mttMATLAB Tensor Tools
Last update: 08/09/2014
MTT
Matlab Tensor Tools is an easy-to-use library to work with tensors.
See also:
Presentation about Matrix and Tensor Tools for Computer Vision
http://www.slideshare.net/andrewssobral/matrix-and-tensor-tools-for-computer-vision
LRSLibrary: Low-Rank and Sparse Tools for Background Modeling and Subtraction in Videos
https://github.com/andrewssobral/lrslibrary
IMTSL: Incremental and Multi-feature Tensor Subspace Learning
https://github.com/andrewssobral/imtsl
Citation
If you use this code for your publications, please cite it as:
@misc{asobral2014,
author = "Sobral, Andrews",
title = "Matlab Tensor Tools",
year = "2014",
url = "https://github.com/andrewssobral/mtt/"
}
Demos
tensor_demo_operations.m - Basic operations
tensor_demo_hosvd_ihosvd.m - High-order singular value decomposition (Tucker decomposition)
tensor_demo_parafac_als.m - CP decomposition via ALS (Alternating Least-Squares)
tensor_demo_tucker_als.m - Tucker decomposition via ALS (Alternating Least-Squares)
tensor_demo_tsvd.m - t-SVD and inverse t-svd
tensor_demo_ntf.m - Non-Negative Tensor Factorization
tensor_demo_subtensors_ntf_hals.m - Low-rank approximation based Non-Negative Tensor(CP) factorization
tensor_demo_inclearn.m - Incremental tensor learning
Example of tensor operations
A = reshape(1:12,[2,2,3]);
B = reshape(1:12,[2,2,3]);
%% Basic operations
[A1,A2,A3] = tensor_matricization(A);
M22 = reshape(1:4,[2,2]);
M33 = reshape(1:9,[3,3]);
B1 = tensor_nmodeproduct(A,M22,1);
B2 = tensor_nmodeproduct(A,M22,2);
B3 = tensor_nmodeproduct(A,M33,3);
Au = tensor_unfold(A);
A_hat = tensor_fold(Au,size(A));
[A1_] = tensor_slices_frontal(A);
[A2_] = tensor_slices_lateral(A);
[A3_] = tensor_slices_horizontal(A);
[At1_] = tensor_fibers_column(A);
[At2_] = tensor_fibers_row(A);
[At3_] = tensor_fibers_tube(A);
Bt = tensor_transpose(B);
[C] = tensor_product(A,B);
%% HoSVD and iHoSVD decomposition
T = tensor(A);
[core,U] = tensor_hosvd(T);
[T_hat] = tensor_ihosvd(core,U);
%% t-SVD decomposition
[U,S,V] = tensor_t_svd(A);
[C] = tensor_product(U,S);
[A_hat] = tensor_product(C,tensor_transpose(V));
%% Tucker ALS decomposition
r = 10;
T_hat = tucker_als(T,[r r r]);
%% PARAFAC/CP ALS decomposition
T_hat = cp_als(T, r);
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