PROPT Food Sterilization: Difference between revisions
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Problem type appears to be: qpcon | Problem type appears to be: qpcon | ||
Time for symbolic processing: 0. | Time for symbolic processing: 0.12887 seconds | ||
Starting numeric solver | Starting numeric solver | ||
===== * * * =================================================================== * * * | ===== * * * =================================================================== * * * | ||
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FuncEv 1 ConstrEv 51 ConJacEv 51 Iter 42 MinorIter 282 | FuncEv 1 ConstrEv 51 ConJacEv 51 Iter 42 MinorIter 282 | ||
CPU time: 0.046800 sec. Elapsed time: 0. | CPU time: 0.046800 sec. Elapsed time: 0.045000 sec. | ||
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Problem type appears to be: qpcon | Problem type appears to be: qpcon | ||
Time for symbolic processing: 0. | Time for symbolic processing: 0.1305 seconds | ||
Starting numeric solver | Starting numeric solver | ||
===== * * * =================================================================== * * * | ===== * * * =================================================================== * * * | ||
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FuncEv 1 ConstrEv 27 ConJacEv 27 Iter 25 MinorIter 187 | FuncEv 1 ConstrEv 27 ConJacEv 27 Iter 25 MinorIter 187 | ||
CPU time: 0.046800 sec. Elapsed time: 0. | CPU time: 0.046800 sec. Elapsed time: 0.048000 sec. | ||
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Problem type appears to be: qpcon | Problem type appears to be: qpcon | ||
Time for symbolic processing: 0. | Time for symbolic processing: 0.12872 seconds | ||
Starting numeric solver | Starting numeric solver | ||
===== * * * =================================================================== * * * | ===== * * * =================================================================== * * * | ||
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FuncEv 1 ConstrEv 32 ConJacEv 32 Iter 31 MinorIter 216 | FuncEv 1 ConstrEv 32 ConJacEv 32 Iter 31 MinorIter 216 | ||
CPU time: 0.093601 sec. Elapsed time: 0. | CPU time: 0.093601 sec. Elapsed time: 0.093000 sec. | ||
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[[File:foodSterilization_01.png]] | [[File:foodSterilization_01.png]] | ||
[[Category:PROPT Examples]] |
Latest revision as of 05:02, 14 February 2012
This page is part of the PROPT Manual. See PROPT Manual. |
Problem description
Simplified version of the sterilization problem considered in the paper: Z.S. Chalabi, L.G. van Willigenburg, G. van Straten, 1999, Robust optimal receding horizon control of the thermal sterilization of canned food, Journal of Food Engineering, 40, pp. 207-218.
Programmers: Gerard Van Willigenburg (Wageningen University) Willem De Koning (retired from Delft University of Technology)
% Copyright (c) 2009-2009 by Tomlab Optimization Inc.
Problem setup
% Array with consecutive number of collocation points
narr = [20 30 40];
toms t;
t_f = 1500; % Fixed final time
for n=narr
p = tomPhase('p', t, 0, t_f, n);
setPhase(p)
tomStates x1 x2 x3 x4
tomControls u1
% Initial & terminal states
xi = [20; 20; 0; 0];
xf = [40; 0; 100; 0];
% Initial guess
if n==narr(1)
x0 = {icollocate({x1 == xf(1); x2 == xf(2)
x3 == xf(3); x4 == xf(4)})
collocate({u1 == 50})};
else
x0 = {icollocate({x1 == xopt1; x2 == xopt2
x3 == xopt3; x4 == xopt4})
collocate({u1 == uopt1})};
end
% Box constraints
cbox = {0 <= collocate(u1) <= 50};
% Boundary constraints
cbnd = {initial({x1 == xi(1); x2 == xi(2); x3 == xi(3); x4 == xi(4)})};
% ODEs and path constraints
pv = [0.01; 0.005; 0.01; 20; 10; 121.11; 25.56; 121.11];
dx1 = pv(1)*(x2-x1);
dx2 = pv(2)*(pv(4)-x2)+pv(3)*u1;
dx3 = exp(log(10)/pv(5)*(x1-pv(6)));
dx4 = exp(log(10)/pv(7)*(x1-pv(8)));
ceq = collocate({
dot(x1) == dx1; dot(x2) == dx2
dot(x3) == dx3; dot(x4) == dx4});
% Objective
objective = final(x4)+final((x3-100)^2)+final((x1-40)^2);
Solve the problem
options = struct;
options.name = 'Food Sterilization';
solution = ezsolve(objective, {cbox, cbnd, ceq}, x0, options);
xopt1 = subs(x1,solution);
xopt2 = subs(x2,solution);
xopt3 = subs(x3,solution);
xopt4 = subs(x4,solution);
uopt1 = subs(u1,solution);
Problem type appears to be: qpcon Time for symbolic processing: 0.12887 seconds Starting numeric solver ===== * * * =================================================================== * * * TOMLAB - TOMLAB Development license 999007. Valid to 2011-12-31 ===================================================================================== Problem: --- 1: Food Sterilization f_k 280.311120000018490000 sum(|constr|) 0.000000895049177143 f(x_k) + sum(|constr|) 280.311120895067690000 f(x_0) -1200.000000000116400000 Solver: snopt. EXIT=0. INFORM=1. SNOPT 7.2-5 NLP code Optimality conditions satisfied FuncEv 1 ConstrEv 51 ConJacEv 51 Iter 42 MinorIter 282 CPU time: 0.046800 sec. Elapsed time: 0.045000 sec.
Problem type appears to be: qpcon Time for symbolic processing: 0.1305 seconds Starting numeric solver ===== * * * =================================================================== * * * TOMLAB - TOMLAB Development license 999007. Valid to 2011-12-31 ===================================================================================== Problem: --- 1: Food Sterilization f_k 271.918687099903760000 sum(|constr|) 0.000000037012146137 f(x_k) + sum(|constr|) 271.918687136915930000 f(x_0) -11319.688879999987000000 Solver: snopt. EXIT=0. INFORM=1. SNOPT 7.2-5 NLP code Optimality conditions satisfied FuncEv 1 ConstrEv 27 ConJacEv 27 Iter 25 MinorIter 187 CPU time: 0.046800 sec. Elapsed time: 0.048000 sec.
Problem type appears to be: qpcon Time for symbolic processing: 0.12872 seconds Starting numeric solver ===== * * * =================================================================== * * * TOMLAB - TOMLAB Development license 999007. Valid to 2011-12-31 ===================================================================================== Problem: --- 1: Food Sterilization f_k 272.295309093635300000 sum(|constr|) 0.000000000102288147 f(x_k) + sum(|constr|) 272.295309093737560000 f(x_0) -11328.081312900089000000 Solver: snopt. EXIT=0. INFORM=1. SNOPT 7.2-5 NLP code Optimality conditions satisfied FuncEv 1 ConstrEv 32 ConJacEv 32 Iter 31 MinorIter 216 CPU time: 0.093601 sec. Elapsed time: 0.093000 sec.
end
figure(1)
subplot(2,1,1);
ezplot([x1; x2; x3; x4]); legend('x1','x2','x3','x4');
title('Food Sterilizer states');
subplot(2,1,2);
ezplot(u1); legend('u1');
title('Food Sterilizer controls');