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1

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DISCUSSION (1977)

Bobee, B.

Oxford, UK : Blackwell Publishing Ltd

Journal of the American Water Resources Association 13 (1977), S. 0

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ISSN: 1752-1688

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Architecture, Civil Engineering, Surveying , Geography

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1752-1688.1977.tb02070.x

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2

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A METHOD FOR ESTIMATING PEAK WATER DEMAND OF MULTIFAMILY RESIDENCES (1980)

Bobee, B. ; Boucher, P. ; Demard, H.

Oxford, UK : Blackwell Publishing Ltd

Journal of the American Water Resources Association 16 (1980), S. 0

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ISSN: 1752-1688

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Architecture, Civil Engineering, Surveying , Geography

Notes: : The importance of estimating peak water demands for determining the dimensions of pipe size and meters which provide household water to multifamily residences is examined. Several methods utilized in North America and Europe are examined. The analysis makes clear the necessity of studying the peak water demand through statistics based on local data concerning multifamily residences. For different periods of return, the peak demand of a given apartment building is related to its size (the number of apartments) in order to compare the results obtained with existing formula.By use of Ridge-regression technique, the relationship between peak water demand, and building size (number of apartments) and available pressure is established. It can be concluded that peak demand can be estimated with the square root of number of apartment units in the building and the cube root of water pressure.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1752-1688.1980.tb02456.x

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3

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Estimation theory in hydrology and water systems

Bobee, B.

Amsterdam : Elsevier

Journal of Hydrology 163 (1994), S. 195-196

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ISSN: 0022-1694

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Architecture, Civil Engineering, Surveying , Geography , Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0022-1694(94)90029-9

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4

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Towards a systematic approach to comparing distributions used in flood frequency analysis

Bobee, B. ; Cavadias, G. ; Ashkar, F. ; [et al.]

Amsterdam : Elsevier

Journal of Hydrology 142 (1993), S. 121-136

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ISSN: 0022-1694

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Architecture, Civil Engineering, Surveying , Geography , Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0022-1694(93)90008-W

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5

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Parameter estimation for the Pearson type 3 distribution using order statistics (Durans, 1992) - Comment

Rasmussen, P.F. ; Bobee, B. ; Bernier, J.

Amsterdam : Elsevier

Journal of Hydrology 153 (1994), S. 417-424

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ISSN: 0022-1694

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Architecture, Civil Engineering, Surveying , Geography , Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0022-1694(94)90201-1

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6

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The generalized method of moments as applied to the generalized gamma distribution (1988)

Ashkar, F. ; Bobée, B. ; Leroux, D. ; [et al.]

Springer

Stochastic environmental research and risk assessment 2 (1988), S. 161-174

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ISSN: 1436-3259

Keywords: Floods ; estimation ; quantiles ; generalized gamma ; generalized moments ; standard error

Source: Springer Online Journal Archives 1860-2000

Topics: Architecture, Civil Engineering, Surveying , Energy, Environment Protection, Nuclear Power Engineering , Geography , Geosciences

Notes: Abstract The generalized gamma (GG) distribution has a density function that can take on many possible forms commonly encountered in hydrologic applications. This fact has led many authors to study the properties of the distribution and to propose various estimation techniques (method of moments, mixed moments, maximum likelihood etc.). We discuss some of the most important properties of this flexible distribution and present a flexible method of parameter estimation, called the “generalized method of moments” (GMM) which combines any three moments of the GG distribution. The main advantage of this general method is that it has many of the previously proposed methods of estimation as special cases. We also give a general formula for the variance of theT-year eventX T obtained by the GMM along with a general formula for the parameter estimates and also for the covariances and correlation coefficients between any pair of such estimates. By applying the GMM and carefully choosing the order of the moments that are used in the estimation one can significantly reduce the variance ofT-year events for the range of return periods that are of interest.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01550839

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7

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Reply (1989)

Ashkar, F. ; Bobée, B.

Springer

Stochastic environmental research and risk assessment 3 (1989), S. 69-69

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ISSN: 1436-3259

Source: Springer Online Journal Archives 1860-2000

Topics: Architecture, Civil Engineering, Surveying , Energy, Environment Protection, Nuclear Power Engineering , Geography , Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01543429

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8

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Retrospective multivariate Bayesian change-point analysis: A simultaneous single change in the mean of several hydrological sequences (2000)

Perreault, L. ; Parent, É. ; Bernier, J. ; [et al.]

