doGABOR.MTM: Evolutive MTM Spectrum

Description

Time varying Auto-Regressive Spectrum (Gabor Transform) using MTM. This is a driver for MTMgabor.

Usage

doGABOR.MTM(Xamp, DT = 0.008, ppoint=95 , multi = 1,
 scale.def = 0, TWIN = 2, TSKIP = 0.2, PCTTAP = 0.05,  PLOT=TRUE)

Value

list output of MTMgabor:

sig: input signal
dt: deltat
numfreqs: Number of frequencies output
wpars: input parameters list(Nfft=numfreqs, Ns=Ns, Nov=Nov, fl=fl, fh=fh)
DSPEC: spectrum image
HIMAT: matrix with high values of F-test at 90 percent confidence
DOFMAT: Matrix image of degrees of freedom
FVMAT: Matrix image of F-test values
kdof: test degrees of freedom=2*nwin-2
ppoint: percentage point for confidence bounds
freqs: output frequencies (y axis)
tims: output times (x-axis)

Arguments

Xamp: signal
DT: sample rate interval (s)
ppoint: percent confidence for F-test (default=95)
multi: Multiples of time window estimate
scale.def: scaling flag for plotting (0=raw, 1=log, 2=sqrt)
TWIN: time for window
TSKIP: time for skip
PCTTAP: percent of taper to apply to individual windows
PLOT: logical, TRUE=plot to device

Author

Jonathan M. Lees<jonathan.lees@unc.edu>

Details

This is a spectrogram function similar to the Gabor Transform but uses the MTM (multi-taper method) for spectrum estimation. This is a non-interactive version of MTM.drive.

References

Lees, J. M. and Park, J., 1995: Multiple-taper spectral analysis: A stand-alone C-subroutine, Computers and Geology, 21(2), 199-236.

Percival, Donald B.,Walden, Andrew T. (1993):Spectral Analysis for Physical Applications,Cambridge University Press, Cambridge, 583p.

Examples

Run this code




data(KH)
###   swig(KH)

Xamp = KH$JSTR[[1]]
Xamp = Xamp[57914:64914]

EV = doGABOR.MTM(Xamp, DT = KH$dt[1], multi = 1, scale.def = 0,
TWIN = 1, TSKIP = .1, PCTTAP = 0.05)

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