Smoothbandpass: Difference between revisions
From CASA Guides
Jump to navigationJump to search
No edit summary |
No edit summary |
||
Line 8: | Line 8: | ||
<code><pre> | <code><pre> | ||
Usage: smoothbandpass(caltable, window_len=20, window='flat', method='ri', | Usage: smoothbandpass(caltable, window_len=20, window='flat', method='ri', | ||
avoidflags=True, verbose=False, fullVerbose=False, help=False, log='', outputname=None) | avoidflags=True, verbose=False, fullVerbose=False, help=False, log='', outputname=None) | ||
Unless the outputname is specified, the output table will have '_smoothXXwindow_method' appended | Unless the outputname is specified, the output table will have '_smoothXXwindow_method' appended |
Revision as of 18:11, 13 August 2012
Return to Analysis Utilities
If you are using casapy v3.4 or greater, then you can use the solint parameter of bandpass to smooth the uv data prior to solving for bandpass. This will yield the best results. If you are forced to use casapy v3.3 or earlier, then you are stuck with smoothing the solution instead, although this is not as good as the former method. After doing this smoothing, you can use plotbandpass to overlay the smoothed solution over the original solution. Note that if the signal to noise of your original solution is too low, this method will introduce unphysical spikes in the output solution! In this case, you may have to use BPOLY option of bandpass.
au.smoothbandpass(help=True)
Usage: smoothbandpass(caltable, window_len=20, window='flat', method='ri',
avoidflags=True, verbose=False, fullVerbose=False, help=False, log='', outputname=None)
Unless the outputname is specified, the output table will have '_smoothXXwindow_method' appended
to the name, where 'XX'=window_len and 'window' is the window type. The window
type options are: 'flat', 'hanning', 'hamming', 'bartlett', 'blackman'.
Method types are 'ri' = real & imaginary or 'ap' = amp & phase
avoidflags: if True (default), replace all flagged channels with the value
from the nearest unflagged channel prior to
passing the data to the smoothing function. The input caltable is unchanged.
verbose: if True, print a brief summary for each antenna/spw combination with flags.
fullVerbose: if True, print each channel that is being replaced, and by which channel.
log: if not blank, then write out the verbose information to the specified log file name.
For more info, see the Wikipedia page on window functions.
Examples
CASA <3>: au.smoothbandpass('uid___A002_X3c7a84_X443.ms.split.bandpass_spw')
Avoided 201 flagged channels on pol=0, spw=0, antenna=0
Avoided 201 flagged channels on pol=1, spw=0, antenna=0
Smooth solution written to: uid___A002_X3c7a84_X443.ms.split.bandpass_spw_smooth20flat_ri