The short version of my question:
How do I go from an array of audio samples (as Int16) to Complex structs used by common FFT libraries such as AForge?
The long version of my question:
I am new to audio processing and am looking to analyze audio in music (locating beats, tempo etc). After a couple of days reading up on this, the Fast Fourier Transform (FFT) algorithm seems to be a step in the right direction.
To get going and not having to implement the algorithms from scratch, I've downloaded a couple of open source libraries, Exocortex and AForge.net.
I am decoding the audio to a memory buffer. On each cycle for my 16 bit 48kHz audio stereo track, I get 48000 bytes or 24000 samples. These are currently copied into an array of short's (Int16). I now need to convert my array to Complex structs (in the case of AForge). This in turn is initialized with a "real" and an "imaginary" double value. But what exactly are these and how do I go from my array to these two double values? Also, do I need to split up the left/right channel before passing it on?
Unfortunately, I am terrible at reading math formulas as long as it is not presented as code. On nearly all sites I've visited so far, greeek symbols and complex math formulas quickly arises to help explain the algorithm. As a result, I get lost in translation right away. Believe me, I tried hard finding a "FFT algorithms for dummies". ;)
Note to moderators : This is not a duplicate of Convert Audio samples from bytes to complex numbers? even though the question is similar.