Mercurial > hg > camir-aes2014

diff toolboxes/MIRtoolbox1.3.2/MIRToolbox/mircentroid.m @ 0:e9a9cd732c1e tip

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first hg version after svn
author wolffd
date Tue, 10 Feb 2015 15:05:51 +0000
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/toolboxes/MIRtoolbox1.3.2/MIRToolbox/mircentroid.m	Tue Feb 10 15:05:51 2015 +0000
@@ -0,0 +1,80 @@
+function varargout = mircentroid(x,varargin)
+%   c = mircentroid(x) calculates the centroid (or center of gravity) of x.
+%   x can be either:
+%       - a spectrum (spectral centroid),
+%       - an envelope (temporal centroid)
+%       - a histogram,
+%       - or any data. Only the positive ordinates of the data are taken
+%           into consideration.
+%   c = mircentroid(x,'Peaks') calculates the centroid of the peaks only.
+
+% Beauchamp 1982 version?
+
+        peaks.key = 'Peaks';
+        peaks.type = 'String';
+        peaks.choice = {0,'NoInterpol','Interpol'};
+        peaks.default = 0;
+        peaks.keydefault = 'NoInterpol';
+    option.peaks = peaks;
+    
+specif.option = option;
+
+varargout = mirfunction(@mircentroid,x,varargin,nargout,specif,@init,@main);
+
+
+function [x type] = init(x,option)
+if not(isamir(x,'mirdata')) || isamir(x,'miraudio')
+    x = mirspectrum(x);
+end
+type = 'mirscalar';
+
+
+function c = main(x,option,postoption)
+if iscell(x)
+    x = x{1};
+end
+if option.peaks
+    if strcmpi(option.peaks,'Interpol')
+        pt = get(x,'PeakPrecisePos');
+        pv = get(x,'PeakPreciseVal');
+    else
+        pt = get(x,'PeakPos');
+        pv = get(x,'PeakVal');
+    end
+    cx = cell(1,length(pt));
+    for h = 1:length(pt)
+        cx{h} = cell(1,length(pt{h}));
+        for i = 1:length(pt{h})
+            pti = pt{h}{i};
+            pvi = pv{h}{i};
+            %if isempty(pti)
+
+            nfr = size(pti,2);
+            nbd = size(pti,3);
+            ci = zeros(1,nfr,nbd);
+            for j = 1:nfr
+                for k = 1:nbd
+                    ptk = pti{1,j,k};
+                    pvk = pvi{1,j,k};
+                    sk = sum(pvk);
+                    ci(1,j,k) = sum(ptk.*pvk) ./ sk;
+                end
+            end
+            cx{h}{i} = ci;
+        end
+    end
+else
+    cx = peaksegments(@centroid,get(x,'Data'),get(x,'Pos'));
+end
+if isa(x,'mirspectrum')
+    t = 'Spectral centroid';
+elseif isa(x,'mirenvelope')
+    t = 'Temporal centroid';
+else
+    t = ['centroid of ',get(x,'Title')];
+end
+c = mirscalar(x,'Data',cx,'Title',t);
+
+
+function c = centroid(d,p)
+c = (p'*d) ./ sum(d);
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