Hey guy,
I am using the relieff as well. you have to watch out, how the outputs are given.
weight = 0.1399 0.1226 0.3590 0.3754
means that the first parameter in meas got the weight 0.1399 (first line = first parameter of meas)
ranked = 4 3 1 2 dosn't mean first line = first parameter of meas = ranking number 4
it means that the first parameter in meas got the ranking position 3 (position of the number 1 = first parameter)
How to use relieff?
X should a Matix with datapoint x parameter (in my case for example 147510x10) and y should be a vector datapoint x 1 (147510x1)
first you should estimate the best k-value, like this:
ParamLabels = {'P1','P2','P3','P4','P5','P6','P7','P8','P9','P10'};
for k=1:200 %or parfor
[idx,weights] = relieff(X,y,k);
RankImportanceIdx(:,k) = idx';
RankImportanceWeight(:,k) = weights';
end
by a simple plot of RankImportanceWeight you can see at which k-value the results stay equal => best k-value.
In my case, the best k value for example is 75! afterwards you could plot the results like this:
plot(RankImportanceWeight(RankImportanceIdx(1:end,75),1:end)','LineWidth',2);
title(['Relief algorithm weights vs. k-values','FontWeight','normal')
xlabel('size of k-nearest neighbor'); ylabel('weights');
legend(ParamLabels(RankImportanceIdx(1:end,75)),'Box','off');
set(gca,'FontName','Arial','FontSize',16);
and/or you could create a table, like this:
for pidx=1:size(ParamLabels,2)
[a,~] = find(strcmp(ParamLabels(RankImportanceIdx(1:end,75)),ParamLabels{pidx}));
RankImportanceTbl{pidx,:} = a;
end
by this you could chose the best 30 parameter that fits to your y.
hope this helps to adapt it to your problem,
regards,
MLP
