Пример #1
0
def gen_shot_pos_bmag_correlation(refPos,
                                  pos,
                                  shot,
                                  filt,
                                  window,
                                  norm='ref',
                                  normalized=True):
    """ This function outputs the bmag correlation of shot at pos 
        and the corresponding time delay."""
    normArray = norms.which_norm(norm, refPos, window, filt)

    def norm_value(norm, posIndex, shot):
        """ Wrapper function to make choosing the norm value easier"""
        if norm.lower() == 'ref':
            normValue = normArray[shot]
        else:
            normValue = normArray[posIndex, shot]

        return normValue

    bmagRef, time = tools.get_windowed_filtered_bmag(pos=refPos,
                                                     shot=shot,
                                                     window=window,
                                                     filt=filt)
    bmagPos, _ = tools.get_windowed_filtered_bmag(pos, shot, window, filt)

    magCorr, tau = tools.correlation(bmagRef, bmagPos, time)

    if normalized:
        posIndex = tools.get_pos_index(refPos, pos)
        normMagCorr = magCorr / norm_value(norm, posIndex, shot)
    else:
        normMagCorr = magCorr

    return normMagCorr, tau
Пример #2
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def gen_bmag_temporal_correlation(refPos, filt, window, norm='ref'):
    """ Outputs the spatial correlation array based on the bmag data. """
    normArray = norms.which_norm(norm, refPos, window, filt)

    def norm_value(norm, posIndex, shot):
        """ Wrapper function to make choosing the norm value easier"""
        if norm.lower() == 'ref':
            normValue = normArray[shot]
        else:
            normValue = normArray[posIndex, shot]

        return normValue

    magShotArray = np.asarray([])
    for shot in range(0, 25):
        Bmag1, time = tools.get_windowed_filtered_bmag(refPos, shot, window,
                                                       filt)
        corr_MagHold, tau = tools.correlation(Bmag1, Bmag1, time, mode='same')
        corr_MagHold = np.abs(corr_MagHold)
        normValue = norm_value(norm, 0, shot)
        if (shot == 0):
            corr_Mag = corr_MagHold / (25 * normValue)
        else:
            corr_Mag += corr_MagHold / (25 * normValue)

    magShotArray = np.append(magShotArray, corr_Mag)
    return magShotArray, tau
Пример #3
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def gen_shot_pos_unproccessed_bmag_correlation(refPos,
                                               pos,
                                               shot,
                                               norm='ref',
                                               normalized=True):
    """ Outputs the two-time correlation and time delay of Bmags from refPos and pos for shot.
    This correlation is for the time-of-flight analysis and will not be windowed or filtered.
    """
    normArray = norms.which_norm_tof(norm, refPos)

    def norm_value(norm, posIndex, shot):
        """ Wrapper function to make choosing the norm value easier"""
        if norm.lower() == 'ref':
            normValue = normArray[shot]
        else:
            normValue = normArray[posIndex, shot]

        return normValue

    refBmag, _ = tools.get_bmag(pos=refPos, shot=shot)
    bmag, time = tools.get_bmag(pos=pos, shot=shot)

    magCorr, tau = tools.correlation(refBmag, bmag, time)

    if normalized:
        posIndex = tools.get_pos_index(refPos, pos)
        normMagCorr = magCorr / norm_value(norm, posIndex, shot)
    else:
        normMagCorr = magCorr

    return normMagCorr, tau
Пример #4
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def shot_bmag_refnorm_tof(refPos):
    """ Outputs the Bmag normalization per shot based on the reference probe."""
    normArray = np.zeros(25)
    for shot in range(0, 25):

        bmag, time = tools.get_bmag(pos=refPos, shot=shot)

        norm_Mag, _ = tools.correlation(bmag, bmag, time, mode='valid')

        normArray[shot] = norm_Mag
    return normArray
Пример #5
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def shot_bmag_refnorm(refPos, window, filt):
    """ Outputs the Bmag normalization per shot based on the reference probe."""
    normArray = np.zeros(25)
    for shot in range(0, 25):

        wfBmag, time = tools.get_windowed_filtered_bmag(pos=refPos,
                                                        shot=shot,
                                                        window=window,
                                                        filt=filt)

        norm_Mag, _ = tools.correlation(wfBmag, wfBmag, time, mode='valid')

        normArray[shot] = norm_Mag
    return normArray
Пример #6
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def gen_shot_bmag_spatial_correlation(refPos,
                                      shot,
                                      filt=3e4,
                                      window=[75, 150],
                                      norm='ref'):

    normArray = norms.which_norm(norm, refPos, window, filt)

    def norm_value(norm, posIndex, shot):
        """ Wrapper function to make choosing the norm value easier"""
        if norm.lower() == 'ref':
            normValue = normArray[shot]
        else:
            normValue = normArray[posIndex, shot]

        return normValue

    magShotArray = np.asarray([])

    for pos2Index, pos2 in enumerate([*range(refPos, 16, 2)]):
        Br_1, Bt_1, Bz_1, time = data03.load_data(refPos, shot)
        Br_2, Bt_2, Bz_2, time = data03.load_data(pos2, shot)

        if (pos2 == refPos):
            start_Dex = BMX.finding_Index_Time(time * 1e-6, window[0])
            if (window[1] != 190):
                end_Dex = BMX.finding_Index_Time(time * 1e-6, window[1])
            else:
                end_Dex = -1

        Bmag1 = np.sqrt(Br_1**2 + Bt_1**2 + Bz_1**2)
        Bmag2 = np.sqrt(Br_2**2 + Bt_2**2 + Bz_2**2)

        Bmag1 = tools.HPF(Bmag1, filt)
        Bmag2 = tools.HPF(Bmag2, filt)

        time = time[start_Dex:end_Dex]

        Bmag1 = Bmag1[start_Dex:end_Dex]
        Bmag2 = Bmag2[start_Dex:end_Dex]

        corrMagHold, _ = tools.correlation(Bmag1, Bmag2, time, mode='valid')
        # corr_MagHold = np.abs(corr_MagHold)
        normValue = norm_value(norm=norm, posIndex=pos2Index, shot=shot)
        normCorrMagHold = corrMagHold / normValue

        magShotArray = np.append(magShotArray, normCorrMagHold)
    return magShotArray
Пример #7
0
def gen_shot_pos_unfiltered_bmag_correlation(refPos,
                                             pos,
                                             shot,
                                             window=[75, 150],
                                             norm='ref',
                                             normalized=False):
    """ Output the correlation and time-delay of windowed Bmag correlations between the specified
    probes.
    """

    normArray = norms.which_windowed_norm(norm, refPos, window)

    def norm_value(norm, posIndex, shot):
        """ Wrapper function to make choosing the norm value easier"""
        if norm.lower() == 'ref':
            normValue = normArray[shot]
        else:
            normValue = normArray[posIndex, shot]

        return normValue

    refBmag, _ = tools.get_windowed_bmag(pos=refPos, shot=shot, window=window)
    bmag, time = tools.get_windowed_bmag(pos=pos, shot=shot, window=window)
    # create new function and delete
    #refBmag -= np.mean(refBmag)
    #bmag -= np.mean(bmag)

    magCorr, tau = tools.correlation(refBmag,
                                     bmag,
                                     time,
                                     normalized=normalized)

    if normalized:
        posIndex = tools.get_pos_index(refPos, pos)
        normMagCorr = magCorr / norm_value(norm, posIndex, shot)
    else:
        normMagCorr = magCorr

    return normMagCorr, tau