Can someone help me understand where I'm going wrong below? I'm using mfilt.firinterp to interpolate a sinewave by a factor of 4 using a filter having a cutoff of 0.7*(fs/2). The sinewave has a frequency of 0.1Hz, and I'm sampling at 10Hz. The low-pass filter used for interpolation therefore has a cutoff of 3.5Hz, and should easily pass this signal. I must be doing something basic wrong.
If I set the cutoff to 0.25*fs/2, everything looks fine. But does this mean signals having frequency content slightly above 0.25*fs/2 (such as 0.4*fs/2), cannot be linearly interpreted (or, how would one accomplish this?).
Wait a minute, am I confusing the old fs and the new fs? If fs = fs_new = 40Hz, then I can understand what's going on. If I set the cutoff to 0.25*fs_new/2 where fs_new = 40Hz, then it makes sense this is the upper cutoff freq of 10 Hz (the original sampling rate). So, Wn in fircls1(95,Wn,0.01, 0.0001) must be <=0.25. Does that sound right?
Thanks in advance for any comments.
% create input told = (0:1:299)/10; % time index for plotting xold tnew = (0:1:1199)/40; % time index for plotting xnew xold = sin(2*pi*0.1*told + 1); % fc=0.1Hz (Pc=10 sec); samplerate = fs = 10Hz % create filter num = fircls1(95, 0.7, 0.01, 0.0001); % set filter cutoff to 0.7*(fs/2)=3.5Hz Hm = mfilt.firinterp(4,num); % apply filter xnew = 4*filter(Hm, xold); % plot results plot(told, xold, 'bo', tnew, xnew, 'r+'); title('Input (blue) and filtered input (red) versus time index');