A Random Vibration node (
) defines a random vibration analysis based on a frequency response reduced-order model, primarily for structural mechanics simulations. This feature makes it possible to postprocess the probability spectral density (PSD) of a Frequency Domain, Modal Reduced-Order Model’s response to random loads described by their power spectra. The output is presented using operators like
<rom_name>.psd(...),
<rom_name>.rms(...), and
<rom_name>.cross(...) where
<rom_name> is the
Name of the Random Vibration node. For details, see
Performing a Random Vibration Analysis in the
Structural Mechanics Module User’s Guide.
The Settings window for a
Random Vibration node contains the following sections:
From the Frequency response model list, choose an existing
Frequency Domain, Modal Reduced-Order Model node representing the frequency-domain behavior of the structure.
From the Correlation type list, choose a type of correlation:
Uncorrelated (the default),
Fully correlated, or
Cross-correlated. If you choose
Cross-correlated, a correlation matrix input appears at the bottom of this section.
For each reduced-order model input used in the selected Frequency response model, and displayed in the
Control name list, enter an input
Power spectral density expression. Note that this expression is usually a function of the frequency,
freq.
If the correlation type was set as Cross-correlated, fill in expressions for the off-diagonal elements of the cross-correlation between the reduced-order model inputs. These expressions are typically frequency dependent and complex-valued.
In this section, you can provide default settings for random vibration operators that perform an integration over the frequency. These operators have two different syntaxes — for example, <rom_name>.rms(expr) and
<rom_name>.rms(expr,lower_freq,upper_freq,number_of_points). When the first form is used, the remaining arguments are inferred from the settings in this section.
Enter a Lower frequency limit and an
Upper frequency limit as bounds for the integration. Usually. this is the frequency range for which the input PSD is defined. Then, select an
Integration method —
Automatic or
User defined. For
User defined, enter the
Number of integration points used in the numerical integration. For
Automatic, 50 points per decade is used. In both cases, the points are logarithmically distributed in terms of frequency.