[6] | 1 | |
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| 2 | |
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| 3 | ia1 = (llon>=-55) & (llon<=-29) & (llat<=-70) & (llat>=-76) |
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| 4 | ia2 = (llon>=-29) & (llon<=-21) & (llat<=-69) & (llat>=-73) |
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| 5 | ia3 = (llon>=-37) & (llon<=-13) & (llat<=-67) & (llat>=-69) |
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| 6 | ia4 = (llon>=-31) & (llon<=-13) & (llat<=-64) & (llat>=-67) |
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| 7 | ia6 = (llon>=-13) & (llon<=0) & (llat<=-64) & (llat>=-69) |
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| 8 | ia7 = (llon>=0) & (llon<=30) & (llat<=-64) & (llat>=-69) |
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| 9 | |
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| 10 | iaa= ia1 | ia2 | ia3 | ia4 | ia6 | ia7 |
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| 11 | iaaa=iaa*1 |
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| 12 | |
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| 13 | ###################### |
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| 14 | ia6 = (llon>=-31) & (llon<=0) & (llat<=-64) & (llat>=-69) |
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| 15 | ia7 = (llon>=0) & (llon<=30) & (llat<=-64) & (llat>=-69) |
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| 16 | |
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| 17 | ib= (llon>=-180) & (llon<=-130) & (llat<=-67) & (llat>=-73) |
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| 18 | ibb=ib*1 |
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| 19 | |
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| 20 | iab= iaa | ib |
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| 21 | |
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| 22 | ##################################### |
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| 23 | #amsub |
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| 24 | |
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| 25 | igmv_ab1=(ambch1[0,:]>=-31) & (ambch1[0,:]<=0) & (ambch1[1,:]<=-64) & (ambch1[1,:]>=-69) | (ambch1[0,:]>=0) & (ambch1[0,:]<=30) & (ambch1[1,:]<=-64) & (ambch1[1,:]>=-69) | (ambch1[0,:]>=-180) & (ambch1[0,:]<=-130) & (ambch1[1,:]<=-67) & (ambch1[1,:]>=-73) |
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| 26 | |
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| 27 | igmv_ab2=(ambch2[0,:]>=-31) & (ambch2[0,:]<=0) & (ambch2[1,:]<=-64) & (ambch2[1,:]>=-69) | (ambch2[0,:]>=0) & (ambch2[0,:]<=30) & (ambch2[1,:]<=-64) & (ambch2[1,:]>=-69) | (ambch2[0,:]>=-180) & (ambch2[0,:]<=-130) & (ambch2[1,:]<=-67) & (ambch2[1,:]>=-73) |
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| 28 | |
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| 29 | igmv_ab3=(ambch3[0,:]>=-31) & (ambch3[0,:]<=0) & (ambch3[1,:]<=-64) & (ambch3[1,:]>=-69) | (ambch3[0,:]>=0) & (ambch3[0,:]<=30) & (ambch3[1,:]<=-64) & (ambch3[1,:]>=-69) | (ambch3[0,:]>=-180) & (ambch3[0,:]<=-130) & (ambch3[1,:]<=-67) & (ambch3[1,:]>=-73) |
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| 30 | |
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| 31 | igmv_ab4=(ambch4[0,:]>=-31) & (ambch4[0,:]<=0) & (ambch4[1,:]<=-64) & (ambch4[1,:]>=-69) | (ambch4[0,:]>=0) & (ambch4[0,:]<=30) & (ambch4[1,:]<=-64) & (ambch4[1,:]>=-69) | (ambch4[0,:]>=-180) & (ambch4[0,:]<=-130) & (ambch4[1,:]<=-67) & (ambch4[1,:]>=-73) |
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| 32 | |
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| 33 | igmv_ab5=(ambch5[0,:]>=-31) & (ambch5[0,:]<=0) & (ambch5[1,:]<=-64) & (ambch5[1,:]>=-69) | (ambch5[0,:]>=0) & (ambch5[0,:]<=30) & (ambch5[1,:]<=-64) & (ambch5[1,:]>=-69) | (ambch5[0,:]>=-180) & (ambch5[0,:]<=-130) & (ambch5[1,:]<=-67) & (ambch5[1,:]>=-73) |
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| 34 | |
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| 35 | tup_gmab=np.zeros([5],float) |
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| 36 | tup_gmab[0]=mean(ambch1[18,igmv_ab1]) |
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| 37 | tup_gmab[1]=mean(ambch2[18,igmv_ab2]) |
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| 38 | tup_gmab[2]=mean(ambch3[18,igmv_ab3]) |
