I am trying to implement Naive Bayes Classifier using data set publish by UCI machine learning team, I am new to Machine Learning and trying to understand techniques to use for my work related problems, So I thought its better to get the theory understood first.

I am using pima data set (Link to Data - UCI-ML) and goal is to build Naive Bayse Univariate Gaussian Classifier for K class problem (Data is only there for K=2). I have done splitting data, and calculate the mean for each class, standard deviation, priors for each class but after this I am kinda stuck because I am not sure what and how I should be doing after this. I have feeling that I should be calculating posterior probability, Here is my code, I am using percent as a vector because I want to see the behavior as I increase the training data size from 80:20 split. Basically if you pass [10 20 30 40] it will take that percentage from 80:20 split, and use 10% of 80% as training

```
function[classMean] = naivebayes(file, iter, percent)
dm = load(file);
for i=1:iter
idx = randperm(size(dm.data,1))
%Using same idx for data and labels
shuffledMatrix_data = dm.data(idx,:);
shuffledMatrix_label = dm.labels(idx,:);
percent_data_80 = round((0.8) * length(shuffledMatrix_data));
%Doing 80-20 split
train = shuffledMatrix_data(1:percent_data_80,:);
test = shuffledMatrix_data(percent_data_80+1:length(shuffledMatrix_data),:);
train_labels = shuffledMatrix_label(1:percent_data_80,:)
test_labels = shuffledMatrix_data(percent_data_80+1:length(shuffledMatrix_data),:);
%Getting the array of percents
for pRows = 1:length(percent)
percentOfRows = round((percent(pRows)/100) * length(train));
new_train = train(1:percentOfRows,:)
new_trin_label = shuffledMatrix_label(1:percentOfRows)
%get unique labels in training
numClasses = size(unique(new_trin_label),1)
classMean = zeros(numClasses,size(new_train,2));
for kclass=1:numClasses
classMean(kclass,:) = mean(new_train(new_trin_label == kclass,:))
std(new_train(new_trin_label == kclass,:))
priorClassforK = length(new_train(new_trin_label == kclass))/length(new_train)
priorClassforK_1 = 1 - priorClassforK
end
end
end
```

end