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Australasian Journal of Water Resources Volume 14, 2010 - Issue 1

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Technical Paper

Régionalisation of Skew for Flood Frequency Analysis: A Case Study for Eastern NSW

K HaddadSchool of Engineering, University of Western Sydney, NSWView further author information

M ZamanSchool of Engineering, University of Western Sydney, NSWView further author information

A RahmanSchool of Engineering, University of Western Sydney, NSWCorrespondence[email protected]
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Pages 33-41 | Received 23 Dec 2009, Accepted 03 May 2010, Published online: 11 Nov 2015

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https://doi.org/10.1080/13241583.2010.11465372

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Cook, R. D. & Weisberg, S. 1982, Residuals and Influence in Regression, Chapman and Hall, New York, 230 pp.
Google Scholar
Cordery, I. & Fernando, W. C. M. 1994, “Effects of record length on the skew of annual flood series”, Proc. Water Down Under, Adelaide, Australia, 21–25 November, pp. 177–180.
Google Scholar
Griffis, V. W. & Stedinger, J. R. 2007, “The use of GLS regression in regional hydrologic analyses”, Journal of Hydrology, Vol. 344, pp. 82–95.
Google Scholar
Gruber, A. M. & Stedinger, J. R. 2008, “Models of LP3 regional skew, data selection and Bayesian GLS regression”, Proc. World Environmental and Water Resources Congress, ASCE.
Google Scholar
Gruber, A. M., Reis, D. S., Jr. & Stedinger, J. R. 2007, “Models of regional skew based on Bayesian GLS regression”, Proc. World Environmental and Water Resources Congress, ASCE.
Google Scholar
Hackelbusch, A., Micevski, M., Kuczera, G., Rahman, A. & Haddad, K. 2009, “Regional flood frequency analysis for eastern NSW: A region of influence approach using generalised least squares log-Pearson 3 parameter regression”, Proc. 32 nd Hydrology and Water resources Symp., Newcastle, 30 November to 3 December, pp. 603–615.
Google Scholar
Haddad, K., Rahman, A. & Weinmann, P. E. 2008, “Development of a Generalised least squares based quantile regression technique for design flood estimation in Victoria”, Proc. 31 st Hydrology and Water Resources Symp., Adelaide, 15–17 April, pp. 2546–2557.
Google Scholar
Hardison, C. H. 1975, “Generalised skew coefficient of annual floods in the United States and their application”, Water Resources Research, Vol. 11, No. 16, pp. 851–854.
Google Scholar
Harvey, F., Doran, D. G., Cordery, I. & Pilgrim, D. H. 1991, “Regional flood frequency characteristics in rural New South Wales”, Intl. Hydrology and Water Resources Symp., Perth, 2–4 October, pp. 775–780.
Google Scholar
Institution of Engineers Australia (IEAust), 1987, Australian Rainfall and Runoff: A Guide to Flood Estimation, Vol. 1, Canberra.
Google Scholar
Interagency Advisory Committee on Water Data (IACWD), 1982, Guidelines for Determining Flood Flow Frequency, Bulletin 17B of the Hydrology Subcommittee, OWDC, US Geological Survey, Reston, VA.
Google Scholar
Kitanidis, P. K. 1997, Introduction to Geostatistics, Applications in Hydrogeology, Cambridge University Press, 249 pp.
Google Scholar
Kuczera, G. & Franks, S. 2005, “At-site Flood Frequency Analysis”, Australian Rainfall and Runoff, Book IV, Draft Chapter 2, School of Engineering, University of Newcastle.
Google Scholar
Madsen, H. & Rosbjerg, D. 1997, “Generalised least squares and empirical Bayes estimation in regional partial duration series index-flood modelling”, Water Resources Research, Vol. 33, No. 4, pp. 771–782.
Google Scholar
Martins, E. S. & Stedinger, J. R. 2002, “Cross-correlation among estimators of shape”, Water Resources Research, Vol. 38, No. 11, doi:10.1029/2002WR001589.2002.
Google Scholar
McMahon, T. A. & Mein, R. G. 1986, River and Reservoir Yield, Water Resources Publication, 368 pp.
Google Scholar
Micevski, T. & Kuczera, G. 2009, “Combining site and regional flood information using a Bayesian Monte Carlo approach”, Water Resources Research, doi:10.1029/2008WR007173.
Google Scholar
Rahman, A., Haddad, K., Kuczera, G. & Weinmann, P. E. 2009, “Regional flood methods for Australia: data preparation and exploratory analysis”, Engineers Australia Report No. P5/S1/003, Project 5, ARR Revision, Canberra.
Google Scholar
Reis, D. S., Jr., Stedinger, J. R & Martins, E. S. 2004, “Operational Bayesian GLS regression for regional hydrologic analysis”, Proc. World Water Congress, ASCE.
Google Scholar
Reis, D. S., Jr., Stedinger, J. R. & Martins, E. S. 2005, “Bayesian generalized least squares regression with application to log Pearson type 3 regional skew estimation”, Water Resources Research, Vol. 41, W10419, doi:10.1029/2004WR003445.
Google Scholar
Siriwardena, L. & Hadgraft, R. 1994, “Regional flood frequency in Victoria”, Proc. Water Down Under, Adelaide, Australia, 21–25 November, pp. 247–252.
Google Scholar
Stedinger, J. R. & Tasker, G. D. 1985, “Regional hydrologic analysis, 1. Ordinary, Weighted, and Generalised Least Squares compared”, Water Resources Research, Vol. 2209, pp. 1421–1432.
Google Scholar
Stedinger, J. R., Vogel, R. M. & Foufoula-Georgiou, E. 1993, “Frequency analysis of extreme events”, Handbook of Hydrology, Maidment, D. R. (editor), McGraw-Hill, New York, Chapter 18.
Google Scholar
Tasker, G. D. & Stedinger, J. R. 1986, “Estimating generalized skew with weighted least squares regression”, Journal of Water Resources Planning and Management, Vol. 112, No. 2, pp. 225–237.
Google Scholar
Tasker, G. D. & Stedinger, J. R. 1989, “An operational GLS model for hydrological regression”, Journal of Hydrology, Vol. 111, No. 1–4, pp. 361–375.
Google Scholar

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