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I implemented the following algorithm to convert PCM 16 bit audio data to 8 bit:

if(encoding == AudioFormat.ENCODING_PCM_8BIT){
    int len = data.length;          
    data1 = new byte[len/2];
    int tempint;

    for (int k = 0, i=1; i < len; i+=2, k++) {
        tempint = ((int)data[i]) ^ 0x00000080; 
        data1[k] = (byte)tempint;

where data is byte[]. After running this code, the output contains a lot of noise and suggest me that I'm doing something wrong here. What should I do besides dropping the lower byte?

[EDIT]: modified the code:

if(encoding == AudioFormat.ENCODING_PCM_8BIT){

            int len = data.length;          
            data1 = new byte[len/2];
            for (int i = 0; i < len/2; i++) {                   
                    data1[i] = data[i*2+1];     


the input/output looks like:

 Original data(counter:0) = 4
    Original data(counter:1) = -1
    Original data(counter:2) = 75
    Original data(counter:3) = -1
    Original data(counter:4) = 16
    Original data(counter:5) = -1
    Original data(counter:6) = 44
    Original data(counter:7) = -1
    Original data(counter:8) = 7
    Original data(counter:9) = -1
    Original data(counter:10) = 22
    Original data(counter:11) = -1
    Original data(counter:12) = 22
    Original data(counter:13) = -1
    Original data(counter:14) = 12
    Original data(counter:15) = -1

Output data:(counter:0) = -1
Output data:(counter:1) = -1
Output data:(counter:2) = -1
Output data:(counter:3) = -1
Output data:(counter:4) = -1
Output data:(counter:5) = -1
Output data:(counter:6) = -1
Output data:(counter:7) = -1
Output data:(counter:8) = -1
Output data:(counter:9) = -1
Output data:(counter:10) = -1
Output data:(counter:11) = -1
Output data:(counter:12) = -1
Output data:(counter:13) = -1
Output data:(counter:14) = -1
Output data:(counter:15) = -1

It does not matter if I drop first or second byte, the noise still remain. Here I dropped first byte(instead of second)

share|improve this question
Consider looking at the other byte of the two bytes the 16 bit occupy. – Thorbjørn Ravn Andersen Jun 27 '13 at 14:03
Are you suggesting: for (int k = 0, i=0; i < len; i+=2, k++)? Dropping byte 0,2,4,6,etc instead of 1,3,5,7,etc? – Alexandru Circus Jun 27 '13 at 14:05
You could build a cryptographic RNG using the noise as entropy input. :) – rossum Jun 27 '13 at 14:10
Why do you think I should do that:) ? – Alexandru Circus Jun 27 '13 at 14:12
@Thorbjørn Ravn Andersen - you think I should convert each 2 consecutive bytes to short, then apply some operation (>> 8) to each short, convert back to byte[] and then drop the lower byte? – Alexandru Circus Jun 27 '13 at 14:17
up vote 4 down vote accepted

The following algorithm has considerably reduced the amount of noise, but can't get rid of it completely:

if(encoding == AudioFormat.ENCODING_PCM_8BIT){  
            ShortBuffer intBuf = ByteBuffer.wrap(data).order(ByteOrder.LITTLE_ENDIAN).asShortBuffer();
            short[] samples16Bit = new short[intBuf.remaining()];
            data1 = new byte[samples16Bit.length];
            for (int i = 0; i < samples16Bit.length; i++) {
                data1[i] = (byte)((samples16Bit[i] / 256)+128);
share|improve this answer

The noise that you are experiencing is simply caused by the bitrange that you have converted your audio to. The noise floor for 16Bit signals is -96dB yet the noise floor for 8Bit signals is -48dB. This may not seem like much in terms of these numbers but it is a huge difference. Downsampling algorithms almost always employ some kind of dithering to reduce the amount of noise associated with the conversion. You can demonstrate the differences in quality (and noise level) quite easily by creating a sine wave in 8Bit programmatically or with any decent audio program and just listening to the result. You will find that 8Bit is not really quality. Repeat the experiment with a 16Bit sine wave to compare. It's not you, it's the bitrange.

