Dynamic Sparse Subspace Clustering for Evolving High-Dimensional Data Streams

Sui, Jinping; Liu, Zhen; Liu, Li; Jung, Alexander; Li, Xiang

doi:10.1109/tcyb.2020.3023973

Cited by 14 publications

(6 citation statements)

References 66 publications

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“…LRR is built on the premise of union sampling on multiple low rank linear subsets, and LRR also has the property of self-expression, that is, each sample is expressed in its own form. Unlike SSC, which selects the least number of features from multiple expressions, LRR aims to find the minimum rank of all data [14][15]. Therefore, compared with SSC, LRR can better control the overall structure of sample points, that is, by applying low rank constraints to the expression matrix, it aggregates data points with high correlation together, thereby achieving overall clustering.…”

Section: Lrr Algorithmmentioning

confidence: 99%

Low Rank Representation Subspace Clustering Algorithm Based on Hessian Regularization and Non Negative Constraints

2024

IJSSEM

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Existing low rank representation methods do not fully utilize the local structural features of data, resulting in problems such as loss of local similarity during the learning process. This paper proposed to use the low rank representation subspace clustering algorithm based on Hessian regularization and non-negative constraint (LRR-HN), to explore the overall and local structures of data. Firstly, the high predictability of Hessian regularization was fully utilized to preserve the local manifold structure of the data, thereby improving the description of the local topological structure of the data. Secondly, in view of the fact that the obtained coefficient matrix is often positive or negative, and negative values often have no practical significance, this article intended to introduce non negative constraints to ensure the correctness of the model solution and better characterize the local structure of the data. The NMI (Normalized Mutual Information) of Ncut (Normalized cut, Ncut) was 23.3%, and the AC (Accuracy) was 34.6%. The NMI of PCA (Principal Component Analysis) was 25.9%, and the AC was 45.3%. The NMI of LRR-HN was 89.9%, and AC was 93.2%. Experimental results showed that LRR-HN outperformed existing algorithms in areas such as AC and NMI, and had good clustering performance.

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Section: Lrr Algorithmmentioning

confidence: 99%

Low Rank Representation Subspace Clustering Algorithm Based on Hessian Regularization and Non Negative Constraints

2024

IJSSEM

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“…Moreover, these techniques are naturally adapted to the evolving environment of data streams. In addition, EDSSC introduces a subspace structure evolution detection model to detect the appearing, disappearing, and recurring subspaces [22]. In particular, it uses a singular-based Laplacian matrix decomposition to automatically estimate the number of subspaces.…”

Section: B Data Stream Clustering Techniquesmentioning

confidence: 99%

“…However, it is insufficient to characterize the intrinsic structures of high-dimensional data objects in data streams. This motivates the development of alternative techniques for exploiting the intrinsic characteristics of the highdimensional data objects [10], [22], [23], [23], [24]. For example, Krleža1 et al proposed a statistical hierarchical clustering (SHC) algorithm that uses statistical inference based on statistical distances to estimate statistical distributions on data streams [10].…”

Section: Introductionmentioning

confidence: 99%

“…For example, Krleža1 et al proposed a statistical hierarchical clustering (SHC) algorithm that uses statistical inference based on statistical distances to estimate statistical distributions on data streams [10]. Sui et al presented an evolutionary dynamic sparse subspace clustering (EDSSC) algorithm based on sparse representation to address the problem of concept drift [22]. Li et al proposed an efficient self-adaptive online data stream (ESA-Stream) clustering algorithm that self-adaptively learns parameters to cluster data streams in a dynamic online environment [25].…”

Section: Introductionmentioning

confidence: 99%

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Two-Stage Sparse Representation Clustering for Dynamic Data Streams

Chen

Wang

Yang

et al. 2023

IEEE Trans. Cybern.

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Data streams are a potentially unbounded sequence of data objects, and the clustering of such data is an effective way of identifying their underlying patterns. Existing data stream clustering algorithms face two critical issues: evaluating the relationship among data objects with individual landmark windows of fixed size, and passing useful knowledge from previous landmark windows to the current landmark window. Based on sparse representation techniques, this paper proposes a two-stage sparse representation clustering (TSSRC) method. The novelty of the proposed TSSRC algorithm comes from evaluating the effective relationship among data objects in the landmark windows with an accurate number of clusters. First, the proposed algorithm evaluates the relationship among data objects using sparse representation techniques. The dictionary and sparse representations are iteratively updated by solving a convex optimization problem. Second, the proposed TSSRC algorithm presents a dictionary initialization strategy that seeks representative data objects by making full use of the sparse representation results. This efficiently passes previously learned knowledge to the current landmark window over time. Moreover, the convergence and sparse stability of TSSRC can be theoretically guaranteed in continuous landmark windows under certain conditions. Experimental results on benchmark datasets demonstrate the effectiveness and robustness of TSSRC.

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“…Data stream mining is widely used in various fields such as weather forecasting, power prediction, stock trading, and network intrusion detection. In recent years, research on data streams has received considerable attention with the aim of improving the generalization performance of online learning models to adapt to the real-time distribution of data flow [1]. Since the data distribution of data streams may change over time, that is, there is concept drift, the model needs to be continuously updated to adapt to the new data stream environment [2].…”

Section: Introductionmentioning

confidence: 99%

Research on concept drift data stream classification based on adaptive online broad learning system

Sun,

Guo

2023

Sixth International Conference on Computer Information Science and Application Technology (CISAT 2023)

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Traditional online broad learning system are unable to adapt to dynamic changes in data streams for concept drift data stream classification. To address this issue, this paper proposes an Adaptive Online Broad Learning System (AOBLS) classification algorithm that introduces an adaptive forgetting factor and concept drift detection mechanism. Additionally, this paper proposes a concept drift index to measure the degree of concept drift. By combining the concept drift index and forgetting factor, the model can adaptively adjust the size of the forgetting factor to better handle concept drift. Experimental results demonstrate that the proposed algorithm performs better than similar algorithms in terms of classification accuracy, stability, and concept drift adaptability.

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Dynamic Sparse Subspace Clustering for Evolving High-Dimensional Data Streams

Cited by 14 publications

References 66 publications

Low Rank Representation Subspace Clustering Algorithm Based on Hessian Regularization and Non Negative Constraints

Low Rank Representation Subspace Clustering Algorithm Based on Hessian Regularization and Non Negative Constraints

Two-Stage Sparse Representation Clustering for Dynamic Data Streams

Research on concept drift data stream classification based on adaptive online broad learning system

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