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import numpy as np |
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from python_speech_features import sigproc |
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def calc_energy(signal, samplerate=16000, winlen=0.025, winstep=0.01): |
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""" |
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任意信号都可以看作是在电阻R=1 的电路上的电流 I. 则能量为 I^2 |
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""" |
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signal = np.array(signal, dtype=np.float32) |
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power = np.square(signal) |
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frames = sigproc.framesig(power, winlen*samplerate, winstep*samplerate) |
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energy = np.mean(frames, axis=-1) |
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return energy |
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def calc_zero_crossing_rate(signal, samplerate=16000, winlen=0.025, winstep=0.01): |
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"""过零率. """ |
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signal = np.where(signal >= 0, 1, -1) |
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cross_zero = np.where(signal[1:] != signal[:-1], 1, 0) |
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frames = sigproc.framesig(cross_zero, winlen*samplerate, winstep*samplerate) |
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_, n = frames.shape |
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cross_zero_rate = np.mean(frames, axis=-1) |
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return cross_zero_rate |
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def detect_silence(signal, samplerate=16000, winlen=0.025, winstep=0.01, min_energy=0.01, min_cross_zero_rate=0.05): |
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"""静音段检测""" |
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energy = calc_energy( |
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signal=signal, |
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samplerate=samplerate, |
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winlen=winlen, |
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winstep=winstep, |
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) |
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cross_zero_rate = calc_zero_crossing_rate( |
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signal=signal, |
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samplerate=samplerate, |
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winlen=winlen, |
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winstep=winstep, |
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) |
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energy = energy < min_energy |
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cross_zero_rate = cross_zero_rate < min_cross_zero_rate |
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silence_signal = np.array(energy + cross_zero_rate, dtype=np.bool) |
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silence_signal = silence_signal.tolist() |
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frame_len = int(sigproc.round_half_up(winlen*samplerate)) |
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frame_step = int(sigproc.round_half_up(winstep*samplerate)) |
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silence_list = list() |
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last_s = False |
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for idx, s in enumerate(silence_signal): |
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if s is True: |
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if last_s is True: |
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silence = silence_list.pop(-1) |
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begin = silence[0] |
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count = silence[1] |
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silence_list.append([begin, count + 1]) |
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else: |
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begin = frame_step * idx |
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silence_list.append([begin, 1]) |
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last_s = s |
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result = list() |
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for silence in silence_list: |
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begin = silence[0] |
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count = silence[1] |
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end = begin + frame_step * (count - 1) + frame_len |
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result.append([begin, end]) |
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return result |
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if __name__ == '__main__': |
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pass |
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