How Can i transform condition into constraint equation?

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Maria il 10 Gen 2023

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Commentato: Walter Roberson il 17 Gen 2023

Hello everyone!

i'm asking if i can change a condition line command into equation in order to use it in my problem. The condition is related to trajectory of vehicle in segment line, so if it arrives at the last point of the segment , it will come back to the initial point and keep going back and forth until the time ends.

in my code i wrote the condition as follow :

qu(1) = 0;   % qu the initial position of vehicule 
speed = 50;     % 50 is the speed of vehicule ( constant) 
k = 1;
while k < length(qu)
    xk = qu(k) + speed;
    if xk > 10000       %10000 is the length of the segment
        speed = -50;
    elseif xk < 0
        speed = 50;
    else
        k = k+1;
        qu(k) = xk;
    end
end

How can i transform this code into simple equation?

any help is appreciated!

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Walter Roberson il 11 Gen 2023

I'm pretty sure they are using fixed timestep, and that the speed variable is distance per time step.

Maria il 11 Gen 2023

@Walter Roberson exactly!

@Torsten i want to add the condition of the length of segment, it means that : when new position = length of the segment , the new position should return at the previous position.

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Walter Roberson il 10 Gen 2023

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length(qu) starts as 1, k starts at 1, 1 < 1 is false, so the loop body is never entered. Therefore the code can be reduced to just the first two lines.

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Walter Roberson il 13 Gen 2023

Modificato: Walter Roberson il 14 Gen 2023

You have a deterministic formula for the next qu given the current qu and the segment length and the current time and the velocity. There is no optimization of qu going on.

Imagine that L was 180. Now model the progress in terms of circular travel that wraps 180 to -180. 178+5 wrapping to become -177, then that becoming -172 after another step. Negative distance would correspond to travelling back towards the origin and the amount negative would correspond to how much distance is remaining to get back there. You would abs() the value to get the distance from origin and sign() would given you direction of travel. But clearly circular motion of this kind is just continuous motion that does not have to be expressed as a constraint, and clearly the location at any given time could be computed according to mod(V*t, 2*L) full cycles with a wrap at L. The exact value can be expressed with sine and arcsine and some multiplication and division

Maria il 17 Gen 2023

Modificato: Maria il 17 Gen 2023

Apri in MATLAB Online

@Walter Roberson @Torsten hello!

i'm trying to solve an optimization problem but the hard part is discussed above, i tell you that i want to optimize the first location of vehicule but i didn't find how to write the constraint. I found a method to write the different location points based on the first one qu(t=1) the point that i want to optimize,

here is the clarification ,

because in each time or iteration qu(t=1) will be known so, i noted a= (L-qu(1))/v (v is constant)

e.g for qu(1)=60, L=1000, v=20m/s so a=47 and a1= L/20=50

now for 0<t<a+1

qu(t)=qu(1)+(t-1)*v.teta.dt , dt=1 and teta =1

e.g qu(20)=60+(19*20)*1 =440 m

now for t>a+1

for e.g

qu(49)=qu(1)+(a*v*teta*dt)-(1*v*teta*dt)
=60+(47*20)-(20) = 980

here i substracted (49-(a+1))=48 so for the 47 i put it in the positive part and the 1 in the negative part

another eg

qu(100)=qu(1)+(47*v*teta*dt )-(50*v*teta*dt)+(2*v*teta*dt)

60+940-1000+40 =40

here i subtracted (100-(a+1))= 52 , grater than a1 ,so for the 47 i put it in the positive part and the 50 in the negative part and the 2 in the positive part.

so i'm asking if there is a way to write constraint based in a and a1 to successively determine the location.

thanks in advance

Torsten il 17 Gen 2023

Thus my question remains.

Is qu(1) a multiple of 20 ?

If no: How to deal with the case that the opposite wall is not exactly hit at a time instant t ?

Walter Roberson il 17 Gen 2023

Are you wanting the model to reject certain proposed values of qu(1), to say "Ah, this set of proposed parameters does not lead to a feasible model, try a different set of parameters" ?

If so, if qu(1) is one of the model parameters, then set a lower bound on it of 0, and set an upper bound of (L-NumberOfTimeSteps*v) . [If (L-NumberOfTimeSteps*v) would be negative, then that implies the equations are impossible to satisfy]

But I don't think that is what you want. You want the direction to reverse when you hit L or 0 and you want to keep going. That is not a constraint and cannot be handled by upper/lower bounds or by linear inequalities or by nonlinear equalities.

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