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I attempted to generate a Sine Wave using AudioTrack initially. The result was not satisfactory. I then moved to the Soundpool class. I used Audacity to create audiofiles of 1 second and then modified the playback speed (.5 - 2.0) to get the desired frequencies. (Arrays, as there are also saw and triangle wavefiles)

    sig10000[0]=soundPool01.load(context,R.raw.sine10000,1);
    sig2500[0]=soundPool01.load(context,R.raw.sine2500,1);
    sig625[0]=soundPool01.load(context,R.raw.sine625,1);
    sig157[0]=soundPool01.load(context,R.raw.sine156,1);
    sig40[0]=soundPool01.load(context,R.raw.sine40,1);

I then, depending on the chosen frequency, play the audio:

    public void play(){

    Signal s=null;
    float factor;
    for(int i=0;i<this.size();i++){
        s=this.get(i);
            if(s.getFreq()>4999){
                factor = s.getFreq()/10000f;
                s.setStreamID(soundPool01.play(sig10000[s.getWaveType()],.99f,.99f,0,-1,factor));                   
            }else if(s.getFreq()>1249){
                factor = s.getFreq()/2500f;
                s.setStreamID(soundPool01.play(sig2500[s.getWaveType()],.99f,.99f,0,-1,factor));
            }else if(s.getFreq()>312){
                factor = s.getFreq()/625f;
                s.setStreamID(soundPool01.play(sig625[s.getWaveType()],.99f,.99f,0,-1,factor));
            }else if(s.getFreq()>77){
                factor = s.getFreq()/156f;
                s.setStreamID(soundPool01.play(sig157[s.getWaveType()],.99f,.99f,0,-1,factor));
            }else {
                factor = s.getFreq()/40f;
                s.setStreamID(soundPool01.play(sig40[s.getWaveType()],.99f,.99f,0,-1,factor));
            }

    }
}

Now as I see it, the method works fine except for the range 5000-20000 Hz. I'm breaking my head over this, not sure why its not working and I can't find any patterns to the problem.

Is there some fundamental problem with this method?

Thanking you in advance

Edit: "not working explained" When I play sine waves in the range 5000-20000 Hz it is very obvious that the frequency is inaccurate. This means the pitch is way off. E.g. 19000 Hz is too low and easily detectable by ear. What I can say is that 10000 Hz (as does 5000Hz- my mistake), so normal playback rate, is correct. At around 14kHz the signal pitch is no longer correct.

Thoughts/Possible Causes(?): (A) How many steps are there for the playbackspeed (SoundPool)? The documentation says 0.5-2.0 is it possible that this means there is 15 different playbackspeeds? (B) I used Audacity to generate the .ogg files. When I zoom in on the 10000Hz sine I can see it is not too smooth (sample rate 44100) and the wave does not precisely start and end at 0. Could this superposition unwanted signals?

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Could you be more specific when you say "not sure why its not working". What seems to be the problem? Do you get any messages in LogCat that might be related to the symptoms? –  Dave MacLean Nov 18 '10 at 4:03

1 Answer 1

up vote 3 down vote accepted

My first guess is physics, not programming.

There's very little chance that your test device will have a speaker that's physically capable of producing clean 19 Khz output, as that's pretty much senseless. As a result, it will produce other, unintended frequencies if you try to drive it with a 19 Khz signal sampled at 44 Khz.

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Sorry, I first thought it didn't work properly at 5000Hz either, but it actually does. So I think you are probably right. It starts to become inaccurate at around 14Khz. There are however apps on the market that seem to be capable of making signals at these frequencies so shouldn't it be technically possible? What is the best result I can get under these conditions? –  Flying Swissman Nov 19 '10 at 11:57
    
I'd really question the assumptions. Why are you trying to generate an inaudible signal using a cheap speaker designed for audible frequencies? Yes, for a single device, I could measure the frequency response, invert it, and determine the driving signal that results in the best approximation for the given speaker. But a better speaker is usually a lot cheaper. –  MSalters Nov 19 '10 at 15:37
    
But certain developers have accomplished generating signals in the higher range independent of hardware. Which leads me to believe its somehow possible. (I've sent them emails - no replies) As for why: I'm making an app which has a soul purpose of generating signals at given frequencies. –  Flying Swissman Nov 22 '10 at 20:26

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