详解python的webrtc库实现语音端点检测
引言
语音端点检测最早应用于电话传输和检测系统当中,用于通信信道的时间分配,提高传输线路的利用效率.端点检测属于语音处理系统的前端操作,在语音检测领域意义重大.
但是目前的语音端点检测,尤其是检测 人声 开始和结束的端点始终是属于技术难点,各家公司始终处于 能判断,但是不敢保证 判别准确性 的阶段.
现在基于云端语义库的聊天机器人层出不穷,其中最著名的当属amazon的 Alexa/Echo 智能音箱.
国内如雨后春笋般出现了各种搭载语音聊天的智能音箱(如前几天在知乎上广告的若琪机器人)和各类智能机器人产品.国内语音服务提供商主要面对中文语音服务,由于语音不像图像有分辨率等等较为客观的指标,很多时候凭主观判断,所以较难判断各家语音识别和合成技术的好坏.但是我个人认为,国内的中文语音服务和国外的英文语音服务,在某些方面已经有超越的趋势.
通常搭建机器人聊天系统主要包括以下三个方面:
- 语音转文字(ASR/STT)
- 语义内容(NLU/NLP)
- 文字转语音(TTS)
语音转文字(ASR/STT)
在将语音传给云端API之前,是本地前端的语音采集,这部分主要包括如下几个方面:
- 麦克风降噪
- 声源定位
- 回声消除
- 唤醒词
- 语音端点检测
- 音频格式压缩
python 端点检测
由于实际应用中,单纯依靠能量检测特征检测等方法很难判断人声说话的起始点,所以市面上大多数的语音产品都是使用唤醒词判断语音起始.另外加上声音回路,还可以做语音打断.这样的交互方式可能有些傻,每次必须喊一下 唤醒词 才能继续聊天.这种方式聊多了,个人感觉会嘴巴疼:-O .现在github上有snowboy唤醒词的开源库,大家可以登录snowboy官网训练自己的唤醒词模型.
考虑到用唤醒词嘴巴会累,所以大致调研了一下,Python拥有丰富的库,直接import就能食用.这种方式容易受强噪声干扰,适合一个人在家玩玩.
- pyaudio: pip install pyaudio 可以从设备节点读取原始音频流数据,音频编码是PCM格式;
- webrtcvad: pip install webrtcvad 检测判断一组语音数据是否为空语音;
当检测到持续时间长度 T1 vad检测都有语音活动,可以判定为语音起始;
当检测到持续时间长度 T2 vad检测都没有有语音活动,可以判定为语音结束;
完整程序代码可以从我的github下载
程序很简单,相信看一会儿就明白了
'''
Requirements:
+ pyaudio - `pip install pyaudio`
+ py-webrtcvad - `pip install webrtcvad`
'''
import webrtcvad
import collections
import sys
import signal
import pyaudio
from array import array
from struct import pack
import wave
import time
FORMAT = pyaudio.paInt16
CHANNELS = 1
RATE = 16000
CHUNK_DURATION_MS = 30 # supports 10, 20 and 30 (ms)
PADDING_DURATION_MS = 1500 # 1 sec jugement
CHUNK_SIZE = int(RATE CHUNK_DURATION_MS / 1000) # chunk to read
CHUNK_BYTES = CHUNK_SIZE 2 # 16bit = 2 bytes, PCM
NUM_PADDING_CHUNKS = int(PADDING_DURATION_MS / CHUNK_DURATION_MS)
# NUM_WINDOW_CHUNKS = int(240 / CHUNK_DURATION_MS)
NUM_WINDOW_CHUNKS = int(400 / CHUNK_DURATION_MS) # 400 ms/ 30ms ge
NUM_WINDOW_CHUNKS_END = NUM_WINDOW_CHUNKS 2
START_OFFSET = int(NUM_WINDOW_CHUNKS CHUNK_DURATION_MS 0.5 RATE)
vad = webrtcvad.Vad(1)
pa = pyaudio.PyAudio()
stream = pa.open(format=FORMAT,
channels=CHANNELS,
rate=RATE,
input=True,
start=False,
# input_device_index=2,
frames_per_buffer=CHUNK_SIZE)
got_a_sentence = False
leave = False
def handle_int(sig, chunk):
global leave, got_a_sentence
leave = True
got_a_sentence = True
def record_to_file(path, data, sample_width):
"Records from the microphone and outputs the resulting data to 'path'"
# sample_width, data = record()
data = pack('<' + ('h' len(data)), data)
wf = wave.open(path, 'wb')
wf.setnchannels(1)
wf.setsampwidth(sample_width)
wf.setframerate(RATE)
wf.writeframes(data)
wf.close()
def normalize(snd_data):
"Average the volume out"
MAXIMUM = 32767 # 16384
times = float(MAXIMUM) / max(abs(i) for i in snd_data)
r = array('h')
for i in snd_data:
r.append(int(i times))
return r
signal.signal(signal.SIGINT, handle_int)
while not leave:
ring_buffer = collections.deque(maxlen=NUM_PADDING_CHUNKS)
triggered = False
voiced_frames = []
ring_buffer_flags = [0] NUM_WINDOW_CHUNKS
ring_buffer_index = 0
ring_buffer_flags_end = [0] NUM_WINDOW_CHUNKS_END
ring_buffer_index_end = 0
buffer_in = ''
# WangS
raw_data = array('h')
index = 0
start_point = 0
StartTime = time.time()
print(" recording: ")
stream.start_stream()
while not got_a_sentence and not leave:
chunk = stream.read(CHUNK_SIZE)
# add WangS
raw_data.extend(array('h', chunk))
index += CHUNK_SIZE
TimeUse = time.time() - StartTime
active = vad.is_speech(chunk, RATE)
sys.stdout.write('1' if active else '_')
ring_buffer_flags[ring_buffer_index] = 1 if active else 0
ring_buffer_index += 1
ring_buffer_index %= NUM_WINDOW_CHUNKS
ring_buffer_flags_end[ring_buffer_index_end] = 1 if active else 0
ring_buffer_index_end += 1
ring_buffer_index_end %= NUM_WINDOW_CHUNKS_END
# start point detection
if not triggered:
ring_buffer.append(chunk)
num_voiced = sum(ring_buffer_flags)
if num_voiced > 0.8 NUM_WINDOW_CHUNKS:
sys.stdout.write(' Open ')
triggered = True
start_point = index - CHUNK_SIZE 20 # start point
# voiced_frames.extend(ring_buffer)
ring_buffer.clear()
# end point detection
else:
# voiced_frames.append(chunk)
ring_buffer.append(chunk)
num_unvoiced = NUM_WINDOW_CHUNKS_END - sum(ring_buffer_flags_end)
if num_unvoiced > 0.90 NUM_WINDOW_CHUNKS_END or TimeUse > 10:
sys.stdout.write(' Close ')
triggered = False
got_a_sentence = True
sys.stdout.flush()
sys.stdout.write('\n')
# data = b''.join(voiced_frames)
stream.stop_stream()
print(" done recording")
got_a_sentence = False
# write to file
raw_data.reverse()
for index in range(start_point):
raw_data.pop()
raw_data.reverse()
raw_data = normalize(raw_data)
record_to_file("recording.wav", raw_data, 2)
leave = True
stream.close()
程序运行方式sudo python vad.py
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持【听图阁-专注于Python设计】。