Abstract
This manuscript makes two contributions to the field of change-point detection. In a general change-point setting, we provide a generic algorithm for aggregating local homogeneity tests into an estimator of change-points in a time series. Interestingly, we establish that the error rates of the collection of tests directly translate into detection properties of the change-point estimator. This generic scheme is then applied to various problems including covariance change-point detection, nonparametric change-point detection and sparse multivariate mean change-point detection. For the latter, we derive minimax optimal rates that are adaptive to the unknown sparsity and to the distance between change-points when the noise is Gaussian. For sub-Gaussian noise, we introduce a variant that is optimal in almost all sparsity regimes.
Funding Statement
The work of A. Carpentier is partially supported by the Deutsche Forschungsgemeinschaft (DFG) Emmy Noether grant MuSyAD (CA 1488/1-1), by the DFG – 314838170, GRK 2297 MathCoRe, by the FG DFG, by the DFG CRC 1294 ‘Data Assimilation’, Project A03, by the Forschungsgruppe FOR 5381 “Mathematical Statistics in the Information Age – Statistical Efficiency and Computational Tractability”, Project TP 02, by the Agence Nationale de la Recherche (ANR) and the DFG on the French-German PRCI ANR ASCAI CA 1488/4-1 “Aktive und Batch-Segmentierung, Clustering und Seriation: Grundlagen der KI” and by the UFA-DFH through the French-German Doktorandenkolleg CDFA 01-18 and by the SFI Sachsen-Anhalt for the project RE-BCI. The work of E. Pilliat and N. Verzelen has been partially supported by ANR-21-CE23-0035 (ASCAI).
Acknowledgments
The authors are grateful to two anonymous referees for their helpful comments that improved the presentation of the manuscript.
Citation
Emmanuel Pilliat. Alexandra Carpentier. Nicolas Verzelen. "Optimal multiple change-point detection for high-dimensional data." Electron. J. Statist. 17 (1) 1240 - 1315, 2023. https://doi.org/10.1214/23-EJS2126
