On this page, you will learn all the necessary steps to calculate Blocked Forces using the in-situ method in SOURCE, to make an on-board validation. At the end, you will find some additional steps that VIBES recommends to perform to check the quality of your data.
To do an analysis in SOURCE, the first step consists of importing the FRF data. We recommend directly importing a DIRAC project because it gives the most efficient workflow and unlocks additional functionalities.
To import and load FRFs from a DIRAC project, complete the next steps:
If you did not use DIRAC to measure the FRFs, you can import ATFX and MAT files. To import FRF data, complete the steps at this link.
In the import dialog, you can perform additional steps. We recommend to:
To analyze your operational data, you need to import them into SOURCE. SOURCE supports ATFX and MAT files. You can do a bulk import of multiple files at once, by importing the folder that contains them all.
To import operational data, complete the next steps:
If the channels of the operational data have the same names as the FRF channels, you can automatically map them during the import in the import window, by selecting Yes.
To do an analysis, you need to set up your channels. In particular, you have to:
In SOURCE, all these steps can be done during the import phase. In some cases, e.g. if the operational and FRF channels have different names, you need to do these actions manually.
Before jumping to the analysis, you need to set which channels SOURCE will use for the calculation, and set them as Masters. We recommend to set the FRF data channels as Masters, to be sure to also include the Virtual Point forces and moments. To set the channels as Masters, you have to:
If this step is performed correctly, the channels will turn green. Numbers will also appear in the Mapped to column.
After setting the FRF channels as Masters, you need to map the operational data channels to the corresponding ones.
If FRF and operational data channels have the same name, the mapping can be done automatically during the import. If this is not done, you can map channels following the next steps:
If FRF and operational data channels have different names, you have to perform the mapping manually. To manually map channels, follow the next steps:
The next step consists of setting the correct channel type. For this type of analysis, you need to set the following types:
To change the channel type, complete the next steps:
After importing the data and setting the channels, you can proceed to make the analysis and calculate Blocked Forces.
To calculate Blocked Forces, complete the next steps:
After calculating Blocked Forces, you can make an on-board validation. The TPA syntheses are automatically calculated in the analysis, so you just need to plot them.
To visualize the on-board validation, complete the next steps:
You can also right-click on the dataset you are interested and select the plot type you desire.
If you want to have multiple graphs on your page, you can customize the graphs’ page layout. See instructions here.
If you are not interested in the full dataset, but just in some portions, it is possible to extract the data of interest by cropping segments and merging them into sequences. This is only possible for Time Series.
To create segments and sequences, follow the instructions at this link.
To check your FRF data, you can plot them in the Graph card and visualize their overall magnitude and coherence in the Matrix Viewer. You can plot single FRFs or visualize the singular value breakdown, often referred to as Complex Mode Indicator Function (CMIF).
To plot FRF or CMIF, follow the instructions at this link.
You can display Operational Deflection Shapes of your operational data in the 3D Viewer. To access the 3D Viewer card in the Operational Data module, you need the src-ods license. To display ODS, follow the instructions at this link.
You can display ODS only after importing the geometries. At the moment, SOURCE only supports the geometries imported from the DIRAC project.
Operational consistency can be used to reveal incorrect behavior in the operational measurements, such as overloads, non-linear phenomena, moved or loose sensors and inconsistent sensor movement. It works by evaluating the consistency of the response data through the Virtual Point Transformation. To plot the operational consistency, follow the instructions at this link.
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