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| 39 | tup_gmab[3]=mean(ambch4[18,igmv_ab4]) |
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| 40 | tup_gmab[4]=mean(ambch5[18,igmv_ab5]) |
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| 41 | |
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| 42 | #amsub angles faibles |
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| 43 | |
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| 44 | igmv_ab1n1= igmv_ab1 & (ambch1[7,:]<=13) | igmv_ab1 & (ambch1[7,:]>=78) |
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| 45 | igmv_ab2n1= igmv_ab2 & (ambch2[7,:]<=13) | igmv_ab2 & (ambch2[7,:]>=78) |
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| 46 | igmv_ab3n1= igmv_ab3 & (ambch3[7,:]<=13) | igmv_ab3 & (ambch3[7,:]>=78) |
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| 47 | igmv_ab4n1= igmv_ab4 & (ambch4[7,:]<=13) | igmv_ab4 & (ambch4[7,:]>=78) |
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| 48 | igmv_ab5n1= igmv_ab5 & (ambch5[7,:]<=13) | igmv_ab5 & (ambch5[7,:]>=78) |
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| 49 | |
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| 50 | |
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| 51 | tup_gmabn1=np.zeros([5],float) |
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| 52 | tup_gmabn1[0]=mean(ambch1[18,igmv_ab1n1]) |
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| 53 | tup_gmabn1[1]=mean(ambch2[18,igmv_ab2n1]) |
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| 54 | tup_gmabn1[2]=mean(ambch3[18,igmv_ab3n1]) |
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| 55 | tup_gmabn1[3]=mean(ambch4[18,igmv_ab4n1]) |
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| 56 | tup_gmabn1[4]=mean(ambch5[18,igmv_ab5n1]) |
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| 57 | |
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| 58 | #ecart types |
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| 59 | tupet_gmabn1=np.zeros([5],float) |
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| 60 | tupet_gmabn1[0]=sqrt(sum(ambch1[18,igmv_ab1n1]**2)/size(ambch1[18,igmv_ab1n1])-mean(ambch1[18,igmv_ab1n1])**2) |
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| 61 | tupet_gmabn1[1]=sqrt(sum(ambch2[18,igmv_ab2n1]**2)/size(ambch2[18,igmv_ab2n1])-mean(ambch2[18,igmv_ab2n1])**2) |
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| 62 | tupet_gmabn1[2]=sqrt(sum(ambch3[18,igmv_ab3n1]**2)/size(ambch3[18,igmv_ab3n1])-mean(ambch3[18,igmv_ab3n1])**2) |
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| 63 | tupet_gmabn1[3]=sqrt(sum(ambch4[18,igmv_ab4n1]**2)/size(ambch4[18,igmv_ab4n1])-mean(ambch4[18,igmv_ab4n1])**2) |
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| 64 | tupet_gmabn1[4]=sqrt(sum(ambch5[18,igmv_ab5n1]**2)/size(ambch5[18,igmv_ab5n1])-mean(ambch5[18,igmv_ab5n1])**2) |
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| 65 | |
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| 66 | #Àmsua |
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| 67 | |
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| 68 | igmv_aa1=(amch1[0,:]>=-31) & (amch1[0,:]<=0) & (amch1[1,:]<=-64) & (amch1[1,:]>=-69) | (amch1[0,:]>=0) & (amch1[0,:]<=30) & (amch1[1,:]<=-64) & (amch1[1,:]>=-69) | (amch1[0,:]>=-180) & (amch1[0,:]<=-130) & (amch1[1,:]<=-67) & (amch1[1,:]>=-73) |
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| 69 | |
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| 70 | igmv_aa2=(amch2[0,:]>=-31) & (amch2[0,:]<=0) & (amch2[1,:]<=-64) & (amch2[1,:]>=-69) | (amch2[0,:]>=0) & (amch2[0,:]<=30) & (amch2[1,:]<=-64) & (amch2[1,:]>=-69) | (amch2[0,:]>=-180) & (amch2[0,:]<=-130) & (amch2[1,:]<=-67) & (amch2[1,:]>=-73) |
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| 71 | |
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| 72 | igmv_aa3=(amch3[0,:]>=-31) & (amch3[0,:]<=0) & (amch3[1,:]<=-64) & (amch3[1,:]>=-69) | (amch3[0,:]>=0) & (amch3[0,:]<=30) & (amch3[1,:]<=-64) & (amch3[1,:]>=-69) | (amch3[0,:]>=-180) & (amch3[0,:]<=-130) & (amch3[1,:]<=-67) & (amch3[1,:]>=-73) |
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| 73 | |
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| 74 | igmv_aa4=(amch4[0,:]>=-31) & (amch4[0,:]<=0) & (amch4[1,:]<=-64) & (amch4[1,:]>=-69) | (amch4[0,:]>=0) & (amch4[0,:]<=30) & (amch4[1,:]<=-64) & (amch4[1,:]>=-69) | (amch4[0,:]>=-180) & (amch4[0,:]<=-130) & (amch4[1,:]<=-67) & (amch4[1,:]>=-73) |
