References
- Boughton, W., A simple model for estimating the water yield of ungauged catchments, Civil Eng. Trans., Institution of Eng, Aust., CE26(2), 83–88, 1984.
- Boughton, W., Srikanthan, S. and Weinmann, Benchmarking a new flood estimation system, Australian Journal of Water Resources, 6(1), 45–51, 2002.
- Cowpertwait, P.S.P., O’Connell, P.E., Metcalfe, A.V. and Mawdsley, J.A., Stochastic point process modelling of rainfall: I. Single-site fitting and validation, J. Hydrology, 175, 17–46, 1996a.
- Cowpertwait, P.S.P., O’Connell, P.E., Metcalfe, A.V. and Mawdsley, J.A., Stochastic point process modelling of rainfall: I. Regionalisation and disaggregation, J. Hydrology, 175, 47–65, 1996b.
- Eagleson, P.S., Dynamics of flood frequency, Water Resources Research, 8(4), 878–898, 1972.
- Frost, A., Jennings, S., Thyer, M., Lambert, M. and Kuczera, G., Incorporating long-term climate variability into a short-timescale rainfall model using a hidden state Markov model, Australian Journal of Water Resources, 6(1), 63–70, 2002.
- Heneker, T.M., Lambert, M.F. and Kuczera, G., A point rainfall model for risk-based design, Journal of Hydrology, 247(1–2), 54–71, 2001.
- Heneker, T., Lambert, M. and Kuczera, G., Overcoming the joint probability problem associated with initial loss estimation in design flood estimation, Hydrology and Water Resources Symposium, Institution of Engineers, Australia, May 2002.
- Hill P.I., and Mein R.G. Incompatibilities between storm temporal patterns and losses for design flood estimation. 23rd Hydrology and Water Resources Symposium, Hobart, 445–451, 1996.
- Hill P.I., Mein R.G. and Weinmann, E. Development and testing of new design losses for South-Eastern Australia, 24th Hydrology and Water Resources Symposium, Auckland. 445–451, 71–76, 1997.
- Iacobellis, V. and Fiorentino, M., Derived distribution of floods based on the concept of partial area coverage with a climatic appeal, Water Resource Research, 36(2), 469–482, 2000.
- Institution of Engineers, Australia, Australian Rainfall and Runoff: A Guide to Flood Estimation, Vol. 1, D.H. Pilgrim (ed), Canberra, 1987.
- Jennings, S., Lambert, M.L., Frost, A. and Kuczera, G., Regionalisation of a High Resolution Point Rainfall Model, 27th Hydrology and Water Resources Sym, Inst. Eng. Aust., Melbourne, 2002.
- Kuczera, G. and Coombes, P., Towards continuous simulation: A comparative assessment of flood performance of volume-sensitive systems, Proc. 6th Regional Conference on Urban Stormwater Management, Stormwater Industry Association, Orange, NSW, April 2002.
- Lawrence, I. and Breen, P., Urban waterways in Australian Runoff Quality (Draft version), ed. Wong, T., Institution of Engineers, Australia, 2003.
- Pilgrim, D.H., Cordery, I. and French, R., Temporal patterns of design rainfall for Sydney. Civ. Engg Trans. Inst. Engrs Aust., Vol. CE11, pp. 9–14, 1969.
- Rahman, A., Weinmann, P.E., Hoang, T.M.T and Laurenson, E.M., Monte Carlo simulation of flood frequency curves, J. Hydrology, 256(3–4), 196–210, 2002.
- Rigby E.H., and Bannigan D.J. (1996). The embedded design storm – a critical review. 23rd Hydrology and Water Resources Symposium. Hobart.
- Sherman, C.W., Maximum rates of rainfall at Boston, Trans. Am. Soc. Civil Eng., LIV:173–181, 1905.
- Walsh, M.A., Pilgrim, D.H. and Cordery, I., Initial losses for design flood estimation in New South Wales, Hydrology and Water Resources Sym., Inst. Eng. Aust., Perth, p. 283–288, 1991.
- Weinmann, P.E., Rahman, A., Hoang, T.M.T., Laurenson, E.M. and Nathan, R.J., Monte Carlo simulation of flood frequency curves from rainfall – The way ahead, Australian Journal of Water Resources, 6(1), 71–80, 2002.
- Wheater, H.S., Isham, V.S., Cox, D.R., Chandler, R.E., Kakou, A., Northrop, P.J., Oh, L., Onof, C. and Rodriguez-Iturbe, I., Spatial-temporal rainfall fields: Modelling and statistical aspects, Hydrology and Earth Systems Science, 4(4), 581–601, 2000.