# Tag Info

4

Each Fourier coefficient computed by the discrete Fourier transform of the array x is a linear combination of the elements of x; see the formula for X_k on the wikipedia page on the discrete Fourier transform, which I'll write as X_k = sum_(n=0)^(n=N-1) [ x_n * exp(-i*2*pi*k*n/N) ] (That is, X is the discrete Fourier transform of x.) If x_n is normally ...

1

FFT doesn't flatten signal, it translates signal from time domain to frequency domain. If you signal is pure real, FT is symmetric - so you can see similar high peaks at both ends - this is very low frequency part of your signal. To filter a signal, you can execute FT, apply some function to the result of transform - for example, lower high and very low ...

1

now the problem I am having understanding is what is happening when the int is added to the cplx Actually the addition is not <int> + <cplx> but <int> + <cplx>* (in words an integer plus a pointer to a complex). So what you're dealing with here is what's called pointer arithmetic. Why a pointer you ask? Because in C array types ...

Only top voted, non community-wiki answers of a minimum length are eligible