def make_transform():
    return Compose([
        FrequencyMask(min_frequency_band=0.005,
                      max_frequency_band=0.10,
                      p=0.25),
        TimeStretch(min_rate=0.15, max_rate=.25, p=0.25),
        AddGaussianSNR(min_SNR=0.001, max_SNR=.25, p=0.25)
    ])
Exemplo n.º 2
0
 def __init__(self):
     super(Augment_Time, self).__init__()
     self.p = 0.5
     self.augmenter = Compose([
         AddGaussianNoise(min_amplitude=0.001, max_amplitude=0.01, p=0.3),
         TimeStretch(min_rate=0.8, max_rate=1.25, p=0.5),
         PitchShift(min_semitones=-4, max_semitones=4, p=0.5),
         FrequencyMask(),
         TimeMask()
         #Shift(min_fraction=-0.5, max_fraction=0.5, p=0.5),
     ])
Exemplo n.º 3
0
def compose_without_noise(ir_path='data/impulse'):
    _p = 0.25

    transforms = [
        AddGaussianNoise(p=_p),
        Shift(p=_p, min_fraction=-0.2, max_fraction=0.2),
        FrequencyMask(p=_p),
        TimeMask(p=_p, max_band_part=0.25),
        AddGaussianSNR(p=_p),
        ClippingDistortion(p=_p, max_percentile_threshold=20),
        MyAddImpulseResponse(p=_p, ir_path=ir_path),
        TimeStretch(p=_p / 10),
        PitchShift(p=_p / 25),
    ]

    return MyCompose(transforms, p=1.0, max_augs=3)
Exemplo n.º 4
0
def compose(sounds_path):
  _p = 0.2

  transforms = [
    MyGain(p=_p),
    AddGaussianNoise(p=_p),
    Shift(p=_p, min_fraction=-0.25, max_fraction=0.25),
    FrequencyMask(p=_p),
    TimeMask(p=_p, max_band_part=0.25),
    AddGaussianSNR(p=_p),
    ClippingDistortion(p=_p, max_percentile_threshold=20),
    AddBackgroundNoise(sounds_path=sounds_path, p=_p),
    TimeStretch(p=_p/10),
    PitchShift(p=_p/30),
  ]
  
  return Compose(transforms, p=0.4, shuffle=True)
Exemplo n.º 5
0
    def __init__(
        self,
        manifest_path,
        sample_rate,
        max_sample_size=None,
        min_sample_size=None,
        shuffle=True,
        min_length=0,
        pad=False,
        normalize=False,
    ):
        super(AugmentedFileAudioDataset, self).__init__(
            manifest_path=manifest_path,
            sample_rate=sample_rate,
            max_sample_size=max_sample_size,
            min_sample_size=min_sample_size,
            shuffle=shuffle,
            min_length=min_length,
            pad=pad,
            normalize=normalize,
        )

        self.pre_transform = Compose([
            #AddGaussianNoise(min_amplitude=1e-3, max_amplitude=5e-2, p=0.8),
            #PitchShift(min_semitones=-4, max_semitones=4, p=0.8),
            FrequencyMask(min_frequency_band=0.0,
                          max_frequency_band=0.05,
                          p=0.5),
            TimeMask(min_band_part=0.0, max_band_part=0.05, p=0.5)
            #ClippingDistortion(min_percentile_threshold=10, max_percentile_threshold=40, p=0.2),
        ])

