1

In a continuous model, how do I save the minimum value of a variable during the simulation?

When a simulation has finished I want to display a variable T_min with a graphical annotation that shows me the lowest value of a temperature T during the simulation.

For example, if the simulated temperature T was a sine function, the desired result for the value of T_min would be:

enter image description here

In discrete code this would look something like this:

T_min := Modelica.Constants.inf "Start value";
if T < T_min then
    T_min := T;
else
    T_min := T_min;
end if;

... but I would like a continuous implementation to avoid sampling, high number of events etc.

Thanks in advance.

Rene Just Nielsen

1

I'm not sure if Renes solution is optimal. The solution generates many state events generated by the two if conditions. Embedded in the following model:

model globalMinimum2 
 Real T, T_min;
 Boolean is_true;
initial equation 
 T_min = T;
equation 
 T =time/10*sin(time);
 // if statement ensures that 'T_min' doesn't integrate downwards...
 // ... whenever der(T) is negative;
 if T < T_min then
  der(T_min) = min(0, der(T));
  is_true=true; 
 else
  der(T_min) = 0;
  is_true=false;
 end if;
end globalMinimum2;

The simulation log is the following:

Integration started at T = 0 using integration method DASSL
(DAE multi-step solver (dassl/dasslrt of Petzold modified by Dynasim))
Integration terminated successfully at T = 50
  WARNING: You have many state events. It might be due to chattering.
  Enable logging of event in Simulation/Setup/Debug/Events during simulation
   CPU-time for integration      : 0.077 seconds
   CPU-time for one GRID interval: 0.154 milli-seconds
   Number of result points       : 3801
   Number of GRID   points       : 501
   Number of (successful) steps  : 2519
   Number of F-evaluations       : 4799
   Number of H-evaluations       : 18822
   Number of Jacobian-evaluations: 2121
   Number of (model) time events : 0
   Number of (U) time events     : 0
   Number of state    events     : 1650
   Number of step     events     : 0
   Minimum integration stepsize  : 1.44e-005
   Maximum integration stepsize  : 5.61
   Maximum integration order     : 3

Perhaps it is better to detect two events as given in the following example:

model unnamed_2 
  Real T;
  Real hold;
  Real T_min;
  Boolean take_signal;

initial equation 
  hold=T;
equation 
  T = time/10*sin(time);

  when (T < pre(hold)) then
    take_signal = true;
    hold = T; 
  elsewhen (der(T) >=0) then
    take_signal = false;
    hold = T; 
  end when;

  if (take_signal) then
    T_min = T; 
  else
    T_min = hold;
  end if;

end unnamed_2;

The simulation log shows that this solutions is more efficient:

Log-file of program ./dymosim
(generated: Tue May 24 14:13:38 2016)

dymosim started
... "dsin.txt" loading (dymosim input file)
... "unnamed_2.mat" creating (simulation result file)

Integration started at T = 0 using integration method DASSL
(DAE multi-step solver (dassl/dasslrt of Petzold modified by Dynasim))
Integration terminated successfully at T = 50
   CPU-time for integration      : 0.011 seconds
   CPU-time for one GRID interval: 0.022 milli-seconds
   Number of result points       : 549
   Number of GRID   points       : 501
   Number of (successful) steps  : 398
   Number of F-evaluations       : 771
   Number of H-evaluations       : 1238
   Number of Jacobian-evaluations: 373
   Number of (model) time events : 0
   Number of (U) time events     : 0
   Number of state    events     : 32
   Number of step     events     : 0
   Minimum integration stepsize  : 4.65e-006
   Maximum integration stepsize  : 3.14
   Maximum integration order     : 1
Calling terminal section
... "dsfinal.txt" creating (final states)
  • Thanks a lot, Lukas. You code certainly is more efficient than mine and works great. Best regards Rene Just Nielsen. – Rene Just Nielsen May 24 '16 at 13:08
0

It seems I was able to finde an answer to my own question simply by looking at the figure above

The code is quite simple:

model globalMinimum
  Modelica.SIunits.Temperature T, T_min;
initial equation 
  T_min = T;
equation 
  // if statement ensures that 'T_min' doesn't integrate downwards...
  // ... whenever der(T) is negative;
  der(T_min) = if T < T_min then min(0, der(T)) else 0;
end globalMinimum;
  • Wouldn't the equation T_min = min(T, T_min) also work? – Christoph May 24 '16 at 10:34
  • @Christoph: Thanks for your suggestion. However, T_min does not maintain the minimum value of T, rather it follows the "lower part" of the sine curve (between -amplitude and 0). – Rene Just Nielsen May 24 '16 at 10:59
  • huh, curious. Anyway, a T_min = min(T, pre(T_min)); does it, at least on my machine with OpenModelica. – Christoph May 24 '16 at 11:19
  • The picture on this link shows the code and the plot. drive.google.com/open?id=0B8ojPn4YxnI9VHVwQlQtQmczSG8 In Dymola I'm only allowed to use the pre() operator inside a when statement. – Rene Just Nielsen May 24 '16 at 11:32

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.