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temp_law_huang

The Huang temperature decrease law for the simulated annealing

Syntax

T_out = temp_law_huang(T_in,step_mean,step_var,temp_stage,n,param)

Arguments

T_in

the temperature at the current stage

step_mean

the mean value of the objective function computed during the current stage

step_var

the variance value of the objective function computed during the current stage

temp_stage

the index of the current temperature stage

n

the dimension of the decision variable (the x in f(x))

param

a float corresponding to the lambda parameter of the Huang temperature decrease law (0.01 by default)

T_out

the temperature for the temperature stage to come

Description

  • This function implements the Huang temperature decrease law for the simulated annealing.

Examples

function y=rastrigin(x)
  y = x(1)^2+x(2)^2-cos(12*x(1))-cos(18*x(2));
endfunction

x0 = [-1, -1];
Proba_start = 0.8;
It_intern = 1000;
It_extern = 30;
It_Pre    = 100;

mprintf('SA: the Huang temperature decrease law\n');

T0 = compute_initial_temp(x0, rastrigin, Proba_start, It_Pre, neigh_func_default);
mprintf('Initial temperature T0 = %f\n', T0);

saparams = init_param();
saparams = add_param(saparams, "neigh_func", neigh_func_default);
saparams = add_param(saparams, "temp_law", temp_law_huang);

[x_opt, f_opt, sa_mean_list, sa_var_list, temp_list] = optim_sa(x0, rastrigin, It_extern, It_intern, T0, Log = %T, saparams);

mprintf('optimal solution:\n'); disp(x_opt);
mprintf('value of the objective function = %f\n', f_opt);

scf();
subplot(2,1,1);
xtitle('Huang simulated annealing','Iteration','Mean / Variance');
t = 1:length(sa_mean_list);
plot(t,sa_mean_list,'r',t,sa_var_list,'g');
legend(['Mean','Variance']);
subplot(2,1,2);
xtitle('Temperature evolution','Iteration','Temperature');
plot(t,temp_list,'k-');

See also

  • optim_sa — A Simulated Annealing optimization method
  • temp_law_csa — The classical temperature decrease law
  • neigh_func_csa — The classical neighborhood relationship for the simulated annealing
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Last updated:
Tue Oct 24 14:37:07 CEST 2023