Cody

Problem 524. Sequential Unconstrained Minimization (SUMT) using Interior Penalty

Solution 669913

Submitted on 14 May 2015 by Patrick
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Test Suite

Test Status Code Input and Output
1   Pass
%% Haftka & Gurdal, Figure 5.7.1 example f = @(x) 0.5*x; g = @(x) 2-x; x0 = 5; [xmin,fmin]=sumt_interior(f,g,x0) %#ok<*NOPTS> xcorrect=2; assert(norm(xmin-xcorrect)<2e-3) assert(abs(fmin-f(xcorrect))<1e-3)

xmin = 2.0001 fmin = 1.0001

2   Pass
%% f = @(x) 0.5*x; g = @(x) 2-x; x0 = 5; [xmin,fmin]=sumt_interior(f,g,x0,1) % 1 iteration for unit penalty value xr1=4; assert(norm(xmin-xr1)<1e-4) assert(abs(fmin-f(xr1))<1e-4)

xmin = 4 fmin = 2

3   Pass
%% Vanderplaats, Figure 5-4 example f = @(x) sum(x); g = @(x) [x(1) - 2*x(2) - 2 8 - 6*x(1) + x(1).^2 - x(2)]; x0 = [3; 3]; [xmin,fmin]=sumt_interior(f,g,x0,1) % 1 iteration xr2=[1.8686 2.1221]; assert(norm(xmin-xr2)<1e-2) assert(abs(fmin-f(xr2))<1e-2)

xmin = 1.8686 2.1221 fmin = 3.9906

4   Pass
%% f = @(x) sum(x); g = @(x) [x(1) - 2*x(2) - 2 8 - 6*x(1) + x(1).^2 - x(2)]; x0 = [2.1; 0.1]; r = 2^12; [xmin,fmin]=sumt_interior(f,g,x0,r) % Final iteration xcorrect=[2; 0]; assert(norm(xmin-xcorrect)<5e-3) assert(abs(fmin-f(xcorrect))<2e-3)

xmin = 1.9999 0.0006 fmin = 2.0005

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