b'\n \n \n
 
\n  
sfhilbert (4.0)		index
user/chenyk/Mhilbert.c
\n Compute hilbert transform using different methods. \n

\n \n \n \n \n \n
 
\n Synopsis
       sfhilbert < in.rsf > out.rsf order=100 ref=1. phase=90. type=
type=t -> time domain convolution
\ntype=f -> frequency domain multiplication and use FFT
\ntype=m -> closed-form design of maximally flat FIR hilbert transformer
\n\n

\n \n \n \n \n \n
 
\n Parameters
       \n \n \n
\n  
int order=100 		\tHilbert transformer order if type=m
\n
\n \n\n \n \n
\n  
float phase=90. 		\tphase shift (in degrees)
\n
\n \n\n \n \n
\n  
float ref=1. 		\tHilbert transformer reference (0.5 < ref <= 1) if type=m
\n
\n \n\n \n \n
\n  
string type= 		\tChoosing hilbert transform method, type=t means time domain,
\n type=f means freqency domain, type=m means using more robust algorithm
\n the default is type=m
\n
\n \n
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