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| 75 | |
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| 76 | igmv_aa5=(amch5[0,:]>=-31) & (amch5[0,:]<=0) & (amch5[1,:]<=-64) & (amch5[1,:]>=-69) | (amch5[0,:]>=0) & (amch5[0,:]<=30) & (amch5[1,:]<=-64) & (amch5[1,:]>=-69) | (amch5[0,:]>=-180) & (amch5[0,:]<=-130) & (amch5[1,:]<=-67) & (amch5[1,:]>=-73) |
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| 77 | |
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| 78 | igmv_aa6=(amch6[0,:]>=-31) & (amch6[0,:]<=0) & (amch6[1,:]<=-64) & (amch6[1,:]>=-69) | (amch6[0,:]>=0) & (amch6[0,:]<=30) & (amch6[1,:]<=-64) & (amch6[1,:]>=-69) | (amch6[0,:]>=-180) & (amch6[0,:]<=-130) & (amch6[1,:]<=-67) & (amch6[1,:]>=-73) |
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| 79 | |
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| 80 | igmv_aa7=(amch7[0,:]>=-31) & (amch7[0,:]<=0) & (amch7[1,:]<=-64) & (amch7[1,:]>=-69) | (amch7[0,:]>=0) & (amch7[0,:]<=30) & (amch7[1,:]<=-64) & (amch7[1,:]>=-69) | (amch7[0,:]>=-180) & (amch7[0,:]<=-130) & (amch7[1,:]<=-67) & (amch7[1,:]>=-73) |
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| 81 | |
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| 82 | igmv_aa15=(amch15[0,:]>=-31) & (amch15[0,:]<=0) & (amch15[1,:]<=-64) & (amch15[1,:]>=-69) | (amch15[0,:]>=0) & (amch15[0,:]<=30) & (amch15[1,:]<=-64) & (amch15[1,:]>=-69) | (amch15[0,:]>=-180) & (amch15[0,:]<=-130) & (amch15[1,:]<=-67) & (amch15[1,:]>=-73) |
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| 83 | |
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| 84 | tup_gmaa=np.zeros([8],float) |
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| 85 | tup_gmaa[0]=mean(amch1[18,igmv_aa1]) |
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| 86 | tup_gmaa[1]=mean(amch2[18,igmv_aa2]) |
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| 87 | tup_gmaa[2]=mean(amch3[18,igmv_aa3]) |
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| 88 | tup_gmaa[3]=mean(amch4[18,igmv_aa4]) |
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| 89 | tup_gmaa[4]=mean(amch5[18,igmv_aa5]) |
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| 90 | tup_gmaa[5]=mean(amch6[18,igmv_aa6]) |
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| 91 | tup_gmaa[6]=mean(amch7[18,igmv_aa7]) |
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| 92 | tup_gmaa[7]=mean(amch15[18,igmv_aa15]) |
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| 93 | |
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| 94 | #mansua angles faibles |
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| 95 | igmv_aa1n1 = igmv_aa1 & (amch1[7,:]<=5) | igmv_aa1 & (amch1[7,:]>=26) |
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| 96 | igmv_aa2n1 = igmv_aa2 & (amch2[7,:]<=5) | igmv_aa2 & (amch2[7,:]>=26) |
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| 97 | igmv_aa3n1 = igmv_aa3 & (amch3[7,:]<=5) | igmv_aa3 & (amch3[7,:]>=26) |
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| 98 | igmv_aa4n1 = igmv_aa4 & (amch4[7,:]<=5) | igmv_aa4 & (amch4[7,:]>=26) |
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| 99 | igmv_aa5n1 = igmv_aa5 & (amch5[7,:]<=5) | igmv_aa5 & (amch5[7,:]>=26) |
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| 100 | igmv_aa6n1 = igmv_aa6 & (amch6[7,:]<=5) | igmv_aa6 & (amch6[7,:]>=26) |
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| 101 | igmv_aa7n1 = igmv_aa7 & (amch7[7,:]<=5) | igmv_aa7 & (amch7[7,:]>=26) |
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| 102 | igmv_aa15n1 = igmv_aa15 & (amch15[7,:]<=5) | igmv_aa15 & (amch15[7,:]>=26) |
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| 103 | |
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| 104 | tup_gmaan1=np.zeros([8],float) |
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| 105 | tup_gmaan1[0]=mean(amch1[18,igmv_aa1n1]) |
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| 106 | tup_gmaan1[1]=mean(amch2[18,igmv_aa2n1]) |
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| 107 | tup_gmaan1[2]=mean(amch3[18,igmv_aa3n1]) |
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| 108 | tup_gmaan1[3]=mean(amch4[18,igmv_aa4n1]) |
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| 109 | tup_gmaan1[4]=mean(amch5[18,igmv_aa5n1]) |
