Minimalization problem LinearConstraint and conjugate gradient optimizer

조회 수: 2 (최근 30일)
Tomi
Tomi 2022년 9월 25일
댓글: Tomi 2022년 9월 30일
Problem, input data and equations are described in details in attachment. This matrix is called Ms in the below mentioned equation.
The equation is the function F(ω). Omega (ω) are the seven wages which I’m looking for by minimize values of the second equation. The condition is that ω1 + ω2 + ω3 + ω4 + ω5 + ω6 + ω7 = 1.
When using Scipy.stats, the LinearConstraint and Conjugate gradient optimizer were used.
The obtained results were: 0.20141944, 0.1590185 , 0.13852083, 0.08702209, 0.13283426, 0.14539815, 0.14247747. Sum of these wages equals 1.
I very appreciate if someone help me out to write code or use Optimization tool to obtain these results.The input matrix Ms is in attached file.
Best Regards,
Tomi
  댓글 수: 2
Torsten
Torsten 2022년 9월 25일
What are you trying to minimize ? What are your constraints ? I don't get it from your decription.
Tomi
Tomi 2022년 9월 26일
이동: Bruno Luong 2022년 9월 26일
I'm sorry for confusion.
Please see the python code used with Scipy - this code produce the results which I want to write in MatLab script and receive the same results. The second equation is used to minimalize omega wages.
I attached python code.
Best,
Tomi

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Torsten
Torsten 2022년 9월 26일
편집: Torsten 2022년 9월 26일
Ran in:
According to the Python code, F is maximized, not minimized. Change in the below code if appropriate.
M = [0.170543 0.327434 0.174194 0 0.421053 0.307167 0.297659
0.155039 0.504425 0.664516 0.530612 0.102493 0.05802 0.053512
0.255814 0.318584 0.212903 0 0.445983 0.337884 0.311037
0.224806 0.548673 0.664516 0.591837 0.141274 0.068259 0.053512
0.383721 0.389381 0.303226 0 0.573407 0.433447 0.41806
0.360465 0.716814 0.883871 0.755102 0.227147 0.078498 0.073579
0.449612 0.566372 0.36129 0 0.775623 0.573379 0.498328
0.484496 0.920354 0.948387 1 0.265928 0.109215 0.107023
0.375969 0.539823 0.303226 0 0.648199 0.481229 0.438127
0.399225 0.769912 0.716129 0.857143 0.224377 0.102389 0.100334
0.356589 0.39823 0.264516 0 0.717452 0.498294 0.444816
0.391473 0.761062 0.703226 0.795918 0.218837 0.098976 0.09699
0.290698 0.327434 0.251613 0 0.770083 0.518771 0.464883
0.395349 0.761062 0.767742 0.795918 0.207756 0.085324 0.09699
0.352713 0.380531 0.277419 0 0.797784 0.501706 0.501672
0.426357 0.778761 0.870968 0.877551 0.265928 0.112628 0.100334
0.403101 0.336283 0.309677 0 0.761773 0.467577 0.491639
0.468992 0.743363 0.877419 0.897959 0.224377 0.119454 0.090301
0.387597 0.345133 0.341935 0 0.775623 0.518771 0.551839
0.496124 0.787611 0.877419 0.857143 0.263158 0.122867 0.113712
0.333333 0.380531 0.341935 0 0.759003 0.566553 0.585284
0.624031 0.80531 0.780645 0.795918 0.293629 0.12628 0.130435
0.534884 0.40708 0.419355 0 0.894737 0.641638 0.628763
0.786822 0.938053 1 0.632653 0.379501 0.197952 0.120401
0.453488 0.380531 0.419355 0 0.842105 0.607509 0.628763
0.554264 0.876106 0.741935 0.877551 0.254848 0.334471 0.130435
0.639535 0.646018 0.593548 0 1 0.8157 0.73913
0.689922 1 0.735484 0.693878 0.351801 0.337884 0.137124
1 0.867257 0.354839 0 0.617729 1 1
0.546512 0.876106 0.703226 0.877551 0.254848 0.334471 0.130435];
w0 = [1/7;1/7;1/7;1/7;1/7;1/7;1/7];
Aeq = ones(1,7);
beq = 1.0;
lb = zeros(7,1);
ub = ones(7,1);
options = optimset('TolFun',1e-10,'TolX',1e-10);
format long
[w,fval] = fmincon(@(w)fun(w,M),w0,[],[],Aeq,beq,lb,ub,[],options)
Local minimum possible. Constraints satisfied. fmincon stopped because the size of the current step is less than the value of the step size tolerance and constraints are satisfied to within the value of the constraint tolerance.
w = 7×1
0.200081504852845 0.157959395465906 0.137599668689948 0.086444832698773 0.131950619523270 0.144443169868022 0.141520808901237
fval =
-3.039398091210332
function value = fun(w,M)
cM = zeros(7,1);
Mw = M*w;
Mwm = mean(Mw);
Mim = mean(M,1);
for i = 1:7
Mi = M(:,i);
cM(i) = sum((Mi-Mim(i)).*(Mw-Mwm))/sqrt(sum((Mi-Mim(i)).^2)*sum((Mw-Mwm).^2));
end
value = -sum(cM);
end
  댓글 수: 2
Torsten
Torsten 2022년 9월 28일
편집: Torsten 2022년 9월 28일
@Tomi comment moved here:
Dear Torsten,
I'm trying to understand code - need some help.
I very appreciate if you could tell me how the cM(i) equation was created?
Best,
Tomi