Springer

Stochastic environmental research and risk assessment 14 (2000), S. 243-261

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ISSN: 1436-3259

Source: Springer Online Journal Archives 1860-2000

Topics: Architecture, Civil Engineering, Surveying , Energy, Environment Protection, Nuclear Power Engineering , Geography , Geosciences

Notes: Abstract. Although hydrological time series for different sites in a given region are usually correlated and that climate changes should have a regional impact on water resources, very little has appeared in the literature about multivariate change-point analysis. This paper generalizes the univariate Bayesian approach for the detection of a single shift in the mean level to study a change in the mean-vector of a sequence of multivariate normal vectors. Two different problems are considered: the first one is the estimation of the unknown regional change-point under the hypothesis that a shift occurred, while the second one is the overall assessment of change versus no change. This method is illustrated by an application to streamflow data series for six rivers situated in the Northern Québec Labrador region.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004770000051

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9

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The use of geometric and gamma-related distributions for frequency analysis of water deficit (1992)

Mathier, L. ; Perreault, L. ; Bobée, B. ; [et al.]

Springer

Stochastic environmental research and risk assessment 6 (1992), S. 239-254

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ISSN: 1436-3259

Keywords: Water deficit ; Geometric distribution ; Exponential distribution ; Deficit duration ; Deficit severity

Source: Springer Online Journal Archives 1860-2000

Topics: Architecture, Civil Engineering, Surveying , Energy, Environment Protection, Nuclear Power Engineering , Geography , Geosciences

Notes: Abstract This paper presents an approach to perform statistical frequency analysis of water deficit duration and severity using respectively the geometric and exponential distributions. Monthly mean water discharges are compared to a given threshold and classified in two mutually exclusive ways. This leads to a two state random variable such that: a success represents the absence of a water deficit event (mean monthly discharge exceeds threshold), and a failure, a water deficit event (mean monthly discharge is below threshold). If we suppose that this random variable gives rise to a Markov process of order 1, then the duration of a water deficit event X (consecutive months in deficit) will have a geometric distribution. In turn, the summation of discharges in deficit will give the severity of a water deficit event which can be represented by a one-parameter exponential distribution. The threshold or base level is taken as a percentile of the observed mean discharges of a given month. This base level, which varies from month to month, can be viewed as the limit of an acceptable deficit (or energetic failure) associated to a given empirical probability of being in deficit. The second step of the approach is to estimate the value of the parameter for each distribution using the maximum likelihood method. Expressions for the estimator of a given percentile, $$\hat x_q $$ , as well as its variance are deduced. Finally, the presented models are applied to observed data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01581619

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10

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Two kinds of moment ratio diagrams and their applications in hydrology (1993)

Bobee, B. ; Perreault, L. ; Ashkar, F.

Springer

Stochastic environmental research and risk assessment 7 (1993), S. 41-65

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ISSN: 1436-3259

Keywords: Moment ratio diagrams ; Log-Pearson Type III ; Generalized Gamma ; geometric mean ; harmonic mean

Source: Springer Online Journal Archives 1860-2000

Topics: Architecture, Civil Engineering, Surveying , Energy, Environment Protection, Nuclear Power Engineering , Geography , Geosciences

Notes: Abstract We refocus attention on moment ratio diagrams and their uses in hydrology with four major objectives: (1) to summarize the information available in the literature about possible uses of the traditional moment ratio diagram introduced by Karl Pearson, which uses the coefficient of skewness and of kurtosis to compare the shapes of various distributions commonly used in hydrology; (2) to complete this traditional MRD by integrating into it the regions occupied by the log-Pearson Type III and generalized gamma distributions which are more and more used in hydrology; (3) to present another MRD which uses ratios of moments of orders −1 (harmonic mean), quasi zero (geometric mean) and 1 (arithmetic mean); (4) to stress the need to consider the different MRD's (along with the more recently introduced L-moment ratio diagrams) as complementary tools for choosing between distributions fitted to hydrologic data. Finally, using Monte Carlo simulation we compare the two types of diagrams as tools to identify and discriminate between different distributions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01581566

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