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| 110 | tup_gmaan1[5]=mean(amch6[18,igmv_aa6n1]) |
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| 111 | tup_gmaan1[6]=mean(amch7[18,igmv_aa7n1]) |
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| 112 | tup_gmaan1[7]=mean(amch15[18,igmv_aa15n1]) |
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| 113 | |
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| 114 | |
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| 115 | #ecart types |
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| 116 | tupet_gmaan1=np.zeros([8],float) |
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| 117 | tupet_gmaan1[0]=sqrt(sum(amch1[18,igmv_aa1n1]**2)/size(amch1[18,igmv_aa1n1])-mean(amch1[18,igmv_aa1n1])**2) |
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| 118 | tupet_gmaan1[1]=sqrt(sum(amch2[18,igmv_aa2n1]**2)/size(amch2[18,igmv_aa2n1])-mean(amch2[18,igmv_aa2n1])**2) |
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| 119 | tupet_gmaan1[2]=sqrt(sum(amch3[18,igmv_aa3n1]**2)/size(amch3[18,igmv_aa3n1])-mean(amch3[18,igmv_aa3n1])**2) |
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| 120 | tupet_gmaan1[3]=sqrt(sum(amch4[18,igmv_aa4n1]**2)/size(amch4[18,igmv_aa4n1])-mean(amch4[18,igmv_aa4n1])**2) |
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| 121 | tupet_gmaan1[4]=sqrt(sum(amch5[18,igmv_aa5n1]**2)/size(amch5[18,igmv_aa5n1])-mean(amch5[18,igmv_aa5n1])**2) |
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| 122 | tupet_gmaan1[5]=sqrt(sum(amch6[18,igmv_aa6n1]**2)/size(amch6[18,igmv_aa6n1])-mean(amch6[18,igmv_aa6n1])**2) |
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| 123 | tupet_gmaan1[6]=sqrt(sum(amch7[18,igmv_aa7n1]**2)/size(amch7[18,igmv_aa7n1])-mean(amch7[18,igmv_aa7n1])**2) |
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| 124 | tupet_gmaan1[7]=sqrt(sum(amch15[18,igmv_aa15n1]**2)/size(amch15[18,igmv_aa15n1])-mean(amch15[18,igmv_aa15n1])**2) |
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| 125 | |
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| 126 | #ssmis |
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| 127 | igmv_ss1=(ssch1[0,:]>=-31) & (ssch1[0,:]<=0) & (ssch1[1,:]<=-64) & (ssch1[1,:]>=-69) | (ssch1[0,:]>=0) & (ssch1[0,:]<=30) & (ssch1[1,:]<=-64) & (ssch1[1,:]>=-69) | (ssch1[0,:]>=-180) & (ssch1[0,:]<=-130) & (ssch1[1,:]<=-67) & (ssch1[1,:]>=-73) |
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| 128 | |
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| 129 | igmv_ss2=(ssch2[0,:]>=-31) & (ssch2[0,:]<=0) & (ssch2[1,:]<=-64) & (ssch2[1,:]>=-69) | (ssch2[0,:]>=0) & (ssch2[0,:]<=30) & (ssch2[1,:]<=-64) & (ssch2[1,:]>=-69) | (ssch2[0,:]>=-180) & (ssch2[0,:]<=-130) & (ssch2[1,:]<=-67) & (ssch2[1,:]>=-73) |
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| 130 | |
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| 131 | igmv_ss3=(ssch3[0,:]>=-31) & (ssch3[0,:]<=0) & (ssch3[1,:]<=-64) & (ssch3[1,:]>=-69) | (ssch3[0,:]>=0) & (ssch3[0,:]<=30) & (ssch3[1,:]<=-64) & (ssch3[1,:]>=-69) | (ssch3[0,:]>=-180) & (ssch3[0,:]<=-130) & (ssch3[1,:]<=-67) & (ssch3[1,:]>=-73) |
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| 132 | |
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| 133 | igmv_ss4=(ssch4[0,:]>=-31) & (ssch4[0,:]<=0) & (ssch4[1,:]<=-64) & (ssch4[1,:]>=-69) | (ssch4[0,:]>=0) & (ssch4[0,:]<=30) & (ssch4[1,:]<=-64) & (ssch4[1,:]>=-69) | (ssch4[0,:]>=-180) & (ssch4[0,:]<=-130) & (ssch4[1,:]<=-67) & (ssch4[1,:]>=-73) |
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| 134 | |
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| 135 | igmv_ss5=(ssch5[0,:]>=-31) & (ssch5[0,:]<=0) & (ssch5[1,:]<=-64) & (ssch5[1,:]>=-69) | (ssch5[0,:]>=0) & (ssch5[0,:]<=30) & (ssch5[1,:]<=-64) & (ssch5[1,:]>=-69) | (ssch5[0,:]>=-180) & (ssch5[0,:]<=-130) & (ssch5[1,:]<=-67) & (ssch5[1,:]>=-73) |
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| 136 | |
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| 137 | igmv_ss8=(ssch8[0,:]>=-31) & (ssch8[0,:]<=0) & (ssch8[1,:]<=-64) & (ssch8[1,:]>=-69) | (ssch8[0,:]>=0) & (ssch8[0,:]<=30) & (ssch8[1,:]<=-64) & (ssch8[1,:]>=-69) | (ssch8[0,:]>=-180) & (ssch8[0,:]<=-130) & (ssch8[1,:]<=-67) & (ssch8[1,:]>=-73) |
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| 138 | |
