Example #1
0
    def _read_segment_file(self, data, idx, fi, start, stop, cals, mult):
        """Read a chunk of raw data"""
        input_fname = self._filenames[fi]
        data_ = np.genfromtxt(input_fname,
                              delimiter=',',
                              comments='%',
                              skip_footer=1)
        """
        Dealing with the missing data
        -----------------------------
        When recording with OpenBCI over Bluetooth, it is possible for some of
        the data packets, samples, to not be recorded. This does not happen
        often but it poses a problem for maintaining proper sampling periods.
        OpenBCI data format combats this by providing a counter on the sample
        to know which ones are missing.
        Solution
        --------
        Interpolate the missing samples by resampling the surrounding samples.
        1. Find where the missing samples are.
        2. Deal with the counter reset (resets after cycling a byte).
        3. Resample given the diffs.
        4. Insert resampled data in the array using the diff indices
           (index + 1).
        5. If number of missing samples is greater than the missing_tol, Values
           are replaced with np.nan.
        """
        # counter goes from 0 to 255, maxdiff is 255.
        # make diff one like others.
        missing_tol = self._raw_extras[fi]['missing_tol']
        diff = np.abs(np.diff(data_[:, 0]))
        diff = np.mod(diff, 126) - 1
        missing_idx = np.where(diff != 0)[0]
        missing_samps = diff[missing_idx].astype(int)

        if missing_samps.size:
            missing_nsamps = np.sum(missing_samps, dtype=int)
            missing_cumsum = np.insert(np.cumsum(missing_samps), 0, 0)[:-1]
            missing_data = np.empty((missing_nsamps, data_.shape[-1]),
                                    dtype=float)
            insert_idx = list()
            for idx_, nn, ii in zip(missing_idx, missing_samps,
                                    missing_cumsum):
                missing_data[ii:ii + nn] = np.nanmean(data_[(idx_,
                                                             idx_ + 1), :],
                                                      axis=0)
                if nn > missing_tol:
                    missing_data[ii:ii + nn] *= np.nan
                    warnings.warn('The number of missing samples exceeded the '
                                  'missing_tol threshold.')
                insert_idx.append([idx_] * nn)
            insert_idx = np.hstack(insert_idx)
            data_ = np.insert(data_, insert_idx, missing_data, axis=0)
        # data_ dimensions are samples by channels. transpose for MNE.
        data_ = data_[start:stop, 1:].T
        _mult_cal_one(data, data_, idx, cals, mult)
Example #2
0
    def _read_segment_file(self, data, idx, fi, start, stop,
                           cals, mult):
        """Read a chunk of raw data"""
        input_fname = self._filenames[fi]
        data_ = np.genfromtxt(input_fname, delimiter=',', comments='%',
                              skip_footer=1)
        """
        Dealing with the missing data
        -----------------------------
        When recording with OpenBCI over Bluetooth, it is possible for some of
        the data packets, samples, to not be recorded. This does not happen
        often but it poses a problem for maintaining proper sampling periods.
        OpenBCI data format combats this by providing a counter on the sample
        to know which ones are missing.
        Solution
        --------
        Interpolate the missing samples by resampling the surrounding samples.
        1. Find where the missing samples are.
        2. Deal with the counter reset (resets after cycling a byte).
        3. Resample given the diffs.
        4. Insert resampled data in the array using the diff indices
           (index + 1).
        5. If number of missing samples is greater than the missing_tol, Values
           are replaced with np.nan.
        """
        # counter goes from 0 to 255, maxdiff is 255.
        # make diff one like others.
        missing_tol = self._raw_extras[fi]['missing_tol']
        diff = np.abs(np.diff(data_[:, 0]))
        diff = np.mod(diff, 126) - 1
        missing_idx = np.where(diff != 0)[0]
        missing_samps = diff[missing_idx].astype(int)

        if missing_samps.size:
            missing_nsamps = np.sum(missing_samps, dtype=int)
            missing_cumsum = np.insert(np.cumsum(missing_samps), 0, 0)[:-1]
            missing_data = np.empty((missing_nsamps, data_.shape[-1]),
                                    dtype=float)
            insert_idx = list()
            for idx_, nn, ii in zip(missing_idx, missing_samps,
                                    missing_cumsum):
                missing_data[ii:ii + nn] = np.nanmean(data_[(idx_, idx_ + 1), :], axis=0)
                if nn > missing_tol:
                    missing_data[ii:ii + nn] *= np.nan
                    warnings.warn('The number of missing samples exceeded the '
                                  'missing_tol threshold.')
                insert_idx.append([idx_] * nn)
            insert_idx = np.hstack(insert_idx)
            data_ = np.insert(data_, insert_idx, missing_data, axis=0)
        # data_ dimensions are samples by channels. transpose for MNE.
        data_ = data_[start:stop, 1:].T
        _mult_cal_one(data, data_, idx, cals, mult)
Example #3
0
 def _read_segment_file(self, data, idx, fi, start, stop, cals, mult):
     one = np.full((8, stop - start), np.nan)
     one[idx] = np.arange(1, 9)[idx, np.newaxis]
     _mult_cal_one(data, one, idx, cals, mult)