Mercurial > hg > ltpda
view m-toolbox/test/test_specwin_nenbw_definition.m @ 1:2014ba5b353a database-connection-manager
Remove old code
author | Daniele Nicolodi <nicolodi@science.unitn.it> |
---|---|
date | Sat, 03 Dec 2011 18:13:55 +0100 |
parents | f0afece42f48 |
children |
line wrap: on
line source
% Test specwin/specwin normalized equivalent noise bandwidth definition. % % M Hueller 06-03-09 % % $Id: test_specwin_nenbw_definition.m,v 1.1 2009/03/06 09:26:28 mauro Exp $ % win_names = {'Rectangular', ... 'Welch', ... 'Bartlett', ... 'Hanning', ... 'Hamming', ... 'Nuttall3', ... 'Nuttall4', ... 'Nuttall3a', ... 'Nuttall3b', ... 'Nuttall4a', ... 'Nuttall4b', ... 'Nuttall4c', ... 'BH92', ... 'SFT3F', ... 'SFT3M', ... 'FTNI', ... 'SFT4F', ... 'SFT5F', ... 'SFT4M', ... 'FTHP', ... 'HFT70', ... 'FTSRS', ... 'SFT5M', ... 'HFT90D', ... 'HFT95', ... 'HFT116D', ... 'HFT144D', ... 'HFT169D', ... 'HFT196D', ... 'HFT223D', ... 'HFT248D'}; % Different parameters for the Kaiser window family psll = [50:50:300]; % Lenght of the window npts = 100; N = length(win_names); M = length(psll); def_dif = zeros(N+M,1); % All windows but Kaiser for jj = 1:N w = specwin(win_names{jj},npts); % Definition from the specwin constructor (included in a helper dedicated % to each window) d1 = w.nenbw; % Definition from the "theory" d2 = w.ws2/(w.ws)^2/fs*length(w.win); % Relative difference def_dif(jj) = (d1-d2)/mean([d1,d2]); disp([win_names{jj} ' ' num2str(def_dif(jj))]); end % Kaiser windows for jj = N+1:N+M w = specwin('Kaiser',psll(jj-N),npts); % Definition from the specwin constructor (included in a helper dedicated % to each window) d1 = w.nenbw; % Definition from the "theory" d2 = w.ws2/(w.ws)^2/fs*length(w.win); % Relative difference def_dif(jj) = (d1-d2)/mean([d1,d2]); disp(['Kaiser' num2str(psll(jj-N)) ' ' num2str(def_dif(jj))]); end