11

I have audio data in format of data-uri, then I converted this data-uri into a buffer now I need this buffer data in new samplerate, currently audio data is in 44.1khz and I need data in 16khz, and If I recorded the audio using RecordRTC API and if I record audio in low sample rate then I got distorted audio voice, So I am not getting how to resample my audio buffer,

If any of you any idea regarding this then please help me out.

Thanks in advance :)

13

You can use an OfflineAudioContext to do the resampling, but you need to convert your data-uri to an ArrayBuffer first. This solution works in the browser, not on the server, as it's better to send lower quality audio (lower sample rate) on the network, than send a lot of data and resample on the server.

// `source` is an AudioBuffer instance of the source audio
// at the original sample rate.

var TARGET_SAMPLE_RATE = 16000;

var offlineCtx = new OfflineAudioContext(source.numberOfChannels, source.duration * source.numberOfChannels * TARGET_SAMPLE_RATE, TARGET_SAMPLE_RATE);

var buffer = offlineCtx.createBuffer(source.numberOfChannels, buffer.length, buffer.sampleRate);

// Copy the source data into the offline AudioBuffer
for (var channel = 0; channel < buffer.numberOfChannels; channel++) {
    resampledBuffer.copyToChannel(buffer.getChannelData(channel), channel);
}

// Play it from the beginning.
var source = offlineCtx.createBufferSource();
source.buffer = buffer;
source.connect(offlineCtx.destination);
source.start(0);
offlineCtx.oncomplete = function(resampled) {
    // `resampled` contains an AudioBuffer resampled at 16000Hz.
    // use resampled.getChannelData(x) to get an Float32Array for channel x.
}

o.startRendering();
| improve this answer | |
  • Quick relavant qn. What's the resampling algorithm used by FF internally? – notthetup Dec 28 '14 at 3:23
  • 2
    We use the resampler from the speex codec: dxr.mozilla.org/mozilla-central/source/media/libspeex_resampler/…, that is optimized for speed and good perceptual quality. – padenot Jan 5 '15 at 13:07
  • A small nitpick, but important: note that this floats[i] * Math.pow(2, 16) / 2 will produce wrong value when floats[i] = 1. Suggesting using: ints[i] = floats[i] < 0 ? floats[i] * 32768 : floats[i] * 32767; (or course, caching floats[i] may help performance wise to avoid double array lookup). – user1693593 May 19 '15 at 12:03
  • hi, thanks for the code, i have doubt, I am using recordrtc.js for audio recording, if i convert blob to arraybuffer and intergrate with your code, then oncomplete callback, if i again convert audiobuffer to blob, will it have valid audio file? – Shoib Mohammed A Dec 15 '15 at 6:19
  • 2
    this code doesn't work for me - I end up with an empty audio file. – skunkwerk Feb 22 '16 at 21:57
4

No answers are correct. Here is the perfect code.

// `sourceAudioBuffer` is an AudioBuffer instance of the source audio
// at the original sample rate.
const DESIRED_SAMPLE_RATE = 16000;
const offlineCtx = new OfflineAudioContext(sourceAudioBuffer.numberOfChannels, sourceAudioBuffer.duration * DESIRED_SAMPLE_RATE, DESIRED_SAMPLE_RATE);
const cloneBuffer = offlineCtx.createBuffer(sourceAudioBuffer.numberOfChannels, sourceAudioBuffer.length, sourceAudioBuffer.sampleRate);
// Copy the source data into the offline AudioBuffer
for (let channel = 0; channel < sourceAudioBuffer.numberOfChannels; channel++) {
    cloneBuffer.copyToChannel(sourceAudioBuffer.getChannelData(channel), channel);
}
// Play it from the beginning.
const source = offlineCtx.createBufferSource();
source.buffer = cloneBuffer;
source.connect(offlineCtx.destination);
offlineCtx.oncomplete = function(e) {
  // `resampledAudioBuffer` contains an AudioBuffer resampled at 16000Hz.
  // use resampled.getChannelData(x) to get an Float32Array for channel x.
  const resampledAudioBuffer = e.renderedBuffer;
}
offlineCtx.startRendering();
source.start(0);
| improve this answer | |
1

This is just a copy of the answer from padenot, which I updated to avoid confusion for others who may find this post and have problems with missing variable definitions or how to get the final resampled float32array. This works for me in firefox quantum 64.0:

  var sourceAudioBuffer = e.inputBuffer;  // directly received by the audioprocess event from the microphone in the browser

  var TARGET_SAMPLE_RATE = 8000;
  var offlineCtx = new OfflineAudioContext(sourceAudioBuffer.numberOfChannels, sourceAudioBuffer.duration * sourceAudioBuffer.numberOfChannels * TARGET_SAMPLE_RATE, TARGET_SAMPLE_RATE);
  var buffer = offlineCtx.createBuffer(sourceAudioBuffer.numberOfChannels, sourceAudioBuffer.length, sourceAudioBuffer.sampleRate);
  // Copy the source data into the offline AudioBuffer
  for (var channel = 0; channel < sourceAudioBuffer.numberOfChannels; channel++) {
      buffer.copyToChannel(sourceAudioBuffer.getChannelData(channel), channel);
  }
  // Play it from the beginning.
  var source = offlineCtx.createBufferSource();
  source.buffer = sourceAudioBuffer;
  source.connect(offlineCtx.destination);
  source.start(0);
  offlineCtx.oncomplete = function(e) {
    // `resampled` contains an AudioBuffer resampled at 16000Hz.
    // use resampled.getChannelData(x) to get an Float32Array for channel x.
    var resampled = e.renderedBuffer;
    var leftFloat32Array = resampled.getChannelData(0);
    // use this float32array to send the samples to the server or whatever
  }
  offlineCtx.startRendering();

In my case, the raw resampled 8000 pcm data is piped into ffmpeg via udp broadcasts like this

ffmpeg -fflags nobuffer -analyzeduration 1M -f f32le -ar 8000 -ac 1 -i udp://127.0.0.1:12000 -ar 44100 -ac 2 -f alsa hw:0

So a websocket server just receives the base64 encoded pcm data, decodes the base64 string and just broadcasts via udp. The result is played back by ffmpeg on the speaker.

| improve this answer | |
0

An easier way is to have a standalone call to resample, which simply takes an input audio buffer, an input sample rate, an output sample rate, and returns the output buffer. I found this link to do this: audio resampling

This works quite well (not much noise introduced at audio frequency ranges..). Thanks to the author.

| improve this answer | |
  • The linked library uses linear interpolation, without any bandlimiting, so it is going to introduce aliasing artifacts and may sound quite bad. – Dietrich Epp Apr 16 at 4:07

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