The yaw displacement of a crane arm at different speeds is a critical parameter for measuring its stability and safety. The high-speed DIC measurement system measures the arm's yaw displacement and motion trajectory, providing data for structural vibration reduction and dynamic optimization.

The high-speed DIC measurement system is used for wind turbine rotor blade rotation testing, analyzing the off-plane displacement and strain characteristics of blades during high-speed rotation. It can also test wind turbine structural vibration, tower deflection caused by wind force and emergency braking, structural vibration monitoring, and modal analysis.

DIC technology can measure the dynamic deformation behavior of antenna structures, analyze the gravity deformation of the main and secondary reflectors of the antenna in different postures, and calculate the relative change caused by the deformation. It provides real-time and accurate measurement data for antenna installation and debugging, and solves the problem of static deformation detection of large antennas.

The XTDIC-STROBE three-dimensional dynamic measurement system, combined with a six-degree-of-freedom test platform, can solve the position parameters of the spatial target based on the extracted coordinates of the corresponding calculation points and combined with the spatial vectors. It can also record the six-degree-of-freedom (6DoF) displacement trajectory of the experimental object in three-dimensional space and analyze the displacement trajectory, velocity, acceleration, angular acceleration and other parameters.