Modal Amplified™

Modal Amplified™, a camera-based Modal Test and Analysis solution, enables a new shift from the time-consuming sensor mapping, placement, fixation, and animated modeling of typical Modal Testing to instant capture, visualization, and analysis on real-life structures.

Modal Amplified leverages simultaneous measurement of the force input with the response measured directly from the camera. Users can not only immediately visualize the resulting modes shapes, but they can place an unlimited number of sensors across the structure through virtual regions of interests. This approach allows users to have Modal results in a matter of minutes, from capture to visualizing the modes shapes, complete with dozens, even hundreds of sensors measured across the structure. 

Get To Your Data Faster

Real-World vs Model

Capture, Analyze in One Platform

Measure Simultaneously

Go from hours and days of set-up and testing and verifying sensors to setting up and acquiring data in just minutes. From design to prototyping, certification or qualification, get to your data faster. Capture, visualize, and analysis in minutes.Modal Amplified™ enables the shift from time-consuming animated modeling that shows what a structure theoretically could look like through Modal Testing, to visualizing the actual real-life structure with camera-based technology. Collect data on objects too small or out of reach of physical accelerometers. Easily capture large structures in field or in lab without needing sensors.​From capture to visualization and analysis, it’s all in one platform. Automatically calculate mode shape measurements, filter video by vibration frequencies, instantly capturing mode shapes, natural frequency, associated dampening and movement the human eye and sensors cannot detect, all within the software. ​Modal Amplified™ leverages simultaneous measurement of the force input with the response measured directly from the camera. Users can immediately visualize resulting modes shapes, while placing an unlimited number of sensors across the structure through virtual regions of interests. ​