Beispiel #1
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def neuron_lever_unsampled(data_file: File, params: Dict[str, float]) -> Tuple[np.ndarray, np.ndarray]:
    """
    Returns:
        neural_activity, lever
    """
    lever = get_trials(data_file)
    neurons = fold_by(DataFrame.load(data_file["spike"]), lever, data_file.attrs['frame_rate'], True)
    neurons, lever = filter_empty_trial_sets(neurons.values, lever.values[0])
    mask, filtered = devibrate_trials(lever, params["pre_time"])
    return neurons[:, mask, :], lever[mask, :]
Beispiel #2
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def get_linkage(record_file: File, params: Dict[str, float]) -> np.ndarray:
    """Load record file and get linkage matrix between the trajectories of trials.
    Args:
        record_file: the record file with at least the lever file
        motion_params: param dict including window size and push threshold
    """
    lever = load_mat(record_file['response'])
    lever.center_on("motion", **params)
    lever.fold_trials()
    mask, lever_trials = devibrate_trials(lever.values[0], params['pre_time'], sample_rate=lever.sample_rate)
    dist_mat = trace_cluster(lever_trials[mask, ...])
    return linkage(dist_mat), mask
Beispiel #3
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def run_amp_power(data_file: File) -> Tuple[float, float, float, float]:
    """Try to decode the max lever trajectory amplitude of each trial.
    Returns:
        pre_amp_power: mutual info between predicted (from neuron activity before motor onset)
            and real amplitude of trials in one session
        post_amp_power: mutual info between predicted (from neuron activity before motor onset)
            and real amplitude of trials in one session
    """
    VALIDATE_FOLD = 10
    lever = get_trials(data_file, motion_params)
    neuron = DataFrame.load(data_file['spike'])
    resampled_onsets = np.rint(lever.trial_anchors *
                               (5 / 256)).astype(np.int_) - 3
    folded = np.stack(
        [take_segment(trace, resampled_onsets, 6) for trace in neuron.values])
    mask, filtered = devibrate_trials(lever.values, motion_params['pre_time'])
    mask &= np.any(folded > 0, axis=(0, 2))
    amp = filtered[mask, 25:64].max(axis=1) - filtered[mask, 0:15].mean(axis=1)
    speed = np.diff(filtered[mask, 5:50], axis=1).max(axis=1)
    svr_rbf = SVR('rbf', 3, 1E-7, cache_size=1000)
    X = folded[:, mask, 0:3].swapaxes(0, 1).reshape(mask.sum(), -1)
    pre_amp_hat = cross_predict(
        X.T, amp, lambda x, y, y_t: svr_rbf.fit(x.T, y).predict(y_t.T),
        VALIDATE_FOLD, False)
    pre_v_hat = cross_predict(
        X.T, speed, lambda x, y, y_t: svr_rbf.fit(x.T, y).predict(y_t.T),
        VALIDATE_FOLD, False)
    X = folded[:, mask, 3:].swapaxes(0, 1).reshape(mask.sum(), -1)
    post_amp_hat = cross_predict(
        X.T, amp, lambda x, y, y_t: svr_rbf.fit(x.T, y).predict(y_t.T),
        VALIDATE_FOLD, False)
    post_v_hat = cross_predict(
        X.T, speed, lambda x, y, y_t: svr_rbf.fit(x.T, y).predict(y_t.T),
        VALIDATE_FOLD, False)
    return (mutual_info(pre_amp_hat, amp), mutual_info(post_amp_hat, amp),
            mutual_info(pre_v_hat, speed), mutual_info(post_v_hat, speed))
Beispiel #4
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 def _get_bisect(data):
     mask, filtered = devibrate_trials(
         get_trials(data[0], motion_params)[0], motion_params["pre_time"])
     return pca_bisect(filtered), mask
Beispiel #5
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def lever_corr(record_file, record_info, params: MotionParams):
    lever = get_trials(record_file, params)
    mask, filtered = devibrate_trials(lever.values, params['pre_time'])
    lever_value = lever.values[0, mask, :]
    indices = np.triu_indices(lever_value.shape[0], 1)
    return np.corrcoef(lever_value)[indices]
Beispiel #6
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def get_reliability(data_file: File) -> float:
    mask, filtered = devibrate_trials(
        get_trials(data_file, motion_params).values, motion_params['pre_time'])
    return np.corrcoef(filtered[mask, 15:64])[np.triu_indices(mask.sum(),
                                                              1)].mean()
Beispiel #7
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def get_speed(data_file: File) -> float:
    mask, filtered = devibrate_trials(
        get_trials(data_file, motion_params).values, motion_params['pre_time'])
    speed = np.diff(filtered[mask, 5:50], axis=1).max(axis=1)
    return np.mean(speed)
Beispiel #8
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def get_amp(data_file: File) -> float:
    mask, filtered = devibrate_trials(
        get_trials(data_file, motion_params).values, motion_params['pre_time'])
    return np.quantile(
        filtered[mask, 25:64].max(axis=1) - filtered[mask, 0:15].mean(axis=1),
        0.75)