# Implementation of Genetic Algorithm in MATLAB without the toolbox

I am trying to implment Genetic Algorithm in MATLAB without using the toolbox. Took this as reference to start http://www.mathworks.com/matlabcentral/answers/6027-ga-implementation-in-matlab-without-using-the-toolbox

``````Changed the variables accordingly
%%  function f = ga_test(x)
%% f = 120*x1 + 120*x2 + 120*x3 + 120*x4 + 120*x5 + 120*x6 + 120*x7 + 120*x8 + 120*x9 + 120*x10 + 40*y1 + 40*y2 + 40*y3 + 40*y4 + 40*y5 + 40*y6 + 40*y7 + 40*y8 + 40*y9 + 40*y10+ 40*y11 + 40*y12 + 40*y13 + 40*y14 + 40*y15 + 40*y16 + 40*y17 + 40*y18 + 40*y19+ 40*y20;
% Setup the Genetic Algorithm
fitnessfunction= @ga_test;
N = 1475;  % number of optimization (decision) variables
popsize = 268 ; % set population size = number of chromosomes
max_iteration = 50;  % max number of iterations
minimum_cost = 120;  % minimum cost
mutation_rate = 0.01; % mutation rate
selection_rate = 0.5; % selection rate: fraction of population
nbits = 1;
Nt = nbits*N; % total number of bits in a chormosome
number_mutations = mutation_rate*N*(popsize-1); % number of mutations
% #population members that survive (Nkeep = Xrate*Npop); Nkeep survive for mating, and (Npop - Nkeep) are discarded to make room for the new offspring
keep = floor(selection_rate*popsize);
iga=0; % generation counter initialized
pop=TrainVec;%round(rand(popsize,Nt)); % random population of 1s and 0s
cost=feval(fitnessfunction,pop); % calculates population cost using fitnessfunction
[cost,ind]=sort(cost); % min cost in element 1
pop=pop(ind,:); % sorts population with lowest cost first
minc(1)=min(cost); % minc contains min of population
while iga < max_iteration  %Iterate through generations
iga=iga+1; % increments generation counter
% Pair and mate
M=ceil((M-keep)/2); % number of matings weights chromosomes based upon position in list probability distribution function
prob=flipud([1:keep]'/sum([1:keep]));
odds=[0 cumsum(prob(1:keep))];
pick1=rand(1,popsize); % mate #1
pick2=rand(1,popsize); % mate #2
% parents contain the indicies of the chromosomes that will mate
ic=1;
while ic<=M
for id=2:keep+1
if pick1(ic)<=odds(id) & pick1(ic)>odds(id-1)
ma(ic)=id-1;
end % if
if pick2(ic)<=odds(id) & pick2(ic)>odds(id-1)
pa(ic)=id-1;
end % if
end % id
ic=ic+1;
end % while
%_______________________________________________________
% Performs mating using single point crossover
ix=1:2:keep; % index of mate #1
xp=ceil(rand(1,M)*(Nt-1)); % crossover point
pop(keep+ix,:)=[pop(ma,1:xp) pop(pa,xp+1:Nt)];
% first offspring
pop(keep+ix+1,:)=[pop(pa,1:xp) pop(ma,xp+1:Nt)];
% second offspring
%_______________________________________________________
% Mutate the population
number_mutations=ceil((popsize-1)*Nt*mutation_rate); % total number of mutations
mrow=ceil(rand(1,number_mutations)*(popsize-1))+1; % row to mutate
mcol=ceil(rand(1,number_mutations)*Nt); % column to mutate
for ii=1:number_mutations
pop(mrow(ii),mcol(ii))=abs(pop(mrow(ii),mcol(ii))-1);
end
%_______________________________________________________
% The population is re-evaluated for cost decode
cost(2:popsize)=feval(fitnessfunction,pop(2:popsize,:));
%_______________________________________________________
% Sort the costs and associated parameters
[cost,ind]=sort(cost);
pop=pop(ind,:);
%_______________________________________________________
% Stopping criteria
if iga>maxit | cost(1)<mincost
break
end
[iga cost(1)]
end
``````

The code seems to stop executing at the line cost=feval(fitnessfunction,pop).

Not sure how to continue. Need some guidance. If there is a better method of implementing GA without using the toolbox, would like to hear that as well. Thanks..

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is this homework? have you defined ga_test? –  carlosdc Feb 7 '12 at 14:30
this is my fyp.. I dun know how to define ga_test... –  lakesh Feb 7 '12 at 14:33
Tip: you should learn to format and indent your code correctly. –  Chris Taylor Feb 14 '12 at 8:21

What happens if you save this:

``````%%  function f = ga_test(x)
%% f = 120*x1 + 120*x2 + 120*x3 + 120*x4 + 120*x5 + 120*x6 + 120*x7 + 120*x8 + 120*x9 + 120*x10 + 40*y1 + 40*y2 + 40*y3 + 40*y4 + 40*y5 + 40*y6 + 40*y7 + 40*y8 + 40*y9 + 40*y10+ 40*y11 + 40*y12 + 40*y13 + 40*y14 + 40*y15 + 40*y16 + 40*y17 + 40*y18 + 40*y19+ 40*y20;
``````

into a file called ga_test.m without the comments? I think that is your problem.

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is the function correct? or shld it be x^1 + x^2? –  lakesh Feb 7 '12 at 15:31
x(1), x(2) and so on, I think. –  carlosdc Feb 7 '12 at 16:21
how to derive the function f? it varies for different applications right? –  lakesh Feb 7 '12 at 16:24