I want to implement a constraint depending on the change of values in my binary decision variable, x, over "time".
I am trying to implement a minimum operating time constraint for a unit commitment optimization problem for power systems. x is representing the unit activation where 0 and 1 show that a power unit, n, at a certain time, t, respectively is shut off or turned on.
For this, indicator constraints seem to be a promising solution and with the inspiration of a similar problem the implementation seemed quite straightforward.
So, since boolean operators are introduced (! and ¬), I prematurely wanted to express the change in a boolean way:
@constraint(m, xx1[n=1:N,t=2:T], (!x[n,t-1] && x[n,t]) => {next(t, 1) + next(t, 2) == 2})
Saying: if unit was deactivated before but now is on, then demand the unit to be active for the next 2 times.
Where next(t, i) = x[((t - 1 + i) % T) + 1].
I got the following error:
LoadError: MethodError: no method matching !(::VariableRef)
Closest candidates are:
!(!Matched::Missing) at missing.jl:100
!(!Matched::Bool) at bool.jl:33
!(!Matched::Function) at operators.jl:896
I checked that the indicator constraint is working properly with a single term only.
Question: Is this possible or is there another obvious solution?
Troubleshooting and workarounds: I have tried the following (please correct me if my diagnosis is wrong):
- Implement change as an expression: indicator constraints only work with binary integer variables.
- Implement change as another variable relating to
x. I have found a solution but it is quite sketchy, which is documented in a Julia discourse. The immediate problem, found from the solution, is that indicator constraints do not work as bi-implication but only one way,LHS->RHS. Please see the proper approach given by @Oscar Dowson.
You can get the working code from github.
