Exemplo n.º 1
0
def _generate_aldebaran_dataset(files,
                                nfft=1024,
                                expected_fs=48000,
                                window_block=None):
    assert (files != [])

    res = []
    for num, f in enumerate(files):
        try:
            data = {}
            data['file_path'], data['file_name'] = os.path.split(f)
            data['full_filename'] = f
            data['expected_class'] = data['file_name'].split('-')[0]
            signal, fs = load_sound(f)
            if fs != expected_fs:
                print(
                    "warning file %s, wrong fs %s, using it.. please remove the file if you don't want"
                    % (f, fs))
                #continue

            for frame_feature in extract_mfcc_features_one_channel(
                    signal, nfft=nfft, window_block=window_block, fs=fs):
                data['features'] = frame_feature
                res.append(data)
        except Exception as e:
            print("ERROR on %s" % f)
            print(traceback.format_exc())

    return res
def _generate_humavips_dataset(glob_file_pattern="/mnt/protolab_server/media/sounds/datasets/NAR_dataset/*/*.wav", nfft=1024):
    files = glob.glob(glob_file_pattern)
    assert(files!=[])

    res = []
    for num, f in enumerate(files):
        try:
            data = {}
            data['file_path'], data['file_name'] = os.path.split(f)
            data['expected_class'] = os.path.split(data['file_path'])[-1]
            signal, fs = load_sound(f)
            data['features'] = extract_mfcc_features_one_channel(signal, nfft=nfft)
            res.append(data)
        except Exception as e:
            print("ERROR on %s" % f)
            print(traceback.format_exc())

    return res
Exemplo n.º 3
0
def _generate_humavips_dataset(
        glob_file_pattern="/mnt/protolab_server/media/sounds/datasets/NAR_dataset/*/*.wav",
        nfft=1024):
    files = glob.glob(glob_file_pattern)
    assert (files != [])

    res = []
    for num, f in enumerate(files):
        try:
            data = {}
            data['file_path'], data['file_name'] = os.path.split(f)
            data['expected_class'] = os.path.split(data['file_path'])[-1]
            signal, fs = load_sound(f)
            data['features'] = extract_mfcc_features_one_channel(signal,
                                                                 nfft=nfft)
            res.append(data)
        except Exception as e:
            print("ERROR on %s" % f)
            print(traceback.format_exc())

    return res
def _generate_aldebaran_dataset(files, nfft=1024, expected_fs=48000, window_block=None):
    assert(files!=[])


    res = []
    for num, f in enumerate(files):
        try:
            data = {}
            data['file_path'], data['file_name'] = os.path.split(f)
            data['full_filename'] = f
            data['expected_class'] = data['file_name'].split('-')[0]
            signal, fs = load_sound(f)
            if fs!=expected_fs:
                print("warning file %s, wrong fs %s, using it.. please remove the file if you don't want" % (f, fs))
                #continue

            for frame_feature in extract_mfcc_features_one_channel(signal, nfft=nfft, window_block=window_block, fs=fs):
                data['features'] = frame_feature
                res.append(data)
        except Exception as e:
            print("ERROR on %s" % f)
            print(traceback.format_exc())

    return res
def _generate_8k_dataset_dict(glob_file_pattern='/mnt/protolab_server_8k/fold*/*.wav', nfft=1024, downsampling_freq=None):
    """

    :param glob_file_pattern:
    :param nfft:
    :param downsampling_freq: if set it's used for downsampling
    :return:
    """
    files = glob.glob(glob_file_pattern)
    assert(files!=[])

    res = []
    for num, f in enumerate(files):
        try:
            data = {}
            data['file_path'], data['file_name'] = os.path.split(f)

            signal, fs = load_sound(f)
            # using channel_1 only
            if downsampling_freq:
                signal, fs = downsample_signal(signal, origin_fs=fs, final_fs=downsampling_freq)

            data['fs'] = fs
            try:
                features = extract_mfcc_features_one_channel(signal, nfft=nfft)
                data['features'] = features
            except Exception as e:
                import IPython
                IPython.embed()

            res.append(data)

        except Exception as e:
            print("ERROR on %s" % f)
            print(traceback.format_exc())
    return res