        random_reverb = RandomReverb()
        random_clip = RandomClip()
        random_time_dropout = RandomTimeDropout()
        self.post_transform = augment.EffectChain().reverb(
            random_reverb).channels(1).clip(random_clip)  #.time_dropout(200)
Exemplo n.º 6
0
         max_fade_in_time=0.08,
         min_fade_out_time=0.01,
         max_fade_out_time=0.1,
         p=1.0,
     ),
     "num_runs":
     5,
 },
 {
     "instance": ClippingDistortion(p=1.0),
     "num_runs": 5
 },
 {
     "instance":
     FrequencyMask(min_frequency_band=0.5,
                   max_frequency_band=0.6,
                   p=1.0),
     "num_runs":
     5,
 },
 {
     "instance": Gain(min_gain_in_db=-6, max_gain_in_db=6, p=1.0),
     "num_runs": 5
 },
 {
     "instance": PitchShift(min_semitones=-4, max_semitones=4, p=1.0),
     "num_runs": 5,
 },
 {
     "instance": LoudnessNormalization(p=1.0),
     "num_runs": 5
Exemplo n.º 7
0
    def generate(self, wave_file, output_dir):
        """
        For each transformation, apply it to an example sound and write the transformed sounds to
        an output folder.
        """
        samples = load_wav_file(wave_file)
        _filename = os.path.basename(wave_file).split('.')[0]
        # AddImpulseResponse
        if self.AddImpulseResponse[0]:
            augmenter = Compose([
                AddImpulseResponse(p=1.0, ir_path=os.path.join(DEMO_DIR, "ir"))
            ])
            output_file_path = os.path.join(
                output_dir,
                _filename + "_AddImpulseResponse{:03d}.wav".format(0))
            augmented_samples = augmenter(samples=samples,
                                          sample_rate=SAMPLE_RATE)
            wavfile.write(output_file_path,
                          rate=SAMPLE_RATE,
                          data=augmented_samples)
        # FrequencyMask
        if self.FrequencyMask[0]:
            augmenter = Compose([FrequencyMask(p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_FrequencyMask{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # TimeMask
        if self.TimeMask[0]:
            augmenter = Compose([TimeMask(p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir, _filename + "_TimeMask{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # AddGaussianSNR
        if self.AddGaussianSNR[0]:
            augmenter = Compose([AddGaussianSNR(p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_AddGaussianSNR{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # AddGaussianNoise
        if self.AddGaussianNoise[0]:
            augmenter = Compose([
                AddGaussianNoise(min_amplitude=0.001,
                                 max_amplitude=0.015,
                                 p=1.0)
            ])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_AddGaussianNoise{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # TimeStretch
        if self.TimeStretch[0]:
            augmenter = Compose(
                [TimeStretch(min_rate=0.5, max_rate=1.5, p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir, _filename + "_TimeStretch{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # PitchShift
        if self.PitchShift[0]:
            augmenter = Compose(
                [PitchShift(min_semitones=-6, max_semitones=12, p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir, _filename + "_PitchShift{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # Shift
        if self.Shift[0]:
            augmenter = Compose(
                [Shift(min_fraction=-0.5, max_fraction=0.5, p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir, _filename + "_Shift{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # Shift without rollover
        if self.ShiftWithoutRoll[0]:
            augmenter = Compose([
                Shift(min_fraction=-0.2,
                      max_fraction=0.2,
                      rollover=False,
                      p=1.0)
            ])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_ShiftWithoutRollover{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # Normalize
        if self.Normalize[0]:
            augmenter = Compose([Normalize(p=1.0)])
            output_file_path = os.path.join(
                output_dir, _filename + "_Normalize{:03d}.wav".format(0))
            augmented_samples = augmenter(samples=samples,
                                          sample_rate=SAMPLE_RATE)
            wavfile.write(output_file_path,
                          rate=SAMPLE_RATE,
                          data=augmented_samples)

        # Resample
        if self.Resample[0]:
            augmenter = Compose([
                Resample(min_sample_rate=12000, max_sample_rate=44100, p=1.0)
            ])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir, _filename + "_Resample{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # ClippingDistortion
        if self.ClippingDistortion[0]:
            augmenter = Compose(
                [ClippingDistortion(max_percentile_threshold=10, p=1.0)])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_ClippingDistortion{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)