share|improve this answer
Yes, there are unavoidable limitations. But the quality will depend a lot on the dynamic range of the original. If it has a fairly strong signal the result shouldn't be too horrid, but if it's relatively weak to begin with such that you leave several of the bits effectively unused, its going to be bad. More importantly, it is premature to declare that this is the source of the problem, especially when the posted code seems to be wrong endian and doing a probably mistaken conversion to unsigned. – Chris Stratton Jun 28 '13 at 13:03
I agree that is a bit premature but it's always best to know what the actual limits of the system actually are. If you know what 8 Bits sounds like natively without conversion, then you at least have a reference point to go from for a conversion attempt. – ronnied Jun 28 '13 at 14:05
"Bit conversion algorithms almost always employ some kind of filtering to reduce the amount of noise associated with the conversion." Not correct. Bit reduction algorithms should implement dithering, but not filtering. – Bjorn Roche Jun 28 '13 at 15:32
Correct, it's dithering not filtering. Updated response. – ronnied Jul 1 '13 at 0:56

Why not just this?

int len = data.length;          
data1 = new byte[len/2];
for (int i=0; i < len/2; ++i)
    data1[i] = data[i*2];

I'm assuming your data is bigendian. If it's LE, this should work:

int len = data.length;          
data1 = new byte[len/2];
for (int i=0; i < len/2; ++i)
    data1[i] = data[i*2+1];
share|improve this answer
You might find this helpful, as well. It's not my best writing, but there it is:… – Bjorn Roche Jun 28 '13 at 0:04
Thanks @Bjorn Roche for your answer and your blog. I tried the above but the noise still remains... My data is LE, so I drop the first byte of each sample, as per your example above, but still getting noise. I think I should convert each sample to short, apply some transformation on each sample(short), revert back to byte and THEN drop the lower byte of each sample. Some lower-pass-filter I guess. I'm still digging for this :). – Alexandru Circus Jun 28 '13 at 9:42
Don't filter, that's only appropriate for samplerate conversions, not bitdepth conversions. @ronnied has a point about the noisefloor, and looking at the data you posted I agree that your signal is very weak, meaning that the relative noise floor is high. – Bjorn Roche Jun 28 '13 at 15:36
If this is for a WAV file, note that 8-bit WAV files use unsigned data, and the above conversion gives you signed, so you'll have to do that conversion as well. – Bjorn Roche Jun 28 '13 at 15:37
@BjornRoche - interesting, I believe the code is doing a signed to offset-unsigned conversion with the XOR – Chris Stratton Jul 1 '13 at 13:49

You have a lot of noise for multiple reasons. You are firstly only filling every other value of the array, the values you are not filling are automatically zero, that distorts the waveform hugely. Secondly you are just picking the first 8 bits of the original data, this means you lose all of the information on a specific datapoint if the first 8 bits of the datapoint happen to be all zeros, the information may be in the higher bits.

A naive suggestion would be to scale all of the datapoints (divide by 2^7 if signed) so that the highest datapoint is at most 8 bit, you will still lose information and introduce distortion because you are forced to save the data in integers and integer division will force values in the same (close) range to be equal after division but this should be a lot less noisy :)

Thanks to the comment below, if you are only taking every other datapoint from the original you will introduce a distortion known as Aliasing.

share|improve this answer
Correct me if I'm wrong but isn't he filling each spot in the array but skipping every second value from the source array? – aeliusd Jun 27 '13 at 15:00
Let me understand: PCM 16 bit suggests that each sample is composed by 2 consecutive bytes. I want to transform to 8 bit, reduce sample to be stored in only 1 byte. The first step would be to create a short[] from the byte[] (new short[dataByteArr.lenght/2]), apply some transformations(shorts[i] >>8 maybe?) to each short, then cast it to byte arr again. Is that right? If it is right, what kind of transforms should I apply? – Alexandru Circus Jun 27 '13 at 15:41
Sorry, but this answer is just not based on a clear understanding of the subject matter. – Chris Stratton Jun 27 '13 at 18:23
It has been long since I had signal-processing, I would love to know what I was wrong about. – arynaq Jun 27 '13 at 18:30
Beyond the mistake you lined out, the loss of dynamic range when going to 8 bit linear samples is unavoidable (though normalizing the amplitude first could help, or for some types of sound, using an 8 bit log rather than linear format) The code does not take every other datapoint, but rather should take every other byte, which is to say just the high byte from each data point. – Chris Stratton Jun 28 '13 at 3:27

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