posted on 2024-11-16, 12:13authored byL M Berliner, Noel CressieNoel Cressie, Kenneth Jezek, Yongku Kim, Calvin Lam
Modern studies of the behaviors of glaciers, ice-sheets, and ice-streams rely heavily on both observations and physically based models. Data acquired via remote-sensing provide critical information on geometry and movement of ice over large sections of the Antarctic and Greenland. Though these datasets represent significant advances in terms of spatial coverage and the range of processes we can observe, the physical systems to be modeled are nevertheless incompletely observed. Uncertainties associated with measurement errors are also present. In addition, physical models are also subject to uncertainties. Hence, there is a need for combining observations and models in a fashion that incorporates uncertainty and quantifies its impact on conclusions.
History
Citation
Berliner, L. M., Cressie, N., Jezek, K., Kim, Y. & Lam, C. Q. (2005). Hierarchical Bayesian modeling of the movement of ice streams. In A. Francis, K. M. Matawie, A. Oshlack & G. K. Smyth (Eds.), Statistical solutions to modern problems: proceedings of the 20th International Workshop on Statistical Modelling, Sydney, Australia, July 10-15, 2005 (pp. 3-13). Sydney, Australia: University of Western Sydney.