csci5521/assignments/hwk04/HW4_Q1.m

%generate two-class data
rng(1); % For reproducibility
N = 20;
r = sqrt(1*rand(N,1)); % Radius
t = 2*pi*rand(N,1);  % Angle
data1 = [r.*cos(t), r.*sin(t)]; % Points

r2 = sqrt(8*rand(N,1)+1); % Radius
t2 = 2*pi*rand(N,1);      % Angle
data2 = [r2.*cos(t2), r2.*sin(t2)]; % points

%combine the two class data
data3 = [data1;data2];
theclass = ones(2*N,1);
theclass(1:N) = -1;
figure;

for degree = [1 2 4]
    %TO DO: replace fitcsvm with kernel_perceptron
    %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    %SVM classification demo;
    % alphas = fitcsvm(data3,theclass,'KernelFunction','polynomial','PolynomialOrder',degree);%tune the sigma parameter here, 1, 3, 0.1
    [alphas, b] = kernel_perceptron(data3, theclass, degree);

    %[alphas,b] = kernel_perceptron(data3,theclass,degree); 
    %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    
    d = 0.02;
    [x1Grid,x2Grid] = meshgrid(min(data3(:,1)):d:max(data3(:,1)),...
        min(data3(:,2)):d:max(data3(:,2)));
    xGrid = [x1Grid(:),x2Grid(:)];
    
    %TO DO: replace predict with kp_predict
    %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    %SVM prediction demo; replace with kernel perceptron

    % [~,scores1] = predict(alphas,data3); %replace it with mypredict(...)
    % [~,scores2] = predict(alphas,xGrid); %replace it with mypredict(...)

    % scores1 = kp_predict(alphas, b, degree, data3, theclass, data3)

    % scores2 = scores2(:,2);
    % training_error = CalculateErrorRate(theclass,sign(scores1(:,2)));
    
    scores1 = kp_predict(alphas,b,degree,data3,theclass,data3); %return the prediction scores
    scores2 = kp_predict(alphas,b,degree,data3,theclass,xGrid); %return the prediction scores
    training_error = CalculateErrorRate(theclass,sign(scores1));
    %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    
    subplot(5,1,degree);
    h(1:2) = gscatter(data3(:,1),data3(:,2),theclass,'rb','.');
    hold on
    contour(x1Grid,x2Grid,reshape(scores2,size(x1Grid)),[0 0],'k');
    plottitle = sprintf("Degree = %d; Training Error = %f",degree,training_error);
    title(plottitle);
end

function error_rate = CalculateErrorRate(y_pred,y_label)
    N = length(y_label);
    error_rate = sum(y_pred ~= y_label)/N;
end
p1 2023-12-08 11:22:31 +00:00			`%generate two-class data`
			`rng(1); % For reproducibility`
			`N = 20;`
			`r = sqrt(1*rand(N,1)); % Radius`
			`t = 2pirand(N,1); % Angle`
			`data1 = [r.cos(t), r.sin(t)]; % Points`

			`r2 = sqrt(8*rand(N,1)+1); % Radius`
			`t2 = 2pirand(N,1); % Angle`
			`data2 = [r2.cos(t2), r2.sin(t2)]; % points`

			`%combine the two class data`
			`data3 = [data1;data2];`
			`theclass = ones(2*N,1);`
			`theclass(1:N) = -1;`
			`figure;`

			`for degree = [1 2 4]`
			`%TO DO: replace fitcsvm with kernel_perceptron`
			`%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`%SVM classification demo;`
			`% alphas = fitcsvm(data3,theclass,'KernelFunction','polynomial','PolynomialOrder',degree);%tune the sigma parameter here, 1, 3, 0.1`
			`[alphas, b] = kernel_perceptron(data3, theclass, degree);`

			`%[alphas,b] = kernel_perceptron(data3,theclass,degree);`
			`%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`

			`d = 0.02;`
			`[x1Grid,x2Grid] = meshgrid(min(data3(:,1)):d:max(data3(:,1)),...`
			`min(data3(:,2)):d:max(data3(:,2)));`
			`xGrid = [x1Grid(:),x2Grid(:)];`

			`%TO DO: replace predict with kp_predict`
			`%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`%SVM prediction demo; replace with kernel perceptron`

			`% [~,scores1] = predict(alphas,data3); %replace it with mypredict(...)`
			`% [~,scores2] = predict(alphas,xGrid); %replace it with mypredict(...)`

			`% scores1 = kp_predict(alphas, b, degree, data3, theclass, data3)`

			`% scores2 = scores2(:,2);`
			`% training_error = CalculateErrorRate(theclass,sign(scores1(:,2)));`

			`scores1 = kp_predict(alphas,b,degree,data3,theclass,data3); %return the prediction scores`
			`scores2 = kp_predict(alphas,b,degree,data3,theclass,xGrid); %return the prediction scores`
			`training_error = CalculateErrorRate(theclass,sign(scores1));`
			`%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`

			`subplot(5,1,degree);`
			`h(1:2) = gscatter(data3(:,1),data3(:,2),theclass,'rb','.');`
			`hold on`
			`contour(x1Grid,x2Grid,reshape(scores2,size(x1Grid)),[0 0],'k');`
			`plottitle = sprintf("Degree = %d; Training Error = %f",degree,training_error);`
			`title(plottitle);`
			`end`

			`function error_rate = CalculateErrorRate(y_pred,y_label)`
			`N = length(y_label);`
			`error_rate = sum(y_pred ~= y_label)/N;`
			`end`