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![Page 1: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/1.jpg)
STOCHASTIC HYDROLOGYStochastic Simulation ofBivariate Distributions
Professor Ke-Sheng ChengDepartment of Bioenvironmental Systems Engineering
National Taiwan University
Bivariate normalBivariate exponential
Bivariate gamma
![Page 2: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/2.jpg)
• Unlike the univariate stochastic simulation, bivariate simulation not only needs to consider the marginal densities but also the covariation of the two random variables.
05/03/23 2Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 3: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/3.jpg)
Bivariate normal simulation I. Using conditional density
• Joint density
where and and are respectively the mean vector and covariance matrix of X1 and X2.
1
21
21
2
1)(
XXeX
)( 21 XXX T
05/03/23 3Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 4: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/4.jpg)
• Conditional density
where i and i (i = 1, 2) are respectively the mean and standard deviation of Xi, and is the correlation coefficient between X1 and X2.
2
22
111
222
22122
1
)()(
21exp
)1(21)|(
xxxxXf
05/03/23 4Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 5: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/5.jpg)
• The conditional distribution of X2 given X1=x1 is also a normal distribution with mean and standard deviation respectively equal to and .
• Random number generation of a BVN distribution can be done by – Generating a random sample of X1, say
.
– Generating corresponding random sample of X2| x1, i.e. , using the conditional density.
111
22
x 2
2 1
),,,( 11211 nxxx
),,,( 22221 nxxx
05/03/23 5Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Bivariate normal simulation II. Using the PC Transformation
05/03/23 6Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 7: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/7.jpg)
05/03/23 7Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 8: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/8.jpg)
Stochastic simulation of bivariate gamma distribution
• Importance of the bivariate gamma distribution–Many environmental variables are non-
negative and asymmetric.– The gamma distribution is a special case of the
more general Pearson type III distribution.– Total depth and storm duration have been
found to be jointly distributed with gamma marginal densities.
05/03/23 8Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 9: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/9.jpg)
• Many bivariate gamma distribution models are difficult to be implemented to solve practical problems, and seldom succeeded in gaining popularity among practitioners in the field of hydrological frequency analysis (Yue et al., 2001).
• Additionally, there is no agreement about what the multivariate gamma distribution should be and in practical applications we often only need to specify the marginal gamma distributions and the correlations between the component random variables (Law, 2007).
05/03/23 9Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 10: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/10.jpg)
• Simulation of bivariate gamma distribution based on the frequency factor which is well-known to scientists and engineers in water resources field. – The proposed approach aims to yield random
vectors which have not only the desired marginal distributions but also a pre-specified correlation coefficient between component variates.
05/03/23 10Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 11: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/11.jpg)
Rationale of BVG simulation using frequency factor
• From the view point of random number generation, the frequency factor can be considered as a random variable K, and KT is a value of K with exceedence probability 1/T.
• Frequency factor of the Pearson type III distribution can be approximated by
543
2
232
631
661
66
31
61
XXX
XXT
zz
zzzzK
[A]
Standard normal deviate
05/03/23 11Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 12: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/12.jpg)
05/03/23 12Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 13: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/13.jpg)
• General equation for hydrological frequency analysis
XTXT KX
05/03/23 13Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 14: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/14.jpg)
• The gamma distribution is a special case of the Pearson type III distribution with a zero location parameter. Therefore, it seems plausible to generate random samples of a bivariate gamma distribution based on two jointly distributed frequency factors.
543
2
232
631
661
66
31
61
XXX
XXT
zz
zzzzK
[A]
05/03/23 14Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 15: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/15.jpg)
Gamma density
xexxf xX 0,
)(1),;( /
1
0
022
0
2
05/03/23 15Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 16: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/16.jpg)
543
22
32
631
661
66
31
61
XXXXX
T zzzzzzK
• Assume two gamma random variables X and Y are jointly distributed.
• The two random variables are respectively associated with their frequency factors KX and KY .