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추가 답변 (2개)

Tomi
Tomi 2022년 9월 28일
Thank you for your time and help.
I very aprpeciate that.
Best,
Tomi
Tomi
Tomi 2022년 9월 28일
Dear Torsten,
I'm trying to understand code - need some help.
I very appreciate if you could tell me how the cM(i) equation was created?
Best,
Tomi
  댓글 수: 5
이전 댓글 3개 표시
Torsten
Torsten 2022년 9월 29일
편집: Torsten 2022년 9월 29일
Ran in:
M = [0.170543 0.327434 0.174194 0 0.421053 0.307167 0.297659
0.155039 0.504425 0.664516 0.530612 0.102493 0.05802 0.053512
0.255814 0.318584 0.212903 0 0.445983 0.337884 0.311037
0.224806 0.548673 0.664516 0.591837 0.141274 0.068259 0.053512
0.383721 0.389381 0.303226 0 0.573407 0.433447 0.41806
0.360465 0.716814 0.883871 0.755102 0.227147 0.078498 0.073579
0.449612 0.566372 0.36129 0 0.775623 0.573379 0.498328
0.484496 0.920354 0.948387 1 0.265928 0.109215 0.107023
0.375969 0.539823 0.303226 0 0.648199 0.481229 0.438127
0.399225 0.769912 0.716129 0.857143 0.224377 0.102389 0.100334
0.356589 0.39823 0.264516 0 0.717452 0.498294 0.444816
0.391473 0.761062 0.703226 0.795918 0.218837 0.098976 0.09699
0.290698 0.327434 0.251613 0 0.770083 0.518771 0.464883
0.395349 0.761062 0.767742 0.795918 0.207756 0.085324 0.09699
0.352713 0.380531 0.277419 0 0.797784 0.501706 0.501672
0.426357 0.778761 0.870968 0.877551 0.265928 0.112628 0.100334
0.403101 0.336283 0.309677 0 0.761773 0.467577 0.491639
0.468992 0.743363 0.877419 0.897959 0.224377 0.119454 0.090301
0.387597 0.345133 0.341935 0 0.775623 0.518771 0.551839
0.496124 0.787611 0.877419 0.857143 0.263158 0.122867 0.113712
0.333333 0.380531 0.341935 0 0.759003 0.566553 0.585284
0.624031 0.80531 0.780645 0.795918 0.293629 0.12628 0.130435
0.534884 0.40708 0.419355 0 0.894737 0.641638 0.628763
0.786822 0.938053 1 0.632653 0.379501 0.197952 0.120401
0.453488 0.380531 0.419355 0 0.842105 0.607509 0.628763
0.554264 0.876106 0.741935 0.877551 0.254848 0.334471 0.130435
0.639535 0.646018 0.593548 0 1 0.8157 0.73913
0.689922 1 0.735484 0.693878 0.351801 0.337884 0.137124
1 0.867257 0.354839 0 0.617729 1 1
0.546512 0.876106 0.703226 0.877551 0.254848 0.334471 0.130435];
w0 = [1/7;1/7;1/7;1/7;1/7;1/7;1/7];
Aeq = ones(1,7);
beq = 1.0;
lb = zeros(7,1);
ub = ones(7,1);
options = optimset('TolFun',1e-10,'TolX',1e-10);
Mim = mean(M,1);
fun = @(w) -sum(arrayfun(@(i)sum((M(:,i)-Mim(i)).*(M*w-mean(M*w)))/sqrt(sum((M(:,i)-Mim(i)).^2)*sum((M*w-mean(M*w)).^2)),1:7));
fun = function_handle with value:
@(w)-sum(arrayfun(@(i)sum((M(:,i)-Mim(i)).*(M*w-mean(M*w)))/sqrt(sum((M(:,i)-Mim(i)).^2)*sum((M*w-mean(M*w)).^2)),1:7))
format long
[w,fval] = fmincon(fun,w0,[],[],Aeq,beq,lb,ub,[],options)
Local minimum possible. Constraints satisfied. fmincon stopped because the size of the current step is less than the value of the step size tolerance and constraints are satisfied to within the value of the constraint tolerance.
w = 7×1
0.200081504852845 0.157959395465906 0.137599668689948 0.086444832698773 0.131950619523270 0.144443169868022 0.141520808901237
fval =
-3.039398091210332
Tomi
Tomi 2022년 9월 30일
Thank you very much for your help.
Best,
Tomi

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