See in real time
High-speed cameras continuously detect the ball and reconstruct its 3D trajectory.
High-speed stereo cameras reconstruct the ball’s 3D flight path, predict the bounce and strike point, then drive a linear parallel mechanism for fast, adaptive returns.
Stereo high-speed vision · Trajectory prediction · Linear parallel robotA deployable, developer-ready platform combining machine vision, trajectory prediction and high-speed motion control for research, education, training and interactive entertainment.
High-speed cameras continuously detect the ball and reconstruct its 3D trajectory.
Algorithms update the bounce, strike position and arrival time in real time.
A lightweight linear parallel mechanism covers the table and vertical working range.
Vision, actuator and 3D simulation interfaces support secondary development and OTA updates.
Sensing, prediction, planning, servo execution and 3D visualization cooperate over a real-time industrial control network.

Approx. 2.5 m/s end speed; full travel within 0.40 s.
In-house stable tracking at 100–200 FPS.
Up to 250 prediction updates per second.
Approx. 2.5 m/s end speed; full travel within 0.40 s.
About 0.12 s for a 90° action, with programmable strategies.
Live rallies, 3D trajectories and predicted strike positions shown together.

In-house stable tracking at 100–200 FPS.

Up to 250 prediction updates per second.
Tell us your use case, site, target schedule and development requirements. We will propose a configuration and deployment plan.