1 | %
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2 | clear;
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3 | close all;
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4 | load eof_olr_noaa_annuel_jas_1020.mat
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5 |
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6 | olr=olr';
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7 | PC1=olr*C;
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8 |
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9 |
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10 | %%%%%%% cronique de la VP1
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11 | time_serie_olr1=PC1(:,325);
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12 | time_serie_olr2=PC1(:,324);
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13 | time_serie_olr3=PC1(:,323);
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14 |
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15 | dt_olr1=std(time_serie_olr1);
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16 | dt_olr2=std(time_serie_olr2);
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17 | dt_olr3=std(time_serie_olr3);
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18 |
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19 | moy_olr1=mean(time_serie_olr1);
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20 | moy_olr2=mean(time_serie_olr2);
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21 | moy_olr3=mean(time_serie_olr3);
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22 |
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23 | orient('landscape')
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24 | subplot(2,2,1);
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25 | for a=1:28;
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26 | time_serie_olr1(a)=(time_serie_olr1(a)-moy_olr1)/dt_olr1;
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27 | time_serie_olr2(a)=(time_serie_olr2(a)-moy_olr2)/dt_olr2;
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28 | time_serie_olr3(a)=(time_serie_olr3(a)-moy_olr3)/dt_olr3;
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29 | end
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30 |
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31 | save eof1_noaa_annuel_20.txt time_serie_olr1 -ascii;
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32 | save eof2_noaa_annuel_20.txt time_serie_olr2 -ascii;
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33 | save eof3_noaa_annuel_20.txt time_serie_olr3 -ascii;
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34 |
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35 | x=[1:28]';
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36 | koro1=time_serie_olr1;
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37 | koro2=time_serie_olr2;
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38 | koro3=time_serie_olr3;
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39 |
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40 | clear x;
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41 | x=[1979:2006]';
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42 | aa=plot(x,-koro1,'r');
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43 | hold on
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44 | bb=plot(x,-koro2,'k');
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45 | cc=plot(x,-koro3,'g');
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46 | dd=legend('eof1','eof2','eof3');
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47 | legend boxoff
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48 | set (dd,'Fontsize',8);
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49 | y=zeros(28,1);
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50 | plot(x,y,'k:');
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51 | title('serie temporelle eof NOAA annuel domaine 10S-20N');
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52 | axis([1979 2006 -3 3]);
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53 | set (gca,'YTick',[-3:1:3],'YTickLabel',[-3:1:3],'fontname','Arial','fontsize',6);
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54 | set (gca,'XTick',[1980:5:2005],'XTickLabel',[1980:5:2005],'fontname','Arial','fontsize',6);
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55 | set (gca,'tickDir','out');
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56 | print -depsc2 time_serie_eof_noaa_annuel_20.eps;
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