G.W. Irwin scite author profile

This paper introduces a fast algorithm for moving window principal component analysis (MWPCA) which will adapt a principal component model. This incorporates the concept of recursive adaptation within a moving window to (i) adapt the mean and variance of the process variables, (ii) adapt the correlation matrix, and (iii) adjust the PCA model by recomputing the decomposition. This paper shows that the new algorithm is computationally faster than conventional moving window techniques, if the window size exceeds 3 times the number of variables, and is not affected by the window size. A further contribution is the introduction of an N-step-ahead horizon into the process monitoring. This implies that the PCA model, identified N-steps earlier, is used to analyze the current observation. For monitoring complex chemical systems, this work shows that the use of the horizon improves the ability to detect slowly developing drifts.

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Model selection approaches for non-linear system identification: a review

Hong

Mitchell

Chen

et al. 2008

International Journal of Systems Science

206

142

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COLREGs-based collision avoidance strategies for unmanned surface vehicles

2012

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Multiple model bootstrap filter for maneuvering target tracking

McGinnity

Irwin

2000

IEEE Trans. Aerosp. Electron. Syst.

177

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G.W. Irwin

A review on improving the autonomy of unmanned surface vehicles through intelligent collision avoidance manoeuvres

Process Monitoring Approach Using Fast Moving Window PCA

Model selection approaches for non-linear system identification: a review

COLREGs-based collision avoidance strategies for unmanned surface vehicles

Multiple model bootstrap filter for maneuvering target tracking

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