One way I've done it:
- read a block of samples at a time,
say 0.05 seconds worth
- compute the
RMS amplitude of the block (square
root of the average of the squares of
the individual samples)
- if the block's RMS amplitude is greater than a threshold, it's a "noisy block" else it's a "quiet block"
- a sudden tap would be a quiet block followed by a small number of noisy blocks followed by a quiet block
- if you never get a quiet block, your threshold is too low
- if you never get a noisy block, your threshold is too high
My application was recording "interesting" noises unattended, so it would record as long as there were noisy blocks. It would multiply the threshold by 1.1 if there was a 15-second noisy period ("covering its ears") and multiply the threshold by 0.9 if there was a 15-minute quiet period ("listening harder"). Your application will have different needs.
Also, just noticed some comments in my code regarding observed RMS values. On the built in mic on a Macbook Pro, with +/- 1.0 normalized audio data range, with input volume set to max, some data points:
- 0.003-0.006 (-50dB to -44dB) an obnoxiously loud central heating fan in my house
- 0.010-0.40 (-40dB to -8dB) typing on the same laptop
- 0.10 (-20dB) snapping fingers softly at 1' distance
- 0.60 (-4.4dB) snapping fingers loudly at 1'
Update: here's a sample to get you started.
#!/usr/bin/python
# open a microphone in pyAudio and listen for taps
import pyaudio
import struct
import math
INITIAL_TAP_THRESHOLD = 0.010
FORMAT = pyaudio.paInt16
SHORT_NORMALIZE = (1.0/32768.0)
CHANNELS = 2
RATE = 44100
INPUT_BLOCK_TIME = 0.05
INPUT_FRAMES_PER_BLOCK = int(RATE*INPUT_BLOCK_TIME)
# if we get this many noisy blocks in a row, increase the threshold
OVERSENSITIVE = 15.0/INPUT_BLOCK_TIME
# if we get this many quiet blocks in a row, decrease the threshold
UNDERSENSITIVE = 120.0/INPUT_BLOCK_TIME
# if the noise was longer than this many blocks, it's not a 'tap'
MAX_TAP_BLOCKS = 0.15/INPUT_BLOCK_TIME
def get_rms( block ):
# RMS amplitude is defined as the square root of the
# mean over time of the square of the amplitude.
# so we need to convert this string of bytes into
# a string of 16-bit samples...
# we will get one short out for each
# two chars in the string.
count = len(block)/2
format = "%dh"%(count)
shorts = struct.unpack( format, block )
# iterate over the block.
sum_squares = 0.0
for sample in shorts:
# sample is a signed short in +/- 32768.
# normalize it to 1.0
n = sample * SHORT_NORMALIZE
sum_squares += n*n
return math.sqrt( sum_squares / count )
class TapTester(object):
def __init__(self):
self.pa = pyaudio.PyAudio()
self.stream = self.open_mic_stream()
self.tap_threshold = INITIAL_TAP_THRESHOLD
self.noisycount = MAX_TAP_BLOCKS+1
self.quietcount = 0
self.errorcount = 0
def stop(self):
self.stream.close()
def find_input_device(self):
device_index = None
for i in range( self.pa.get_device_count() ):
devinfo = self.pa.get_device_info_by_index(i)
print( "Device %d: %s"%(i,devinfo["name"]) )
for keyword in ["mic","input"]:
if keyword in devinfo["name"].lower():
print( "Found an input: device %d - %s"%(i,devinfo["name"]) )
device_index = i
return device_index
if device_index == None:
print( "No preferred input found; using default input device." )
return device_index
def open_mic_stream( self ):
device_index = self.find_input_device()
stream = self.pa.open( format = FORMAT,
channels = CHANNELS,
rate = RATE,
input = True,
input_device_index = device_index,
frames_per_buffer = INPUT_FRAMES_PER_BLOCK)
return stream
def tapDetected(self):
print("Tap!")
def listen(self):
try:
block = self.stream.read(INPUT_FRAMES_PER_BLOCK)
except IOError as e:
# dammit.
self.errorcount += 1
print( "(%d) Error recording: %s"%(self.errorcount,e) )
self.noisycount = 1
return
amplitude = get_rms( block )
if amplitude > self.tap_threshold:
# noisy block
self.quietcount = 0
self.noisycount += 1
if self.noisycount > OVERSENSITIVE:
# turn down the sensitivity
self.tap_threshold *= 1.1
else:
# quiet block.
if 1 <= self.noisycount <= MAX_TAP_BLOCKS:
self.tapDetected()
self.noisycount = 0
self.quietcount += 1
if self.quietcount > UNDERSENSITIVE:
# turn up the sensitivity
self.tap_threshold *= 0.9
if __name__ == "__main__":
tt = TapTester()
for i in range(1000):
tt.listen()
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