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| 139 | igmv_ss9=(ssch9[0,:]>=-31) & (ssch9[0,:]<=0) & (ssch9[1,:]<=-64) & (ssch9[1,:]>=-69) | (ssch9[0,:]>=0) & (ssch9[0,:]<=30) & (ssch9[1,:]<=-64) & (ssch9[1,:]>=-69) | (ssch9[0,:]>=-180) & (ssch9[0,:]<=-130) & (ssch9[1,:]<=-67) & (ssch9[1,:]>=-73) |
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| 140 | |
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| 141 | igmv_ss10=(ssch10[0,:]>=-31) & (ssch10[0,:]<=0) & (ssch10[1,:]<=-64) & (ssch10[1,:]>=-69) | (ssch10[0,:]>=0) & (ssch10[0,:]<=30) & (ssch10[1,:]<=-64) & (ssch10[1,:]>=-69) | (ssch10[0,:]>=-180) & (ssch10[0,:]<=-130) & (ssch10[1,:]<=-67) & (ssch10[1,:]>=-73) |
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| 142 | |
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| 143 | igmv_ss11=(ssch11[0,:]>=-31) & (ssch11[0,:]<=0) & (ssch11[1,:]<=-64) & (ssch11[1,:]>=-69) | (ssch11[0,:]>=0) & (ssch11[0,:]<=30) & (ssch11[1,:]<=-64) & (ssch11[1,:]>=-69) | (ssch11[0,:]>=-180) & (ssch11[0,:]<=-130) & (ssch11[1,:]<=-67) & (ssch11[1,:]>=-73) |
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| 144 | |
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| 145 | igmv_ss12=(ssch12[0,:]>=-31) & (ssch12[0,:]<=0) & (ssch12[1,:]<=-64) & (ssch12[1,:]>=-69) | (ssch12[0,:]>=0) & (ssch12[0,:]<=30) & (ssch12[1,:]<=-64) & (ssch12[1,:]>=-69) | (ssch12[0,:]>=-180) & (ssch12[0,:]<=-130) & (ssch12[1,:]<=-67) & (ssch12[1,:]>=-73) |
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| 146 | |
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| 147 | igmv_ss13=(ssch13[0,:]>=-31) & (ssch13[0,:]<=0) & (ssch13[1,:]<=-64) & (ssch13[1,:]>=-69) | (ssch13[0,:]>=0) & (ssch13[0,:]<=30) & (ssch13[1,:]<=-64) & (ssch13[1,:]>=-69) | (ssch13[0,:]>=-180) & (ssch13[0,:]<=-130) & (ssch13[1,:]<=-67) & (ssch13[1,:]>=-73) |
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| 148 | |
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| 149 | igmv_ss14=(ssch14[0,:]>=-31) & (ssch14[0,:]<=0) & (ssch14[1,:]<=-64) & (ssch14[1,:]>=-69) | (ssch14[0,:]>=0) & (ssch14[0,:]<=30) & (ssch14[1,:]<=-64) & (ssch14[1,:]>=-69) | (ssch14[0,:]>=-180) & (ssch14[0,:]<=-130) & (ssch14[1,:]<=-67) & (ssch14[1,:]>=-73) |
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| 150 | |
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| 151 | igmv_ss15=(ssch15[0,:]>=-31) & (ssch15[0,:]<=0) & (ssch15[1,:]<=-64) & (ssch15[1,:]>=-69) | (ssch15[0,:]>=0) & (ssch15[0,:]<=30) & (ssch15[1,:]<=-64) & (ssch15[1,:]>=-69) | (ssch15[0,:]>=-180) & (ssch15[0,:]<=-130) & (ssch15[1,:]<=-67) & (ssch15[1,:]>=-73) |
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| 152 | |
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| 153 | igmv_ss16=(ssch16[0,:]>=-31) & (ssch16[0,:]<=0) & (ssch16[1,:]<=-64) & (ssch16[1,:]>=-69) | (ssch16[0,:]>=0) & (ssch16[0,:]<=30) & (ssch16[1,:]<=-64) & (ssch16[1,:]>=-69) | (ssch16[0,:]>=-180) & (ssch16[0,:]<=-130) & (ssch16[1,:]<=-67) & (ssch16[1,:]>=-73) |
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| 154 | |
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| 155 | igmv_ss17=(ssch17[0,:]>=-31) & (ssch17[0,:]<=0) & (ssch17[1,:]<=-64) & (ssch17[1,:]>=-69) | (ssch17[0,:]>=0) & (ssch17[0,:]<=30) & (ssch17[1,:]<=-64) & (ssch17[1,:]>=-69) | (ssch17[0,:]>=-180) & (ssch17[0,:]<=-130) & (ssch17[1,:]<=-67) & (ssch17[1,:]>=-73) |
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| 156 | |
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| 157 | igmv_ss18=(ssch18[0,:]>=-31) & (ssch18[0,:]<=0) & (ssch18[1,:]<=-64) & (ssch18[1,:]>=-69) | (ssch18[0,:]>=0) & (ssch18[0,:]<=30) & (ssch18[1,:]<=-64) & (ssch18[1,:]>=-69) | (ssch18[0,:]>=-180) & (ssch18[0,:]<=-130) & (ssch18[1,:]<=-67) & (ssch18[1,:]>=-73) |
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| 158 | |
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| 159 | tup_gmss=np.zeros([16],float) |
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| 160 | tup_gmss[0]=mean(ssch1[16,igmv_ss1]) |
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| 161 | tup_gmss[1]=mean(ssch2[16,igmv_ss2]) |
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| 162 | tup_gmss[2]=mean(ssch3[16,igmv_ss3]) |
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| 163 | tup_gmss[3]=mean(ssch4[16,igmv_ss4]) |
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| 164 | tup_gmss[4]=mean(ssch5[16,igmv_ss5]) |
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| 165 | tup_gmss[5]=mean(ssch8[16,igmv_ss8]) |
