TrackSight High-Speed Target Tracking & Analytics System (TrackSight)
Independently developed by ICE CYPRESS, TrackSight is China’s first professional system purpose-built to track and analyze the spatial trajectory, attitude, and profile changes of a wide range of moving objects.
By deeply integrating computer vision with AI algorithms, TrackSight delivers automated tracking and high-precision data analytics across multiple categories of moving targets—significantly boosting data processing throughput and accuracy, and powering science-based upgrades across defense R&D and production.
From missile flight trajectory monitoring to airframe structural optimization, from artillery firing-dynamics research to range-trial verification, TrackSight provides end-to-end data support that drives iterative performance gains and real-world operational readiness.
Missile Flight Trajectory & Attitude Analysis
By analyzing flight trajectory and attitude data, engineers assess airframe stability and trajectory accuracy, then feed those insights back into airframe design and flight-control algorithms. Example: late-flight attitude instability can be corrected by redesigning control fins (tail fins) or retuning control logic—directly improving stability and hit precision.
Dynamic Performance Analysis of Aircraft / Airframes
By placing targets on key airframe locations—or treating the entire vehicle as the tracking subject—a multi-camera system captures angular attitude changes (pitch, yaw, roll) and localized deformations (e.g., wing flex) from multiple calibrated angles throughout flight.
- Structural Strength & Stability Assessment — Monitoring wing deflection under high-speed cruise or high-g maneuvers to validate material and structural design choices, guiding optimization and raising load-carrying safety margins.
- Flight Control System Optimization — Using attitude-change data to evaluate control-loop responsiveness, refine control strategies, and improve handling qualities and flight safety.
Artillery Dynamics Analysis
Targets placed on the barrel, carriage, and mounting points capture the instant of firing and post-fire motion, locking in critical dynamic parameters with high-speed imaging.
- Artillery Structural Optimization — Analyzing recoil force and vibration signatures to guide improvements in carriage buffering/dampening systems, minimizing recoil-induced instability.
- Improving Accuracy & Reliability — High-fidelity dynamic data feeds artillery dynamics research, supports optimized firing control strategies, extends service life, and raises field performance.
