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Can anyone show me an algorithm of removing white noise from a byte[] sound? I work for a personal audio recording app for android and I use android API for recording. Below is the method used to write the recording to file (in wav format).

 private AudioRecord.OnRecordPositionUpdateListener updateListener = new AudioRecord.OnRecordPositionUpdateListener()
    public void onPeriodicNotification(AudioRecord recorder)
        aRecorder.read(buffer, 0, buffer.length);
            fWriter.write(buffer); // Write buffer to file
            payloadSize += buffer.length;
            if (bSamples == 16)
                for (int i=0; i<buffer.length/2; i++)
                { // 16bit sample size
                    short curSample = getShort(buffer[i*2], buffer[i*2+1]);
                    if (curSample > cAmplitude)
                    { // Check amplitude
                        cAmplitude = curSample;
            { // 8bit sample size
                for (int i=0; i<buffer.length; i++)
                    if (buffer[i] > cAmplitude)
                    { // Check amplitude
                        cAmplitude = buffer[i];
        catch (IOException e)
            Log.e(AudioRecorder2.class.getName(), "Error occured in updateListener, recording is aborted");

    public void onMarkerReached(AudioRecord recorder)

I want to apply some transformations to buffer to remove the white noise which can be heard during playback of the recording. If anybody know some algorithm/link to some low-pass filter (or anything else that might be helpful), please help.


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In general, you can't remove white noise, unless you know something about your audio signal. For instance, if you know that it only occupies a certain frequency band, then you can use a low-pass filter, which will remove the high-frequency noise. There is no general solution, though. –  Oliver Charlesworth Apr 30 '12 at 11:12
I am also getting the same noise. Did you find the solution? –  Manoj Oct 1 '12 at 5:04
No, I left this project behind. If you find it, PLEASE reply here so I will accept your answer. –  Alexandru Circus Oct 2 '12 at 12:28

2 Answers 2

You could average the samples if you know: sample frequency (8,16,32,64,128) and bit depth (8,16,32) and channels recorded (mono, stereo).

.wav audio is written alternating channels or interlaced in an array in the size of bit depth. (I think it starts with the left channel)

16kHz 16-bit is a short[] with 16,000 entries per second of audio

64kHZ 32-bit is a int[] with 64,000 " "

you could average the 16-bit channels going from stereo to mono (short[even]+short[odd])/2

you could average the 16-bit frequency 128kHz to 16kHz (8 to 1) short[0,2,4,6,8,10,12,14]/8

averaging lower than 16kHZ frequency will probably sound worse

Depending on how the audio was quantized (analog to digital linearly or logarithmically a-law/u-law/linear) you may need to try different methods.

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Thanks, I will try stereo to mono first (If I'm not wrong a .wav frame(16 bit depth) is composed by 2 samples (4 bytes) - 1 sample for right channel, 1 for left), so averaging will result as mono output. –  Alexandru Circus Jul 6 '13 at 13:08

The most simple way to implement a low pass is to average multiple samples. so if you have n samples, you can do something like that:

// your sample data array
int[] samples
//number of samples you want to average

for(int i=0; i<samples.length-AVERAGE_SAMPLE_COUNT; i++){
    //variable for storing the values of multiple samples
    int avgSample = 0;
    for(int a=0; a<AVERAGE_SAMPLE_COUNT; a++){
        //add up the current and the next n samples
        avgSample += samples[i+a]
    //devide by the number of samples to average them
    avgSample /= AVERAGE_SAMPLE_COUNT;
    //replace first sample with the averaged value
    samples[i] = avgSample

As you can see, the only flaw might be, that the output gets shorter by AVERAGE_SAMPLE_COUNT. You can easily try out different strength of the algo by a changing AVERAGE_SAMPLE_COUNT. Also, it is working in-place, that means it changes your initial input data.

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Averaging gives a very poor low pass filter - also the audio quality will suffer badly if you throw away 2/3 of the bandwidth. –  Paul R Apr 30 '12 at 12:25
Thanks, I will try implementing this filter and see the results. –  Alexandru Circus Apr 30 '12 at 13:22
Indeed the quality of the output is even worse than original(the original has "a little" noise though, so for the moment I will leave it as it is - maybe in the future I will start studying in deep the sounds theory so I'll be able to implement noise removal like audacity does. Dreams:) .) Thanks anyway for your answer. –  Alexandru Circus Apr 30 '12 at 13:58

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