• Equation (A) indicates that the frequency factor KX of a random variable X with gamma density is approximated by a function of the standard normal deviate and the coefficient of skewness of the gamma density.
05/03/23 16Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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543
22
32
631
661
66
31
61
XXXXX
T zzzzzzK
05/03/23 17Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 18: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/18.jpg)
• Thus, random number generation of the second frequency factor KY must take into consideration the correlation between KX and KY which stems from the correlation between U and V.
05/03/23 18Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 19: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/19.jpg)
Conditional normal density
• Given a random number of U, say u, the conditional density of V is expressed by the following conditional normal density
with mean and variance .
)|(| uUvUV
2
22 121exp
)1(21
UV
UV
UV
uv
uUV 21 UV
05/03/23 19Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 20: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/20.jpg)
)|(| uUvUV
2
22 121exp
)1(21
UV
UV
UV
uv
05/03/23 20Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 21: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/21.jpg)
XX KX
05/03/23 21Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Flowchart of BVG simulation (1/2)
05/03/23 22Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 23: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/23.jpg)
Flowchart of BVG simulation (2/2)
05/03/23 23Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 24: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/24.jpg)
05/03/23 24Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Conversion ~ UVXY
32 62
933
UVYXUVYX
UVYXYXYXYXXY
CCBB
CCACCAAA
4
61
X
XA 3
66
XX
XB
2
631
X
XC
4
61
Y
YA 3
66
YY
YB 2
631
Y
YC
[B]
05/03/23 25Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 26: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/26.jpg)
05/03/23 26Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 27: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/27.jpg)
05/03/23 27Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 28: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/28.jpg)
• Frequency factors KX and KY can be respectively approximated by
where U and V both are random variables with standard normal density and are correlated with correlation coefficient .
543
22
32
631
661
66
31
61
XXXXX
X UUUUUUK
543
22
32
631
661
66
31
61
YYYYY
Y VVVVVVK
UV
05/03/23 28Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 29: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/29.jpg)
• Correlation coefficient of KX and KY can be derived as follows:
YXYXKK KKEKKCovYX
),(
543
22
32
5432
232
631
661
66
31
61
631
661
66
31
61
YYYYY
XXXXX
VVVVVV
UUUUUU
E
05/03/23 29Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 30: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/30.jpg)
52
33
24
631
66
31
661
61
XXXXX
X UUUUK
XXXX DUUCUBUA 61 32
52
33
24
631
66
31
661
61
YYYYY
Y VVVVK
YYYY DVVCVBVA 61 32
5234
631,
631,
66,
61
X
XX
XXX
XX
X DCBA
5234
631,
631,
66,
61
Y
YY
YYY
YY
Y DCBA
05/03/23 30Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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YXYXYXYX
YXYX
YXYX
YXYX
YXYXYX
YXYXYX
YX
DDVVCDVBDVAD
UUDCVVUUCC
VUUBCVUUAC
UDBVVUCB
VUBBUVABUDA
VVUCAVUBAUVAA
E
KKE
61
666
166
161
111
61
32
333
233
232
222
32
05/03/23 31Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Since KX and KY are distributed with zero means, it follows that
YXKKE
YXYXYX
YXYXYX
DDVVUUCCVUUAC
VUBBVVUCAUVAAE
666
116333
223
XXXXXX DDUUCUBUAEKE 61][ 32
0 YX DD
05/03/23 32Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
![Page 33: STOCHASTIC HYDROLOGY Stochastic Simulation of Bivariate Distributions Professor Ke-Sheng Cheng Department of Bioenvironmental Systems Engineering National.](https://reader036.fdocuments.in/reader036/viewer/2022081605/5a4d1ad07f8b9ab059971364/html5/thumbnails/33.jpg)
VVUUCCVUUAC
VUBBVVUCAUVAAE
KKE
YXYX
YXYXYX
YXKK YX
666
116333
223
16 223 VUEBBUVECAAA YXUVYXUVYX
UVYX
UVYX
VUEUVEVUECC
VUEAC
3666
63333
3
05/03/23 33Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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• It can also be shown that
Thus,
12 222 UVVUE UVUVVUE 96 333
UVUVEVUE 333
32 62
933
UVYXUVYX
UVYXYXYXYXKKXY
CCBB
CCACCAAAYX
05/03/23 34Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 35Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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ipRelationsh Value-Single ~ UVXY
We have also proved that Eq. (B) is indeed a single-value function.
