ETFE.hpp emulates MATLAB's tfestimate, pwelch, and cpsd functions. It calculates the experimental transfer function estimate between input x and output y txy, the power spectral densities pxx and pyy, and the cross spectral density pxy. By default, it behaves exactly as MATLAB's functions, and similarly can be provided with specified windows, overlap, and FFT sizes. The output has been tested to precisely match that of MATLAB's (see matlab\test.m).
Note: Currently, only real-valued 1D sample inputs are supported.
MATLAB
[pxx,f] = pwelch(x,[],[],[],fs);
[pxy,f] = cpsd(x,y,[],[],[],fs);
[txy,f] = tfestimate(x,y,[],[],[],fs);
mag = 20*log10(abs(txy));
phase = 180/pi*angle(txy);ETFE.hpp
ETFE etfe(nsamples,fs);
ETFE::Result& result = etfe.estimate(x,y);
result.f;
result.txy;
result.pxx;
result.pxy;
result.mag;
result.phase;etfe_cl.cpp- command line interface to compute ETFE from CSV filesfilter_toy.cpp- interactive spectrum and Bode plots for filters
- KISS FFT - other FFT packages should be easily substitutable
- mahi-gui - for filter demo only
- IIR - for filter demo only
https://www.mathworks.com/matlabcentral/answers/29641-quetsions-about-matlab-pwelch-implementation https://www.gaussianwaves.com/2015/11/interpreting-fft-results-complex-dft-frequency-bins-and-fftshift/ https://stackoverflow.com/questions/14536950/applying-kiss-fft-on-audio-samples-and-getting-nan-output http://www.iowahills.com/FFTCode.html https://community.sw.siemens.com/s/article/window-correction-factors https://www.mathworks.com/matlabcentral/answers/372516-calculate-windowing-correction-factor