backexp
|
Back expand mode shapes from TAM DOF to expanded DOF |
cmif
|
Compute complex mode indicator function |
comparison_table
|
Generate a mode shape comparison table |
constraint_shape_expansion
|
Back-expand functions from a given set of constraint shapes |
correlation_table
|
Create correlation table between test and analysis modes |
ctrace2aset
|
Write out NASTRAN ASET cards for a given ctrace |
ctrace2partn
|
Write out NASTRAN SET 100 cards for a given ctrace |
ctrace2uset
|
Write out NASTRAN USET cards for a given ctrace |
downselect_sensors
|
Remove DOF from a TAM matrix to produce optimal set |
downselect_xml
|
Export DOWNSELECT_SENSORS output to Excel XML file |
drive_points
|
Return all drive point FRFs in a given imat_fn |
e_comac_xml
|
Automated report of differences between test and analysis shapes using e-comac equation to xml workbook |
effmass
|
Compute effective mass for the supplied mode shapes. |
efrf_cmif
|
Create enhanced FRF and shapes using complex mode indicator function |
efrf_fit
|
Solve for natural frequency and damping for single mode of enhanced FRF |
efrf_mmif
|
Create enhanced FRF and shapes from supplied force patterns |
fem_test_rss
|
Map test modes to the best set of analysis modes |
frf_fit
|
Synthesize FRF using a supplied real shape. Shape, damping, natural frequency known. Modal mass unknown and reference DOF unknown. |
frf_svd
|
Calculate basis vectors to estimate FRF using SVD. |
frfsyn
|
Synthesize FRF using supplied real shape. All modal parameters (shape, damping, natural frequency, and modal mass) known. |
further_guyan
|
Remove bad sensors from TAM matrices |
ga
|
Automated sensor selection GUI based on genetic algorithm. Part of TAMKIT |
ind_frf_fit
|
Synthesize FRFs and optionally extract shapes using supplied natural frequency and damping. Modal mass and mode shapes unknown. Real mode shapes assumed. |
ind_frf_fit_c
|
Synthesize FRFs and optionally extract shapes using supplied natural frequency and damping. Modal mass and mode shapes unknown. Complex mode shapes assumed. |
load_tam
|
Load pretest analysis data from .pch or .op2 files |
mmif
|
Compute multivariate mode indicator
function |
mode_enhancement
|
Add FRF based on supplied reference scaling factor |
modesort
|
Determine best set of test mode shapes by minimizing off-diagonal terms in self-orthogonality or MAC matrix |
nmif
|
Compute normal mode indicator function |
ortho
|
Build MAC or orthogonality from mode shapes and mass (or stiffness) matrix |
ortho_breakout
|
Term-by-term breakout of grid point orthogonality matrix |
pe_breakout
|
Term-by-term breakout of grid point
potential energy matrix |
plot_shaker_locations
|
Display shaker locations returned by shaker_locator |
psmif
|
Compute power spectrum mode indicator
function |
ref_swap
|
Swap the reference and response coordinates for an imat_fn |
rename_dof
|
Rename reference and response DOF
in an imat_fn |
report_energy_xml
|
Automated report of grid point kinetic and potential energy and test results to xml file workbook |
report_tam_xml
|
Generate spreadsheet XML of pretest analysis results |
report_test_xml
|
Generate spreadsheet XML of test results |
selectASET
|
Select accelerometer locations |
shaker_frfs
|
Generate FRF predictions for a given set of shakers |
shaker_locator
|
Select Shaker Locations for Modal Tests |
shp2spc
|
Write imat_shp to NASTRAN SPC cards |
shp2TAM
|
Create a TAM matrix from mode shapes |
shp2TAMexp
|
Calculate back expansion matrix based on FEM shapes |
simo_mmif
|
Compute multivariate mode indicator function for single reference input |
spatial_filter
|
This function performs a spatial filter on in imat_fn FRFs |
svd_H
|
Calculate singular value shapes from FRF matrix |
svd_T
|
Calculate singular value shapes from time history functions |
TAMeig
|
Calculate modes based on TAM matrices |
uiafpoly
|
Alias free polyreference GUI used to extract mode shapes |
uimoveresp
|
User Interface for Move Response Animation |