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| 166 | tup_gmss[6]=mean(ssch9[16,igmv_ss9]) |
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| 167 | tup_gmss[7]=mean(ssch10[16,igmv_ss10]) |
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| 168 | tup_gmss[8]=mean(ssch11[16,igmv_ss11]) |
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| 169 | tup_gmss[9]=mean(ssch12[16,igmv_ss12]) |
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| 170 | tup_gmss[10]=mean(ssch13[16,igmv_ss13]) |
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| 171 | tup_gmss[11]=mean(ssch14[16,igmv_ss14]) |
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| 172 | tup_gmss[12]=mean(ssch15[16,igmv_ss15]) |
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| 173 | tup_gmss[13]=mean(ssch16[16,igmv_ss16]) |
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| 174 | tup_gmss[14]=mean(ssch17[16,igmv_ss17]) |
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| 175 | tup_gmss[15]=mean(ssch18[16,igmv_ss18]) |
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| 176 | |
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| 177 | |
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| 178 | #ecart types |
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| 179 | tupet_gmss=np.zeros([16],float) |
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| 180 | tupet_gmss[0]=sqrt(sum(ssch1[16,igmv_ss1]**2)/size(ssch1[16,igmv_ss1])-mean(ssch1[16,igmv_ss1])**2) |
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| 181 | tupet_gmss[1]=sqrt(sum(ssch2[16,igmv_ss2]**2)/size(ssch2[16,igmv_ss2])-mean(ssch2[16,igmv_ss2])**2) |
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| 182 | tupet_gmss[2]=sqrt(sum(ssch3[16,igmv_ss3]**2)/size(ssch3[16,igmv_ss3])-mean(ssch3[16,igmv_ss3])**2) |
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| 183 | tupet_gmss[3]=sqrt(sum(ssch4[16,igmv_ss4]**2)/size(ssch4[16,igmv_ss4])-mean(ssch4[16,igmv_ss4])**2) |
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| 184 | tupet_gmss[4]=sqrt(sum(ssch5[16,igmv_ss5]**2)/size(ssch5[16,igmv_ss5])-mean(ssch5[16,igmv_ss5])**2) |
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| 185 | tupet_gmss[5]=sqrt(sum(ssch8[16,igmv_ss8]**2)/size(ssch8[16,igmv_ss8])-mean(ssch8[16,igmv_ss8])**2) |
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| 186 | tupet_gmss[6]=sqrt(sum(ssch9[16,igmv_ss9]**2)/size(ssch9[16,igmv_ss9])-mean(ssch9[16,igmv_ss9])**2) |
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| 187 | tupet_gmss[7]=sqrt(sum(ssch10[16,igmv_ss10]**2)/size(ssch10[16,igmv_ss10])-mean(ssch10[16,igmv_ss10])**2) |
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| 188 | tupet_gmss[8]=sqrt(sum(ssch11[16,igmv_ss11]**2)/size(ssch11[16,igmv_ss11])-mean(ssch11[16,igmv_ss11])**2) |
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| 189 | tupet_gmss[9]=sqrt(sum(ssch12[16,igmv_ss12]**2)/size(ssch12[16,igmv_ss12])-mean(ssch12[16,igmv_ss12])**2) |
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| 190 | tupet_gmss[10]=sqrt(sum(ssch13[16,igmv_ss13]**2)/size(ssch13[16,igmv_ss13])-mean(ssch13[16,igmv_ss13])**2) |
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| 191 | tupet_gmss[11]=sqrt(sum(ssch14[16,igmv_ss14]**2)/size(ssch14[16,igmv_ss14])-mean(ssch14[16,igmv_ss14])**2) |
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| 192 | tupet_gmss[12]=sqrt(sum(ssch15[16,igmv_ss15]**2)/size(ssch15[16,igmv_ss15])-mean(ssch15[16,igmv_ss15])**2) |
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| 193 | tupet_gmss[13]=sqrt(sum(ssch16[16,igmv_ss16]**2)/size(ssch16[16,igmv_ss16])-mean(ssch16[16,igmv_ss16])**2) |
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| 194 | tupet_gmss[14]=sqrt(sum(ssch17[16,igmv_ss17]**2)/size(ssch17[16,igmv_ss17])-mean(ssch17[16,igmv_ss17])**2) |
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| 195 | tupet_gmss[15]=sqrt(sum(ssch18[16,igmv_ss18]**2)/size(ssch18[16,igmv_ss18])-mean(ssch18[16,igmv_ss18])**2) |
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| 196 | |
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| 197 | |
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| 198 | |
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| 199 | |
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| 200 | |
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| 201 | |
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| 202 | for i in range(0,16): |
