Custom Feature Embedding in SVM
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I have been trying to define a custom feature embedding so that SVM can be applied in the feature space. As an exampe, suppose I have the following 2 data samples, each having an x- and y-coordinate:
D = [p1; p2],
where p1 = [x1 y1] = [1 2] and p2 = [x2 y2] = [3 4]. Let us take the vector of classes of the data samples to be
C = [-1; 1].
The feature embedding is
Phi(p1) = [x1^2; sqrt(2) * x1 * y1; y1^2];
Phi(p2) = [x2^2; sqrt(2) * x2 * y2; y2^2];
I tried
>> SVM1 = fitcsvm(D, C, KernelFunction = 'CustomKernel', Standardize = true);
for which I defined the function
function G = CustomKernel(U, V)
%
Phi = [U(:, 1).^2; sqrt(2) * U(:, 1) .* U(:, 2); U(:, 2).^2];
Phi = reshape(Phi, [], 3);
G = Phi * Phi';
But when I run SVM1 with
>> D = [1 2; 3 4]; C = [-1; 1];
it returns the error
>> Kernel function returns kernel product of incorrect size.
I would appreciate any assistance. Thanks.
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Risposte (2)
Gourab
il 12 Giu 2023
Hi Kamal,
I understand you want to know why your custom SVM embedding returns error.
The error you're getting is because the kernel function you've defined is returning a kernel product matrix of the wrong size.
In your ‘CustomKernel’ function, you're defining the feature embedding ‘Phi’ for each data point, and then calculating the kernel product matrix as ‘G = Phi * Phi'’ to compute the inner product between each pair of data points in the feature space defined by the feature embedding.
However, the size of the kernel product matrix returned by this calculation is not compatible with the SVM classifier, which expects a square matrix where each entry G(i, j) represents the inner product between the feature embeddings of data points i and j.
To fix this, you need to change the size of the kernel product matrix G to be NxN, where N is the number of data points in your input matrix D.
Please refer to the below code snippet for better understanding.
function G = CustomKernel(U, V)
% Define the feature embedding function
embedding = @(p) [p(:,1).^2, sqrt(2) * p(:,1) .* p(:,2), p(:,2).^2];
% Compute the feature embeddings for each data point
embeddings_U = embedding(U);
embeddings_V = embedding(V);
% Compute the inner product between each pair of feature embeddings
G = zeros(size(U,1), size(V,1));
for i = 1:size(U,1)
for j = 1:size(V,1)
G(i,j) = dot(embeddings_U(i,:), embeddings_V(j,:));
end
end
I hope this helps you to resolve the query.
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Kamal Premaratne
il 12 Giu 2023
2 Commenti
Gourab
il 13 Giu 2023
Hi Kamal,
The error you're getting is because the issue is with the ‘Standardize’ parameter of the ‘fitcsvm’ function.
The ‘Standardize’ parameter is used to normalize the predictor variables (features) by subtracting the mean and dividing by the standard deviation. However, in your custom kernel function, you are already computing feature embeddings for each data point, which are nonlinear transformations of the original predictor variables.
Therefore, it may not be necessary to apply standardization to the feature embeddings. In fact, standardizing the feature embeddings can result in loss of information, since the feature embeddings are specifically designed to capture the nonlinear relationships between the predictor variables.
I hope this helps you to resolve the query.
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