コード例 #1
0
ファイル: analysis.py プロジェクト: lpezard/nitime
    def xcorr(self):
        """The cross-correlation between every pairwise combination time-series
        in the object. Uses np.correlation('full').

        Returns
        -------

        TimeSeries: the time-dependent cross-correlation, with zero-lag
        at time=0"""
        tseries_length = self.input.data.shape[0]
        t_points = self.input.data.shape[-1]
        xcorr = np.zeros((tseries_length,
                          tseries_length,
                          t_points*2-1))
         
        for i in xrange(tseries_length): 
            for j in xrange(i,tseries_length):
                xcorr[i][j] = tsu.xcorr(self.input.data[i],self.input.data[j])

        idx = tsu.tril_indices(tseries_length,-1)
        xcorr[idx[0],idx[1],...] = xcorr[idx[1],idx[0],...]

        return ts.TimeSeries(xcorr,
                                sampling_interval=self.input.sampling_interval,
                                t0=-self.input.sampling_interval*t_points)
コード例 #2
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ファイル: analysis.py プロジェクト: lpezard/nitime
    def xcorr_norm(self):
        """The cross-correlation between every pairwise combination time-series
        in the object, where the zero lag correlation is normalized to be equal
        to the correlation coefficient between the time-series

        Returns
        -------

        TimeSeries: the time-dependent cross-correlation, with zero-lag
        at time=0"""

        tseries_length = self.input.data.shape[0]
        t_points = self.input.data.shape[-1]
        xcorr = np.zeros((tseries_length,
                          tseries_length,
                          t_points*2-1))
         
        for i in xrange(tseries_length): 
            for j in xrange(i,tseries_length):
                xcorr[i,j] = tsu.xcorr(self.input.data[i],self.input.data[j])
                xcorr[i,j] /= (xcorr[i,j,t_points])
                xcorr[i,j] *= self.output[i,j]

        idx = tsu.tril_indices(tseries_length,-1)
        xcorr[idx[0],idx[1],...] = xcorr[idx[1],idx[0],...]

        return ts.TimeSeries(xcorr,
                                sampling_interval=self.input.sampling_interval,
                                t0=-self.input.sampling_interval*t_points)
コード例 #3
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ファイル: analysis.py プロジェクト: lpezard/nitime
    def coherence_partial(self):
        """The partial coherence between data[i] and data[j], given data[k], as
        a function of frequency band"""

        tseries_length = self.input.data.shape[0]
        spectrum_length = self.spectrum.shape[-1]

        p_coherence=np.zeros((tseries_length,
                              tseries_length,
                              tseries_length,
                              spectrum_length))
    
        for i in xrange(tseries_length): 
            for j in xrange(tseries_length):
                for k in xrange(tseries_length):
                    if j==k or i==k:
                        pass
                    else: 
                        p_coherence[i][j][k]=tsa.coherence_partial_calculate(
                            self.spectrum[i][j],
                            self.spectrum[i][i],
                            self.spectrum[j][j],
                            self.spectrum[i][k],
                            self.spectrum[j][k],
                            self.spectrum[k][k])
                        
        idx = tsu.tril_indices(tseries_length,-1)
        p_coherence[idx[0],idx[1],...] = p_coherence[idx[1],idx[0],...].conj()

        return p_coherence        
コード例 #4
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ファイル: analysis.py プロジェクト: fperez/nitime
    def coherence(self):
        """
        The coherence between the different channels in the input TimeSeries
        object

        """

        #XXX Calculate this from the standard output, instead of recalculating
        #the coherence:
        
        tseries_length = self.input.data.shape[0]
        spectrum_length = self.spectrum.shape[-1]
        coherence=np.zeros((tseries_length,
                            tseries_length,
                            spectrum_length))
    
        for i in xrange(tseries_length): 
            for j in xrange(i,tseries_length):
                coherence[i][j] = tsa.coherence_calculate(self.spectrum[i][j],
                                                      self.spectrum[i][i],
                                                      self.spectrum[j][j])  

        idx = tsu.tril_indices(tseries_length,-1)
        coherence[idx[0],idx[1],...] = coherence[idx[1],idx[0],...].conj()
        
        return coherence
コード例 #5
0
ファイル: analysis.py プロジェクト: lpezard/nitime
    def coherence(self):

        tseries_length = self.input.data.shape[0]
        spectrum_length = self.spectrum.shape[-1]
        coherence=np.zeros((tseries_length,
                            tseries_length,
                            spectrum_length))
    
        for i in xrange(tseries_length): 
            for j in xrange(i,tseries_length):
                coherence[i][j] = tsa.coherence_calculate(self.spectrum[i][j],
                                                      self.spectrum[i][i],
                                                      self.spectrum[j][j])  

        idx = tsu.tril_indices(tseries_length,-1)
        coherence[idx[0],idx[1],...] = coherence[idx[1],idx[0],...].conj()
        
        return coherence
コード例 #6
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ファイル: analysis.py プロジェクト: lpezard/nitime
    def output(self):
        """The standard output for this kind of analyzer is the coherency """
        data = self.input.data
        tseries_length = data.shape[0]
        spectrum_length = self.spectrum.shape[-1]

        coherency=np.zeros((tseries_length,
                            tseries_length,
                            spectrum_length),dtype=complex)
    
        for i in xrange(tseries_length): 
            for j in xrange(i,tseries_length):
                coherency[i][j] = tsa.coherency_calculate(self.spectrum[i][j],
                                                      self.spectrum[i][i],
                                                      self.spectrum[j][j])  

        idx = tsu.tril_indices(tseries_length,-1)
        coherency[idx[0],idx[1],...] = coherency[idx[1],idx[0],...].conj()
        
        return coherency
コード例 #7
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ファイル: multi_taper_coh.py プロジェクト: sheremat/nitime
         tspectra[i], tspectra[i], (w[i], w[i]), sides='onesided'
         ).real
      syy = alg.mtm_cross_spectrum(
         tspectra[j], tspectra[j], (w[i], w[j]), sides='onesided'
         ).real
      psd_mat[0,i,j] = sxx
      psd_mat[1,i,j] = syy
      coh_mat[i,j] = np.abs(sxy)**2
      coh_mat[i,j] /= (sxx * syy)
      csd_mat[i,j] = sxy
      if i != j:
         coh_var[i,j] = utils.jackknifed_coh_variance(
            tspectra[i], tspectra[j], weights=(w[i], w[j]), last_freq=L
            )
upper_idc = utils.triu_indices(nseq, k=1)
lower_idc = utils.tril_indices(nseq, k=-1)
coh_mat[upper_idc] = coh_mat[lower_idc]
coh_var[upper_idc] = coh_var[lower_idc]

# convert this measure with the normalizing function
coh_mat_xform = utils.normalize_coherence(coh_mat, 2*K-2)

t025_limit = coh_mat_xform + dist.t.ppf(.025, K-1)*np.sqrt(coh_var)
t975_limit = coh_mat_xform + dist.t.ppf(.975, K-1)*np.sqrt(coh_var)


utils.normal_coherence_to_unit(t025_limit, 2*K-2, t025_limit)
utils.normal_coherence_to_unit(t975_limit, 2*K-2, t975_limit)

if L < n_samples:
   freqs = np.linspace(0, 1/(2*TR), L)