no_of_machines=7;
no_of_cells=3;
No_of_Parts = 6;
Make_topart_power=[12; 7; 4; 6; 12; 6; 8];
move_cost=[12;12;12;12;12;12];
demand=[600 550 500 520 620 500];
labor_cost=[1.04; 1.2; 1.44; 1.6];
OP1=[10 0 0 10 0 20 15;10 13 0 0 12 0 15];
OP2=[0 10 10 15 0 0 20;11 0 13 0 17 10 0];
OP3=[10 0 0 12 11 0 0;0 11 18 0 0 0 17];
OP4=[10 0 0 0 19 0 14;0 14 0 17 0 10 0];
OP5=[18 13 0 0 0 15 0;10 12 0 0 10 0 11];
OP6=[0 10 0 0 0 10 15;12 11 0 13 0 15 0];
setup_cost=[20; 30; 25; 40; 45; 30];
hold_cost=[4; 3; 5; 3; 4; 5];
batch_size=(demand'.*setup_cost.*2./hold_cost).^0.5;
no_of_batches=demand'./batch_size;
M1=[1 0 0 0;0 0 1 0];
M2=[0 0 1 0;0 0 0 1];
M3=[0 1 0 0;0 0 0 1];
M4=[1 0 0 0;0 0 1 0];
M5=[0 1 0 0;0 0 0 1];
M6=[0 0 1 0;0 0 0 1];
M7=[0 1 0 0;0 0 0 1];
E= [OP1;OP2;OP3;OP4;OP5;OP6];
Ez = [size(OP1,1) size(OP2,1) size(OP3,1) size(OP4,1) size(OP5,1) size(OP6,1)];
Ec = [0 cumsum(Ez(1:end-1))];
Ea = allcomb(1:Ez(1),1:Ez(2),1:Ez(3),1:Ez(4),1:Ez(5),1:Ez(6));
En = size(Ea,1);
all_comb_of_OP_routes = cell(1,En);
for i=1:En
all_comb_of_OP_routes{i} =E(Ec+Ea(i,:),:);
end
CELL = zeros(no_of_cells^no_of_machines,no_of_machines);
t = 0;
for k = 0:(no_of_cells^no_of_machines)-1
s = dec2base(k,no_of_cells,no_of_machines);
if length(unique(s))==no_of_cells
t = t+1;
CELL(t,:) = s-'0'+1;
end
end
CELL = CELL(1:t,:);
combination_array=num2cell(CELL,2);
for c=1:numel(combination_array )
R=1:numel(combination_array{c});
Z = zeros(R(end),max(combination_array{c}));
Z(sub2ind(size(Z),R,combination_array{c})) = 1;
allCells_array{c}=Z;
end
for i=1:numel(all_comb_of_OP_routes)
energy_consumption=(all_comb_of_OP_routes{i}*Make_topart_power).*demand';
total_energy_cost(i)=(sum(energy_consumption))*0.01;
for c=1:numel(allCells_array)
movement=(all_comb_of_OP_routes{i})*allCells_array{c};
movement=movement>0;
total_movement_cost=sum(bsxfun(@times,bsxfun(@times,sum(movement,2)-1,no_of_batches),move_cost));
total_all(i,c)=total_movement_cost;
end
end
