A deep learned type-2 fuzzy neural network: Singular value decomposition approach

The main objective of this study is to present a novel dynamic fractional-order deep learned type-2 fuzzy logic system (FDT2-FLS) with improved estimation capability. The proposed FDT2-FLS is constructed based on the criteria of singular value decomposition and uncertainty bounds type-reduction. The...

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Bibliographic Details
Published in:Applied soft computing 2021-07, Vol.105, p.107244, Article 107244
Main Authors: Qasem, Sultan Noman, Mohammadzadeh, Ardashir
Format: Article
Language:English
Subjects:
Deep learned
Mittag-Leffler stability and uncertainty bounds type-reduction
Singular value decomposition
Type-2 fuzzy neural network
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Summary:The main objective of this study is to present a novel dynamic fractional-order deep learned type-2 fuzzy logic system (FDT2-FLS) with improved estimation capability. The proposed FDT2-FLS is constructed based on the criteria of singular value decomposition and uncertainty bounds type-reduction. The upper and the lower singular values of the set of inputs are estimated by a simple filter and the output is obtained by fractional-order integral of the uncertainty bounds type-reduction. Using stability criteria of fractional-order systems, the adaptation rules of the consequent parameters are extracted such that the globally Mittag-Leffler stability is achieved. The proposed FDT2-FLS is employed for online dynamic identification of a hyperchaotic system, online prediction of chaotic time series and online prediction of glucose level in type-1 diabetes patients and its performance is compared with other well-known methods. It is shown that the proposed mechanism results in significantly better prediction and estimation performance with less tunable parameters in just one learning epoch. •A dynamic fractional-order deep learned type-2 fuzzy logic system is presented.•Proposed FDT2-FLS is designed based on singular value decomposition and uncertainty bounds type-reduction.•For optimizing the hidden neurons there is no need for output error back propagation.•Proposed FDT2-FLS has a deep memory and the number of rules to achieve the desired performance is well decreased.•The Mittag-Leffler stability of proposed method is quadrated.
ISSN:1568-4946
1872-9681
DOI:10.1016/j.asoc.2021.107244