fmincon() power grid

Question

abde amar il 16 Ott 2017

0
Link

Link diretto a questa domanda

https://it.mathworks.com/matlabcentral/answers/361543-fmincon-power-grid

Commentato: Walter Roberson il 16 Ott 2017

Hello everyone, I have one project in power grid field. The objective is to minimize the reactive power consumption keeping the voltage in gap limit.

Can someone give me some directive points for programming the optimization of the objective function using fmincon(). It would be helpful

Best regards

3 Commenti
Mostra 1 commento meno recenteNascondi 1 commento meno recente

abde amar il 16 Ott 2017

Thank you, Yes, I've seen some useful mathworks fmincon videos. Now, I would like to know more about using objective function containing several variables (like reactive power function Qi=-∑Vi*Vj*sin(θij-δi-δj) )

Walter Roberson il 16 Ott 2017

Apri in MATLAB Online

You combine everything to be changed into one vector. Inside your function, you extract parts of the vector and reshape it as needed for your computation.

For example,

function result = MyObjective(x)
   V = reshape(x(1:16), 4, 4);
   theta = reshape(x(17:31), 4, 4);
   delta = reshape(x(32:47), 4, 4);
   result = ....
 end

Accedi per commentare.

Accedi per rispondere a questa domanda.

Answer 1

Walter Roberson il 16 Ott 2017

0
Link

Link diretto a questa risposta

https://it.mathworks.com/matlabcentral/answers/361543-fmincon-power-grid#answer_285976

Yes, my advice would be "Don't do that."

fmincon is a local minimizer, not a global minimizer, so it will get stuck in the first local minima it happens to see. However, power grid calculations would be expected to have a number of local minima. fmincon() is likely to get stuck.

You will likely need a global minimization technique. Some of the global minimizing routines can call upon fmincon() to get a more precise answer as the last step. I can also suggest a modification to the code of patternsearch() that allows it to call fmincon() at steps between in order to accelerate convergence; this would be a more advanced technique.