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Article citationsMore>>

Smol, J.P., Wolfe, A.P., Birks, H.J.B, Douglas, M.S.V., Jones, V.J., Korhola, A., Pienitz, R., Rühland, K., Sorvari, S., Antoniades, D., Brooks, S.J., Fallu, M.-A., Hughes, M., Keatley, B.E., Laing, T.E., Michelutti, N., Nazarova, L., Nyman, M., Paterson, A.M., Perren, B., Quinlan, R., Rautio, M., Saulnier-Talbot, É., Siitonen, S., Solovieva, N. and Weckström, J. (2005) Climate-Driven Regime Shifts in the Biological Communities of Arctic Lakes. Proceedings of the National Academy of Sciences of the United States of America, 102, 4397-4402.
https://doi.org/10.1073/pnas.0500245102

has been cited by the following article:

  • TITLE: Rolling Gaussian Process Regression with Application to Regime Shifts

    AUTHORS: William Menke

    KEYWORDS: Rolling Gaussian Process Regression, Regime Shift, Moving Window Analysis, Woodbury Identity, Bordering Method

    JOURNAL NAME: Applied Mathematics, Vol.13 No.11, November 9, 2022

    ABSTRACT: Gaussian Process Regression (GPR) can be applied to the problem of estimating a spatially-varying field on a regular grid, based on noisy observations made at irregular positions. In cases where the field has a weak time dependence, one may desire to estimate the present-time value of the field using a time window of data that rolls forward as new data become available, leading to a sequence of solution updates. We introduce “rolling GPR” (or moving window GPR) and present a procedure for implementing that is more computationally efficient than solving the full GPR problem at each update. Furthermore, regime shifts (sudden large changes in the field) can be detected by monitoring the change in posterior covariance of the predicted data during the updates, and their detrimental effect is mitigated by shortening the time window as the variance rises, and then decreasing it as it falls (but within prior bounds). A set of numerical experiments is provided that demonstrates the viability of the procedure.

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