05/03/23 36Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Proof of Eq. (B) as a single-value function
05/03/23 37Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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• Therefore,
YXYXYXYX CCACCAAA 933
222222
61
661
6YYXX
05/03/23 38Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 39Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 40Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 41Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 42Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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• The above equation indicates increases with increasing , and thus Eq. (B) is a single-value function.
XYUV
05/03/23 43Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Simulation and validation • We chose to base our simulation on real
rainfall data observed at two raingauge stations (C1I020 and C1G690) in central Taiwan.
• Results of a previous study show that total rainfall depth (in mm) and duration (in hours) of typhoon events can be modeled as a joint gamma distribution.
05/03/23 44Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Statistical properties of typhoon events at two raingauge stations
05/03/23 45Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Assessing simulation results
• Variation of the sample means with respect to sample size n.
• Variation of the sample skewness with respect to sample size n.
• Variation of the sample correlation coefficient with respect to sample size n.
• Comparing CDF and ECDF• Scattering pattern of random samples
05/03/23 46Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Variation of the sample means with respect to sample size n.
10,000 samples
05/03/23 47Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Variation of the sample skewness with respect to sample size n.
10,000 samples
05/03/23 48Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Variation of the sample correlation coefficient with respect to sample size n.
10,000 samples
05/03/23 49Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Comparing CDF and ECDF
05/03/23 50Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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A scatter plot of simulated random samples with inappropriate pattern (adapted from Schmeiser and Lal,
1982).
05/03/23 51Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Scattering of random samples
05/03/23 52Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Feasible region of XY
05/03/23 53Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 54Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 55Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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05/03/23 56Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Joint BVG Density • Random samples generated by the
proposed approach are distributed with the following joint PDF of the Moran bivariate gamma model:
)1(2)(2)(exp
),;(),;(1
1),(
2
22
2
UV
UVUVUV
yyYxxX
UV
XY
vuvu
yfxfyxf
)],;([1xxX xFu )],;([1
yyY yFv
05/03/23 57Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Stochastic Simulation of Bivariate Exponential Distribution• A bivariate exponential distribution simulation
algorithm was proposed by Marshall and Olkin (1967).
• Let X and Y be two jointly distributed exponenttial random variables. The joint exponential distribution function of Marshall and Olkin model (MOBED) has the following form:
Marshall, A.W. & Olkin, I. 1967. A Generalized Bivariate Exponential Distribution. Journal of Applied Probability, Vol. 4, 291-302.
05/03/23 58Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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where 1, 2 and 12 are parameters. The expected values of X and Y and the correlation coefficient (X,Y) are expressed by
0 , )(exp0 , )(exp
),(2121
1221,
xyyxyxyx
yxF YX
121
1
X122
1
Y
1221
12),(
YX
05/03/23 59Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Simulation of the bivariate exponential distribution of Equation (1) is achieved by independently generating random numbers of three univariate exponential densities (Z1, Z2, and Z12) with parameters 1, 2 and 12, respectively. Then a pair of random number of (X,Y) is obtained by setting
x=min(z1, z12) and y=min(z2, z12).
05/03/23 60Laboratory for Remote Sensing Hydrology and Spatial Modeling, Dept of Bioenvironmental Systems Engineering, National Taiwan Univ.
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Another example – target cancer risk
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Modeling MCSinorg – Log-normal
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Cumulative distribution of the target cancer risk
There is no need for stochastic simulation since the risk is completely dependent on only one random variable (MCS). Once the parameters of MCS are determined, the distribution of TR is completely specified.