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Identifying Stable Components of Matrix /Tensor Factorizations via Low-Rank Approximation of Inter-Factorization Similarity | IEEE Conference Publication | IEEE Xplore

Identifying Stable Components of Matrix /Tensor Factorizations via Low-Rank Approximation of Inter-Factorization Similarity


Abstract:

Many interesting matrix decompositions/factorizations, and especially many tensor decompositions, have to be solved by non-convex optimization-based algorithms, that may ...Show More

Abstract:

Many interesting matrix decompositions/factorizations, and especially many tensor decompositions, have to be solved by non-convex optimization-based algorithms, that may converge to local optima. Hence, when interpretability of the components is a requirement, practitioners have to compute the decomposition (e.g. CPD) many times, with different initializations, to verify whether the components are reproducible over repetitions of the optimization. However, it is non-trivial to assess such reliability or stability when multiple local optima are encountered. We propose an efficient algorithm that clusters the different repetitions of the decomposition according to the local optimum that they belong to, offering a diagnostic tool to practitioners. Our algorithm employs a graph-based representation of the decomposition, in which every repetition corresponds to a node, and similarities between components are encoded as edges. Clustering is then performed by exploiting a property known as cycle consistency, leading to a low-rank approximation of the graph. We demonstrate the applicability of our method on realistic electroencephalographic (EEG) data and synthetic data.
Date of Conference: 02-06 September 2019
Date Added to IEEE Xplore: 18 November 2019
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Conference Location: A Coruna, Spain

References

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