        # AddBackgroundNoise
        if self.AddBackgroundNoise[0]:
            augmenter = Compose([
                AddBackgroundNoise(sounds_path=os.path.join(
                    DEMO_DIR, "background_noises"),
                                   p=1.0)
            ])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_AddBackgroundNoise{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)
        # AddWhiteNoise
        if self.AddWhiteNoise[0]:
            augmenter = Compose([
                AddBackgroundNoise(sounds_path=os.path.join(
                    DEMO_DIR, "white_noises"),
                                   p=1.0)
            ])
            for i in range(self.AddWhiteNoise[1]):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_AddWhiteNoise{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)
        # AddPinkNoise
        if self.AddPinkNoise[0]:
            augmenter = Compose([
                AddBackgroundNoise(sounds_path=os.path.join(
                    DEMO_DIR, "pink_noises"),
                                   p=1.0)
            ])
            for i in range(self.AddPinkNoise[1]):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_AddPinkNoise{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)
        # AddShortNoises
        if self.AddShortNoises[0]:
            augmenter = Compose([
                AddShortNoises(
                    sounds_path=os.path.join(DEMO_DIR, "short_noises"),
                    min_snr_in_db=0,
                    max_snr_in_db=8,
                    min_time_between_sounds=2.0,
                    max_time_between_sounds=4.0,
                    burst_probability=0.4,
                    min_pause_factor_during_burst=0.01,
                    max_pause_factor_during_burst=0.95,
                    min_fade_in_time=0.005,
                    max_fade_in_time=0.08,
                    min_fade_out_time=0.01,
                    max_fade_out_time=0.1,
                    p=1.0,
                )
            ])
            for i in range(5):
                output_file_path = os.path.join(
                    output_dir,
                    _filename + "_AddShortNoises{:03d}.wav".format(i))
                augmented_samples = augmenter(samples=samples,
                                              sample_rate=SAMPLE_RATE)
                wavfile.write(output_file_path,
                              rate=SAMPLE_RATE,
                              data=augmented_samples)
Exemplo n.º 8
0
    os.makedirs(output_dir, exist_ok=True)

    np.random.seed(42)
    random.seed(42)

    samples = load_wav_file(os.path.join(DEMO_DIR, "acoustic_guitar_0.wav"))

    transforms = [
        {
            "instance":
            AddImpulseResponse(p=1.0, ir_path=os.path.join(DEMO_DIR, "ir")),
            "num_runs":
            1,
        },
        {
            "instance": FrequencyMask(p=1.0),
            "num_runs": 5
        },
        {
            "instance": TimeMask(p=1.0),
            "num_runs": 5
        },
        {
            "instance": AddGaussianSNR(p=1.0),
            "num_runs": 5
        },
        {
            "instance":
            AddGaussianNoise(min_amplitude=0.001, max_amplitude=0.015, p=1.0),
            "num_runs":
            5,
Exemplo n.º 9
0
    os.makedirs(output_dir, exist_ok=True)

    samples = load_wav_file(os.path.join(DEMO_DIR, "acoustic_guitar_0.wav"))

    # AddImpulseResponse
    augmenter = Compose(
        [AddImpulseResponse(p=1.0, ir_path=os.path.join(DEMO_DIR, "ir"))]
    )
    output_file_path = os.path.join(
        output_dir, "AddImpulseResponse_{:03d}.wav".format(0)
    )
    augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
    wavfile.write(output_file_path, rate=SAMPLE_RATE, data=augmented_samples)

    # FrequencyMask
    augmenter = Compose([FrequencyMask(p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "FrequencyMask_{:03d}.wav".format(i)
        )
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path, rate=SAMPLE_RATE, data=augmented_samples)

    # TimeMask
    augmenter = Compose([TimeMask(p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(output_dir, "TimeMask_{:03d}.wav".format(i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path, rate=SAMPLE_RATE, data=augmented_samples)

