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Efficient detection of multiple changepoints within an oceanographic time series

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

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Efficient detection of multiple changepoints within an oceanographic time series. / Killick, Rebecca; Eckley, Idris; Jonathan, Philip.
Proceedings of the 58th Session of ISI. ISI, 2011.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Killick, R, Eckley, I & Jonathan, P 2011, Efficient detection of multiple changepoints within an oceanographic time series. in Proceedings of the 58th Session of ISI. ISI. <http://isi2011.congressplanner.eu/pdfs/950304.pdf>

APA

Killick, R., Eckley, I., & Jonathan, P. (2011). Efficient detection of multiple changepoints within an oceanographic time series. In Proceedings of the 58th Session of ISI ISI. http://isi2011.congressplanner.eu/pdfs/950304.pdf

Vancouver

Killick R, Eckley I, Jonathan P. Efficient detection of multiple changepoints within an oceanographic time series. In Proceedings of the 58th Session of ISI. ISI. 2011

Author

Killick, Rebecca ; Eckley, Idris ; Jonathan, Philip. / Efficient detection of multiple changepoints within an oceanographic time series. Proceedings of the 58th Session of ISI. ISI, 2011.

Bibtex

@inproceedings{87778eb0d7e54b6797b92df18de5120c,
title = "Efficient detection of multiple changepoints within an oceanographic time series",
abstract = "We consider the problem of detecting multiple changepoints in large oceanographic data sets. In this setting the amount of data being collected is continually increasing and consequently the number of changepoints will also increase with time. An efficient and accurate analysis of such data is of considerable interest to those working in the energy sector as understanding the characteristics of the ocean environment is central to reliable design and operation of marine and coastal structures. Detecting the presence of changepoints in oceanographic time-series is of particular importance, since statistical and engineering modelling of the ocean environment, structural loading and response typically assumes stationarity of the environment (in time). Drawing on recent work on efficient search methods by Killick et al. (2011), we compare and contrast the eff_ect of diff_erent approaches to this data, focusing in particular on computational and statistical aspects. The talk will conclude by highlighting the importance of such computationally efficient methods in an oceanographic setting.",
keywords = "Changepoint, Oceanography, Search method",
author = "Rebecca Killick and Idris Eckley and Philip Jonathan",
year = "2011",
language = "English",
booktitle = "Proceedings of the 58th Session of ISI",
publisher = "ISI",

}

RIS

TY - GEN

T1 - Efficient detection of multiple changepoints within an oceanographic time series

AU - Killick, Rebecca

AU - Eckley, Idris

AU - Jonathan, Philip

PY - 2011

Y1 - 2011

N2 - We consider the problem of detecting multiple changepoints in large oceanographic data sets. In this setting the amount of data being collected is continually increasing and consequently the number of changepoints will also increase with time. An efficient and accurate analysis of such data is of considerable interest to those working in the energy sector as understanding the characteristics of the ocean environment is central to reliable design and operation of marine and coastal structures. Detecting the presence of changepoints in oceanographic time-series is of particular importance, since statistical and engineering modelling of the ocean environment, structural loading and response typically assumes stationarity of the environment (in time). Drawing on recent work on efficient search methods by Killick et al. (2011), we compare and contrast the eff_ect of diff_erent approaches to this data, focusing in particular on computational and statistical aspects. The talk will conclude by highlighting the importance of such computationally efficient methods in an oceanographic setting.

AB - We consider the problem of detecting multiple changepoints in large oceanographic data sets. In this setting the amount of data being collected is continually increasing and consequently the number of changepoints will also increase with time. An efficient and accurate analysis of such data is of considerable interest to those working in the energy sector as understanding the characteristics of the ocean environment is central to reliable design and operation of marine and coastal structures. Detecting the presence of changepoints in oceanographic time-series is of particular importance, since statistical and engineering modelling of the ocean environment, structural loading and response typically assumes stationarity of the environment (in time). Drawing on recent work on efficient search methods by Killick et al. (2011), we compare and contrast the eff_ect of diff_erent approaches to this data, focusing in particular on computational and statistical aspects. The talk will conclude by highlighting the importance of such computationally efficient methods in an oceanographic setting.

KW - Changepoint

KW - Oceanography

KW - Search method

M3 - Conference contribution/Paper

BT - Proceedings of the 58th Session of ISI

PB - ISI

ER -