designed to go beyond conventional tasks, exploring the boundary between practical robotics and athletic performance, its modular design, multi-joint force control and real-time perception make it capable of not only walking in complex environments, but also executing high-impact movements.
The achievement is even more significant if we think about the recent history of robotics. Until today, the greatest feats of agility came from robots like the Letlast from Boston Dynamics, famous for parkour and cartwheels, and from the Unitre models that came to exhibit kungfu blows, but the Webster Flip performed by the L itself marks a before and after. For the first time, a humanoid robot perfectly executes a movement that requires millimeter precision and total body control.
This literal and figurative leap puts AGIBOT on the front lines of the global race for humanoid robotics. The company has already announced large-scale production plans for the coming years and the challenge now is to transform this engineering spectacle into practical applications for daily life.
After all, what good is a robot capable of defying gravity if it can't fold clothes or help in a factory? Still, the message is clear, we have entered a new phase of robotics, machines that previously only avoided basic gestures, now master athletic techniques that involve complex coordination and pulse and balance.