    # AddGaussianSNR
Exemplo n.º 10
0
 def __init__(self, augment_type, p, cross_valid=False):
     self.cross_valid = cross_valid
     self.sample_rate = 8000
     self.type = augment_type
     self.p = p
     wham_path = '../../../librimix/data/wham_noise/cv' if self.cross_valid else '../../../librimix/data/wham_noise/tr'
     if self.type == 'wham_weak':
         self.augment = Compose([
             AddBackgroundNoise(sounds_path=wham_path,
                                min_snr_in_db=5,
                                max_snr_in_db=15,
                                p=1)
         ])
     elif self.type == 'wham_strong':
         self.augment = Compose([
             AddBackgroundNoise(sounds_path=wham_path,
                                min_snr_in_db=2,
                                max_snr_in_db=7,
                                p=1)
         ])
     elif self.type == 'reverb_weak':
         self.augment = AudioEffectsChain().reverb(
             reverberance=random.randrange(0, 50),
             room_scale=random.randrange(0, 50),
             stereo_depth=random.randrange(0, 50),
         )
     elif self.type == 'reverb_strong':
         self.augment = AudioEffectsChain().reverb(
             reverberance=random.randrange(50, 100),
             room_scale=random.randrange(50, 100),
             stereo_depth=random.randrange(50, 100),
         )
     elif self.type == 'cascade':
         self.augment = Compose([
             AddBackgroundNoise(sounds_path=wham_path,
                                min_snr_in_db=0,
                                max_snr_in_db=5,
                                p=self.p),
             AddGaussianSNR(min_SNR=0.001, max_SNR=0.25, p=self.p),
             ClippingDistortion(min_percentile_threshold=0,
                                max_percentile_threshold=40,
                                p=self.p),
             FrequencyMask(min_frequency_band=0.0,
                           max_frequency_band=0.5,
                           p=self.p),
             PolarityInversion(p=self.p),
             Shift(min_fraction=-0.5,
                   max_fraction=0.5,
                   rollover=True,
                   p=self.p),
             TimeMask(min_band_part=0.0,
                      max_band_part=0.2,
                      fade=False,
                      p=self.p)
         ])
     elif self.type == 'distort':
         self.augment = Compose([
             PitchShift(min_semitones=-4, max_semitones=4, p=self.p),
             TimeStretch(min_rate=0.8,
                         max_rate=1.25,
                         leave_length_unchanged=True,
                         p=self.p)
         ])
     elif self.type == 'none':
         self.augment = None
     else:
         raise ValueError(
             "Did not recognize augmentation type. Received %s, expected 'wham_weak', 'wham_strong', 'reverb_weak', 'reverb_strong', 'cascade', 'distort', or 'none'."
             % self.type)
Exemplo n.º 11
0
def transform(file_path, output_folder, iterations):
    """
    For each transformation, apply it to an example sound and write the transformed sounds to
    an output folder.
    """

    samples = load_wav_file(file_path)
    file_name = os.path.basename(file_path).replace('.wav', '')

    def produce(augmenter, name):
        for i in range(iterations):
            output_file_path = '{}/{}'.format(
                output_folder, "{}_{}_{}.wav".format(name, file_name, i))
            augmented_samples = augmenter(samples=samples,
                                          sample_rate=SAMPLE_RATE)
            wavfile.write(output_file_path,
                          rate=SAMPLE_RATE,
                          data=augmented_samples)

    # TimeMask
    augmenter = Compose([TimeMask(p=1.0)])
    produce(augmenter, 'TimeMask')

    # FrequencyMask
    augmenter = Compose([FrequencyMask(p=1.0)])
    produce(augmenter, 'FrequencyMask')

    # AddGaussianSNR
    augmenter = Compose([AddGaussianSNR(p=1.0)])
    produce(augmenter, 'AddGaussianSNR')

    # PitchShift
    augmenter = Compose([PitchShift(min_semitones=-4, max_semitones=4, p=1.0)])
    produce(augmenter, 'PitchShift')

    # TimeStretch
    augmenter = Compose([TimeStretch(min_rate=0.8, max_rate=1.25, p=0.5)])
    produce(augmenter, 'TimeStretch')

    # AddGaussianNoise
    augmenter = Compose(
        [AddGaussianNoise(min_amplitude=0.001, max_amplitude=0.015, p=1.0)])
    produce(augmenter, 'AddGaussianNoise')

    # Shift
    augmenter = Compose([Shift(min_fraction=-0.5, max_fraction=0.5, p=1.0)])
    produce(augmenter, 'Shift')

    # Shift without rollover
    augmenter = Compose(
        [Shift(min_fraction=-0.5, max_fraction=0.5, rollover=False, p=1.0)])
    produce(augmenter, 'Shift without rollover')

    # Normalize
    augmenter = Compose([Normalize(p=1.0)])
    produce(augmenter, 'Normalize')

    # AddImpulseResponse
    augmenter = Compose(
        [AddImpulseResponse(p=1.0, ir_path=os.path.join(DEMO_DIR, "ir"))])
    produce(augmenter, 'AddImpulseResponse')

    # Resample
    augmenter = Compose([Resample(p=1.0)])
    produce(augmenter, 'Resample')

    # ClippingDistortion
    augmenter = Compose([ClippingDistortion(p=1.0)])
    produce(augmenter, 'ClippingDistortion')

    # AddBackgroundNoise
    augmenter = Compose([
        AddBackgroundNoise(sounds_path=os.path.join(DEMO_DIR,
                                                    "background_noises"),
                           p=1.0)
    ])
    produce(augmenter, 'AddBackgroundNoise')