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| 203 | ti=str(ssmisch[i]) |
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| 204 | t='tupet_gmss['+str(i)+']=sqrt(sum(ssch'+ti+'[16,igmv_ss'+ti+']**2)/size(ssch'+ti+'[16,igmv_ss'+ti+'])-mean(ssch'+ti+'[16,igmv_ss'+ti+'])**2)' |
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| 205 | print t |
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| 206 | |
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| 207 | |
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| 208 | |
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| 209 | |
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| 210 | |
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| 211 | |
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| 212 | |
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| 213 | |
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| 214 | |
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| 215 | |
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| 216 | |
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| 217 | |
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| 218 | |
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| 219 | |
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| 220 | |
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| 221 | |
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| 222 | |
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| 223 | |
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| 224 | |
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| 225 | |
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| 226 | |
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| 227 | # on recupere les coordonnes xy de la projection orth standard |
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| 228 | m1 = Basemap(projection='ortho', lat_0 = -90, lon_0 = 0, |
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| 229 | resolution = 'l') |
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| 230 | |
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| 231 | xii, yii = m1(*np.meshgrid(xvec,yvec)) |
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| 232 | width = m1.urcrnrx - m1.llcrnrx |
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| 233 | height = m1.urcrnry - m1.llcrnry |
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| 234 | |
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| 235 | coef = 0.6 |
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| 236 | width = width*coef |
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| 237 | height = height*coef |
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| 238 | |
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| 239 | # on fait une nouvelle projection en zoomant sur l'antarctique |
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| 240 | |
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| 241 | map = Basemap(projection='ortho',lon_0=0,lat_0=-90,resolution='l',\ |
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| 242 | |
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| 243 | llcrnrx=-0.5*width,llcrnry=-0.5*height,urcrnrx=0.5*width,urcrnry=0.5*height) |
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| 244 | xii, yii = map(*np.meshgrid(xvec,yvec)) |
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[9] | 245 | #, clevs, cmap=my_cmap) |
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[6] | 246 | cs=map.pcolor(xii,yii,iaaa) |
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| 247 | #cmap=cm.s3pcpn_l_r) |
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| 248 | #sstanom) |
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| 249 | #s3pcpn_l_r) |
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| 250 | cbar =colorbar(cs) |
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| 251 | plt.title('plateformes) |
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| 252 | |
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| 253 | # draw coastlines, country boundaries, fill continents. |
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| 254 | map.drawcoastlines(linewidth=1) |
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| 255 | # draw the edge of the map projection region (the projection limb) |
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| 256 | map.drawmapboundary() |
