An autoregressive model for analysis of ice sheet elevation change time series

Adam C Ferguson; Curt H Davis; Joseph E Cavanaugh

doi:10.1109/TGRS.2004.836788

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An autoregressive model for analysis of ice sheet elevation change time series

Journal article

Peer reviewed

An autoregressive model for analysis of ice sheet elevation change time series

Adam C Ferguson, Curt H Davis and Joseph E Cavanaugh

IEEE transactions on geoscience and remote sensing, Vol.42(11), pp.2426-2436

11/2004

DOI: 10.1109/TGRS.2004.836788

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Abstract

In this paper, we present an autoregressive model that can effectively characterize both seasonal and interannual variations in ice sheet elevation change time series constructed from satellite radar or laser altimeter data. The AR model can be used in conjunction with weighted least squares regression to accurately estimate any longer term linear trend present in the cyclically varying elevation change time series. This approach is robust in that it can account for seasonal and interannual elevation change variations, missing points in the time series, signal aperiodicity, time series heteroscedasticity, and time series with a noninteger number of yearly cycles. In addition, we derive a theoretically valid estimate of the uncertainty (standard error) in the long-term linear trend. Monte Carlo simulations were conducted that closely emulated actual characteristics of five-year elevation change time series from Antarctica. The Monte Carlo results indicate that the autoregressive approach yields long-term linear trends that are less biased than two other approaches that have been recently used for analysis of ice sheet elevation change time series. In addition, the simulation results demonstrate that the variability (uncertainty) of the long-term linear trend estimates from the AR approach is in very good agreement with the derived theoretical standard error estimates.

altimetry

annual variations

Antarctica

autoregression

elevation

glacial geology

ice sheets

Monte Carlo analysis

Quaternary geology

regression analysis

remote sensing

satellite methods

seasonal variations

statistical analysis

time series analysis

Details

Title: Subtitle: An autoregressive model for analysis of ice sheet elevation change time series
Creators: Adam C Ferguson - National Nuclear Security Administration, Radar Engineering Department Kansas City, MO USA United States
Curt H Davis - University of Missouri-Columbia USA United States
Joseph E Cavanaugh - University of Iowa USA United States
Resource Type: Journal article
Publication Details: IEEE transactions on geoscience and remote sensing, Vol.42(11), pp.2426-2436
DOI: 10.1109/TGRS.2004.836788
ISSN: 0196-2892
eISSN: 1558-0644
Publisher: IEEE Geoscience and Remote Sensing Society
Language: English
Date published: 11/2004
Academic Unit: Statistics and Actuarial Science; Biostatistics; Injury Prevention Research Center
Record Identifier: 9984214957402771

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