Quantifying deviations from structural assumptions in the analysis of nonstationary function-valued processes: a general framework

08/22/2022
by   Anne van Delft, et al.
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We present a general theory to quantify the uncertainty from imposing structural assumptions on the second-order structure of nonstationary Hilbert space-valued processes, which can be measured via functionals of time-dependent spectral density operators. The second-order dynamics are well-known to be elements of the space of trace-class operators, the latter is a Banach space of type 1 and of cotype 2, which makes the development of statistical inference tools more challenging. A part of our contribution is to obtain a weak invariance principle as well as concentration inequalities for (functionals of) the sequential time-varying spectral density operator. In addition, we derive estimators of the deviation measures in the nonstationary context that are asymptotically pivotal. We then apply this framework to the analysis of nonstationary response surface data, and propose statistical methodology to investigate the validity of structural assumptions such as low-rank assumptions in the context of time-varying fPCA and time-varying principle separable component analysis, deviations from stationarity with respect to the square root distance, and deviations from zero functional canonical coherency.

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