The 2-axis dual-axis vibration simulation system is designed for qualitative analysis of image stabilization systems under repeatable and realistic conditions. Based on human hand-shake physiology and modern stabilization technologies, the device generates controlled jitter along the X and Y axes, supporting both sinusoidal and random motion. By varying amplitude and frequency across both axes, it accurately replicates real-world camera shake scenarios, such as handheld device operation or surveillance camera vibration.
Through the combination of parameters including amplitude, frequency, angle, and direction, the system enables comprehensive evaluation of a camera’s stabilization performance. When paired with specialized test charts for edge-width measurement, it provides an effective means of determining the true effectiveness of stabilization mechanisms in imaging devices.
Product Features
Accurate Anti-Shake Simulation
Precisely control vibration frequency, amplitude, and direction via motor drive, providing reliable simulation for testing anti-shake systems under complex conditions, helping evaluate stabilization performance.
Multi-Parameter Adjustable
Vibration frequency and amplitude can be flexibly adjusted to accommodate consumer devices such as smartphones and cameras, as well as high-precision stabilization systems in aerospace and military applications.
Control Software Features
Supports sinusoidal motion on Yaw and Pitch axes according to set frequency and amplitude
Real-time display of sinusoidal waveform
One-click operation with preset parameters
