MSOLVE,
NUMSLV
, VAL1
,
VAL2
, Lab
,
ANGFIX
Starts multiple solutions for an acoustic analysis.
NUMSLV
Number of multiple solutions (load steps). This number corresponds to the number of random samplings for the diffuse sound field in a random acoustic analysis, or the incident angles of the plane wave when the Floquet periodic boundary condition is present. Default = 1.
VAL1
The meaning of VAL1
depends on the
Lab
value.
For Lab
= DSF, VAL1
is the norm
convergence tolerance defined by comparing the averaged radiated diffuse sound power of two
multiple sampling sets over the frequency range for the diffuse sound field (default = 0.05).
For Lab
= APHI or ATHETA, VAL1
is
the beginning angle for the incident angle sweep of the plane wave (default = 0).
VAL2
The meaning of VAL2
depends on the
Lab
value.
For Lab
= DSF, VAL2
is the
interval of the norm convergence check for the diffuse sound field (default = 5).
For Lab
= APHI or ATHETA, VAL2
is
the ending angle for the incident angle sweep of the plane wave (default = 0).
Lab
Label indicating the type of acoustic analysis:
ANGFIX
The value of the fixed incident angle for the plane wave angle sweep (used only when
Lab
= APHI or ATHETA).
The MSOLVE command starts multiple solutions (load steps) for a random acoustic analysis with multiple samplings or for the angle sweep of the incident plane wave with the Floquet periodic boundary condition, as described below.
Random Acoustic Analysis
(Lab
= DSF)
Use Lab
= DSF for a random acoustic
analysis. The process is controlled by the norm convergence tolerance (VAL1
) or the number of multiple solutions
(NUMSLV
) if the solution steps reach the defined number.
The program checks the norm convergence by comparing two averaged sets of radiated sound
powers with the interval VAL2
over the
frequency range. For example, if VAL2
= 5, the
averaged values from 5 solutions are compared with the averaged values from 10 solutions, then
the averaged values from 10 solutions are compared with the averaged values from 15 solutions,
and so on.
The incident diffuse sound field is defined via the DFSWAVE command.
The average result of multiple solutions with different samplings is calculated via the PRAS or PLAS command.
Plane Wave Incident Angle Sweep
(Lab
= APHI or ATHETA)
Use Lab
= APHI or ATHETA to perform an angle
sweep for the incident plane wave defined by the APORT command. The process is
controlled by the number of multiple solutions (NUMSLV
). The plane
wave port must be defined with the default values of incident angles prior to the
MSOLVE command.
The sound power parameters are calculated over the sweeping angles during postprocessing by the PRAS or PLAS command.