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| 257 | # draw lat/lon grid lines every 30 degrees. |
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| 258 | map.drawmeridians(np.arange(0, 360, 1), labels=[0, 0, 0, 1]) |
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| 259 | map.drawparallels(np.arange(-90, 90, 11), labels=[1, 0, 0, 0]) |
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| 260 | plt.show() |
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| 261 | |
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| 262 | |
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| 263 | |
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| 264 | |
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| 265 | |
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| 266 | #################" |
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| 267 | |
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| 268 | # on recupere les coordonnes xy de la projection orth standard |
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| 269 | m1 = Basemap(projection='ortho', lat_0 = -90, lon_0 = 0, |
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| 270 | resolution = 'l') |
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| 271 | |
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| 272 | xii, yii = m1(*np.meshgrid(xvec,yvec)) |
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| 273 | width = m1.urcrnrx - m1.llcrnrx |
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| 274 | height = m1.urcrnry - m1.llcrnry |
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| 275 | |
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| 276 | coef = 0.5 |
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| 277 | width = width*coef |
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| 278 | height = height*coef |
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| 279 | |
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| 280 | # on fait une nouvelle projection en zoomant sur l'antarctique |
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| 281 | |
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| 282 | map = Basemap(projection='ortho',lon_0=0,lat_0=-90,resolution='l',\ |
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| 283 | |
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| 284 | llcrnrx=-0.5*width,llcrnry=-0.5*height,urcrnrx=0.5*width,urcrnry=0.5*height) |
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| 285 | xii, yii = map(*np.meshgrid(xvec,yvec)) |
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[9] | 286 | #, clevs, cmap=my_cmap) |
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[6] | 287 | clevs=arange(100,300,1)#star, stop, step |
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| 288 | map.pcolor(xii,yii,iab) |
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| 289 | cs=map.contour(xii,yii,tbpgrid_ta2, clevs, cmap=cm.s3pcpn_l_r) |
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| 290 | #cmap=cm.s3pcpn_l_r) |
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| 291 | #sstanom) |
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| 292 | #s3pcpn_l_r) |
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| 293 | cbar =colorbar(cs) |
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| 294 | #plt.title(tt1) |
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| 295 | # draw coastlines, country boundaries, fill continents. |
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| 296 | map.drawcoastlines(linewidth=1) |
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| 297 | # draw the edge of the map projection region (the projection limb) |
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| 298 | map.drawmapboundary() |
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| 299 | # draw lat/lon grid lines every 30 degrees. |
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| 300 | map.drawmeridians(np.arange(0, 360, 1), labels=[0, 0, 0, 1]) |
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| 301 | map.drawparallels(np.arange(-90, 90, 1), labels=[1, 0, 0, 0]) |
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| 302 | plt.show() |
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| 303 | plt.savefig(t1) |
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| 304 | close() |
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