An improved weighted recursive PCA algorithm for adaptive fault detection

A novel weighted adaptive recursive fault detection technique based on Principal Component Analysis (PCA) is proposed to address the issue of the increment in false alarm rate in process monitoring schemes due to the natural, slow and normal process changes (aging), which often occurs in real proces...

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Vydáno v:Control engineering practice Ročník 50; s. 69 - 83
Hlavní autoři: Portnoy, Ivan, Melendez, Kevin, Pinzon, Horacio, Sanjuan, Marco
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.05.2016
Témata:
Algorithms
Complexity
Computation
Delay
Eigenvalue
Eigenvalues
Eigenvector
False alarm
False alarms
Fault detection
PCA
Recursive
Recursivity
Time-drifting
Warp
Time-drifting
Fault detection
Eigenvector
Recursivity
False alarm
Eigenvalue
PCA
ISSN:0967-0661, 1873-6939
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Shrnutí:A novel weighted adaptive recursive fault detection technique based on Principal Component Analysis (PCA) is proposed to address the issue of the increment in false alarm rate in process monitoring schemes due to the natural, slow and normal process changes (aging), which often occurs in real processes. It has been named as weighted adaptive recursive PCA (WARP). The aforementioned problem is addressed recursively by updating the eigenstructure (eigenvalues and eigenvectors) of the statistical detection model when the false alarm rate increases given the awareness of non-faulty condition. The update is carried out by incorporating the new available information within a specific online process dataset, instead of keeping a fixed statistical model such as conventional PCA does. To achieve this recursive updating, equations for means, standard deviations, covariance matrix, eigenvalues and eigenvectors are developed. The statistical thresholds and the number of principal components are updated as well. A comparison between the proposed algorithm and other recursive PCA-based algorithms is carried out in terms of false alarm rate, misdetection rate, detection delay and its computational complexity. WARP features a significant reduction of the computational complexity while maintaining a similar performance on false alarm rate, misdetection rate and detection delay compared to that of the other existing PCA-based recursive algorithms. The computational complexity is assessed in terms of the Floating Operation Points (FLOPs) needed to carry out the update. [Display omitted] •A novel weighted recursive PCA-based fault detection technique is developed.•The false alarm rate in process monitoring due to time-drifting changes is reduced.•Performance of two existing algorithms is compared to the proposed technique.•The computational complexity (FLOPs required for update) is significantly reduced.
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ISSN:0967-0661
1873-6939
DOI:10.1016/j.conengprac.2016.02.010