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I have implemented a rudimentary low-pass filter using a time based value. This is ok, but trying to find the correct time slice is guess work, and gives different results based on different input audio files. Here is what I have now:

- (void)processDataWithInBuffer:(const int16_t *)buffer outBuffer:(int16_t *)outBuffer sampleCount:(int)len {   
    BOOL positive;
    for(int i = 0; i < len; i++) {
        positive = (buffer[i] >= 0);
        currentFilteredValueOfSampleAmplitude = LOWPASSFILTERTIMESLICE * (float)abs(buffer[i]) + (1.0 - LOWPASSFILTERTIMESLICE) * previousFilteredValueOfSampleAmplitude;
        previousFilteredValueOfSampleAmplitude = currentFilteredValueOfSampleAmplitude; 
        outBuffer[i] = currentFilteredValueOfSampleAmplitude * (positive ? 1 : -1);
    }
}

What can I do to convert this code into code that will allow me to cut frequencies over a certain hz by a certain db level?

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3 Answers 3

up vote 2 down vote accepted

I strongly recommend numerical recipes in c. Outside of that, I'm not sure I can help you.

When you design a filter, you need to calculate the coefficients of that filter based on the frequency so you almost need a class to handle it, not just a function.

This is in C++ but it should get you started. Sorry I can't provide a concrete answer.

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This function is the meat of the class that is doing the buffering and file work. It is all working properly, but I am wanting to convert to hz and db's rather than using a time based slice as the only var –  coneybeare Nov 12 '10 at 20:43
    
ah, ok. Checkout the code I linked to under C++ that's actually really good. It'll return a filter based on frequency. –  Stephen Furlani Nov 12 '10 at 20:45
    
just what I was looking for. awesome find –  coneybeare Nov 12 '10 at 21:52
    
@coneybeare, glad I could help. –  Stephen Furlani Nov 15 '10 at 2:12

What you have is an IIR filter, and for more control I'd suggest using a FIR filter, which is easier to calculate the coefficients for. I create a window function that is:

y = sin (x * bandwidth) / (sin (x) * windowWidth)

where windowWidth is how many samples wide your window is, x ranges from -2 * PI to 2 * PI, and bandwidth:

bandwidth = 2 * frequency * n / sampleRate;

This creates an array of numbers which you apply to a range of samples centered around the one you want to output. You iterate this over every sample.

I've summarized my own code for doing this, since the original code is rather crufty.

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windowWidth is the length of the buffer array? Or is it something smaller? I ended up going with the butterworth low pass filter linked by Stephen Furlani and it seems to work pretty well so I will try out yours if I get some extra time –  coneybeare Nov 22 '10 at 15:17
    
windowWidth is variable from 3 on up. The upper limit is based on slow you're willing the code to be. A larger window results in a steeper cutoff. Generally you won't need to go past 63. Also, odd values work best. –  lucius Nov 23 '10 at 14:53
    
great answer. I've forgotten most of my Signal Processing... and do post the crufty code. :D –  Stephen Furlani Jan 10 '11 at 19:08

I implemented a filter using the interactive filter designer.

Here's some sample code, with it integrated: https://github.com/davidcairns/MediaPlayerDemo

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