Contractive autoencoders

in these codes a set of functions created to fully train a Contractive Autoencoder.
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Updated Thu, 18 Apr 2019 15:39:09 +0000

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Contractive autoencoder CAE adds an explicit regularizer in their objective function that forces the model to learn a function that is robust to slight variations of input values. This regularizer corresponds to the Frobenius norm of the Jacobian matrix of the encoder activations with respect to the input. The CAE in this code uses Extreme Learning Machine to minimize the following objective function:
RMSE((f(H+lamda*norm((Dx'.*HT'),'fro'))*Beta)-Targets)

(The parameters of the function are explained inside the code).
The uploaded file contains:
1- An ordinary AE which can be used for comparison.
2- Contractive AE function.
3- Jacobian matrix function downloaded from this link :
https://www.mathworks.com/matlabcentral/fileexchange/13490-adaptive-robust-numerical-differentiation
4- Data normalization function.
To learn about the CAES you can start with this tutorial:
https://www.youtube.com/watch?v=79sYlJ8Cvlc&feature=youtu.be

Cite As

BERGHOUT Tarek (2024). Contractive autoencoders (https://www.mathworks.com/matlabcentral/fileexchange/71257-contractive-autoencoders), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2019a
Compatible with any release
Platform Compatibility
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Version Published Release Notes
1.2.0

some comments updated

1.1.0

the optimization equation is:B=pinv((H+lamda*norm((Dx'.*HT'),'fro'))') * X ;
and not H=radbas(H+lamda*norm((Dx'.*HT'),'fro'))'), am sorry ,it is corrected now .

1.0.0