    # AddShortNoises
    augmenter = Compose([
        AddShortNoises(
            sounds_path=os.path.join(DEMO_DIR, "short_noises"),
            min_snr_in_db=0,
            max_snr_in_db=8,
            min_time_between_sounds=2.0,
            max_time_between_sounds=4.0,
            burst_probability=0.4,
            min_pause_factor_during_burst=0.01,
            max_pause_factor_during_burst=0.95,
            min_fade_in_time=0.005,
            max_fade_in_time=0.08,
            min_fade_out_time=0.01,
            max_fade_out_time=0.1,
            p=1.0,
        )
    ])
    produce(augmenter, 'AddShortNoises')
def applyTransformations(fileName, output_dir, auxiliarSoundsDir):
    name = fileName.split(".")[0].split("/")[-1]
    samples = load_wav_file(fileName)

    # AddImpulseResponse
    augmenter = Compose([
        AddImpulseResponse(p=1.0,
                           ir_path=os.path.join(auxiliarSoundsDir,
                                                "helperSounds/ir"))
    ])
    output_file_path = os.path.join(
        output_dir, "{}_AddImpulseResponse_{:03d}.wav".format(name, 0))

    augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)

    wavfile.write(output_file_path, rate=SAMPLE_RATE, data=augmented_samples)
    # FrequencyMask
    augmenter = Compose([FrequencyMask(p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_FrequencyMask_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # TimeMask
    augmenter = Compose([TimeMask(p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_TimeMask_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # AddGaussianSNR
    augmenter = Compose([AddGaussianSNR(p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_AddGaussianSNR_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # AddGaussianNoise
    augmenter = Compose(
        [AddGaussianNoise(min_amplitude=0.001, max_amplitude=0.015, p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_AddGaussianNoise_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # TimeStretch
    augmenter = Compose([TimeStretch(min_rate=0.8, max_rate=1.25, p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_TimeStretch_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # PitchShift
    augmenter = Compose([PitchShift(min_semitones=-4, max_semitones=4, p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_itchShift_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # Shift
    augmenter = Compose([Shift(min_fraction=-0.5, max_fraction=0.5, p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(output_dir,
                                        "{}_Shift_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # Shift without rollover
    augmenter = Compose(
        [Shift(min_fraction=-0.5, max_fraction=0.5, rollover=False, p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_ShiftWithoutRollover_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # Normalize
    augmenter = Compose([Normalize(p=1.0)])
    output_file_path = os.path.join(output_dir,
                                    "{}_Normalize_{:03d}.wav".format(name, 0))
    augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
    wavfile.write(output_file_path, rate=SAMPLE_RATE, data=augmented_samples)

    # ClippingDistortion
    augmenter = Compose([ClippingDistortion(p=1.0)])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_ClippingDistortion_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # AddBackgroundNoise
    augmenter = Compose([
        AddBackgroundNoise(sounds_path=os.path.join(
            auxiliarSoundsDir, "helperSounds/background_noises"),
                           p=1.0)
    ])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_AddBackgroundNoise_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)

    # AddShortNoises
    augmenter = Compose([
        AddShortNoises(
            sounds_path=os.path.join(auxiliarSoundsDir,
                                     "helperSounds/short_noises"),
            min_snr_in_db=0,
            max_snr_in_db=8,
            min_time_between_sounds=2.0,
            max_time_between_sounds=4.0,
            burst_probability=0.4,
            min_pause_factor_during_burst=0.01,
            max_pause_factor_during_burst=0.95,
            min_fade_in_time=0.005,
            max_fade_in_time=0.08,
            min_fade_out_time=0.01,
            max_fade_out_time=0.1,
            p=1.0,
        )
    ])
    for i in range(5):
        output_file_path = os.path.join(
            output_dir, "{}_AddShortNoises_{:03d}.wav".format(name, i))
        augmented_samples = augmenter(samples=samples, sample_rate=SAMPLE_RATE)
        wavfile.write(output_file_path,
                      rate=SAMPLE_RATE,
                      data=augmented_samples)