cimpa summer school 2014 random structures, analytic and probabilistic approaches university an...
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![Page 1: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/1.jpg)
CIMPA Summer School 2014
Random structures, analytic and probabilistic approaches
University An Najah, Nablus (Palestine),Nicolas Pouyanne
P
´
olya urn models
– slides –
![Page 2: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/2.jpg)
First steps: histories (1)
On the x-axis, the number of red balls in the urn after n drawings.
On the y-axis, the number of histories of length n.
R = I2 =
✓1 00 1
◆, U0 =
✓25
◆
n = 1 n = 2
Red balls in the original Polya urn I2 after n drawings
![Page 3: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/3.jpg)
First steps: histories (2)
On the x-axis, the number of red balls in the urn after n drawings.
On the y-axis, the number of histories of length n.
R = I2 =
✓1 00 1
◆, U0 =
✓25
◆
n = 1 n = 2 n = 3 n = 10
Red balls in the original Polya urn I2 after n drawings
![Page 4: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/4.jpg)
First steps: histories (3)
On the x-axis, the number of red balls in the urn after n drawings.
On the y-axis, the number of histories of length n.
R = R1 :=
✓1 1211 2
◆, U0 =
✓10
◆
n = 1 n = 2 n = 3 n = 10
Red balls in the small Polya urn R1 after n drawings
![Page 5: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/5.jpg)
First steps: histories (4)
On the x-axis, the number of red balls in the urn after n drawings.
On the y-axis, the number of histories of length n.
R = R2 :=
✓12 12 11
◆, U0 =
✓10
◆
n = 1 n = 2 n = 3 n = 10
Red balls in the large Polya urn R2 after n drawings
![Page 6: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/6.jpg)
First steps: histories (5)
n = 1 n = 2 n = 3 n = 10Red balls in the original Polya urn I2 after n drawings, initial composition (2, 5)
n = 1 n = 2 n = 3 n = 10Red balls in the small urn R1 after n drawings, initial composition (1, 0)
n = 1 n = 2 n = 3 n = 10Red balls in the large urn R2 after n drawings, initial composition (1, 0)
![Page 7: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/7.jpg)
First steps: trajectories (1)
On the x-axis, the number of drawings up to N ;
On the y-axis, the number U(1)n
of red balls in the urn.
R = I2 =
✓1 00 1
◆, U0 =
✓25
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in an original Polya urn I2
![Page 8: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/8.jpg)
First steps: trajectories (2)
On the x-axis, the number of drawings up to N ;
On the y-axis, the number U(1)n
of red balls in the urn.
R = R1 :=
✓1 1211 2
◆, U0 =
✓10
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in an small urn R1
![Page 9: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/9.jpg)
First steps: trajectories (3)
On the x-axis, the number of drawings up to N ;
On the y-axis, the number U(1)n
of red balls in the urn.
R = R2 :=
✓12 12 11
◆, U0 =
✓10
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in an large urn R2
![Page 10: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/10.jpg)
First steps: trajectories (4)
N = 100 N = 1000 N = 50000Red balls in three sequences of N drawings in an original Polya urn I2
N = 100 N = 1000 N = 50000Red balls in three sequences of N drawings in a small urn R1
N = 100 N = 1000 N = 50000Red balls in three sequences of N drawings in a large urn R2
![Page 11: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/11.jpg)
Original Polya urn: trajectories (1)
Theorem 1 (Polya original urn)
Suppose that the urn is Polya’s original one, i.e. that R = I2. Then, as n
tends to infinity,
U
n
Sn
�!n!1
D
almost surely and in any Lp
, p � 1, where D is a Dirichlet distributed
2-dimensional random vector with parameter
✓↵
S
,
�
S
◆.
Normalized number of red balls 1n
U
(1)n
in three sequences of 100 drawings
in an original Polya urn I2,
initial composition (2, 5).
![Page 12: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/12.jpg)
Original Polya urn: trajectories (2)
On the x-axis, the number of drawings up to N ;
On the y-axis, the normalised number of red balls 1n
U
(1)n
.
R = I2 =
✓1 00 1
◆, U0 =
✓25
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in an original Polya urn I2
![Page 13: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/13.jpg)
Original Polya urn: asymptotic distribution
R = I2 =
✓1 00 1
◆, U0 =
✓25
◆
Interpolated distribution of the normalised
number of red balls in a Polya urn I2
after n=200 drawings.
On the x-axis: 1n
⇣U
(1)n
� EU
(1)n
⌘.
On the y-axis, probability.
Density of a centered
Beta (2, 5) distribution.
![Page 14: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/14.jpg)
Small urn: trajectories (1)
Theorem 2 (Small urns)
Suppose that the urn is small, which means that � < 1/2. Then as n
tends to infinity,
(i)
U
n
n
converges to v1, almost surely and in any Lp
, p � 1;
(ii) assume further that R is not triangular. Then,
U
n
� nv1pn
converges in
distribution to a centered gaussian vector [+formula covariance].
Normalised number of red balls 1n
U
(1)n
in three sequences of 100 drawings
in an small urn R1 =
✓1 1211 2
◆,
initial composition (1, 0).
![Page 15: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/15.jpg)
Small urn: trajectories (2)
On the x-axis, the number of drawings up to N ;
On the y-axis, the normalised number of red balls 1n
U
(1)n
.
R = R1 =
✓1 1211 2
◆, U0 =
✓10
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in a small urn R1
![Page 16: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/16.jpg)
Small urn: trajectories (3)
Theorem 3 (Small urns)
Suppose that the urn is small, which means that � < 1/2. Then as n
tends to infinity,
(i)
U
n
n
converges to v1, almost surely and in any Lp
, p � 1;
(ii) assume further that R is not triangular. Then,
U
n
� nv1pn
converges in
distribution to a centered gaussian vector [+formula covariance].
Completely normalised number of red
balls 1pn
⇣U
(1)n
� EU
(1)n
⌘in three
sequences of 100 drawings in an small urn
R1 =
✓1 1211 2
◆, initial composition (1, 0).
![Page 17: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/17.jpg)
Small urn: trajectories (4)
On the x-axis, the number of drawings up to N ;
On the y-axis, the completely normalised number of red balls 1pn
⇣U
(1)n
� EU
(1)n
⌘.
R = R1 =
✓1 1211 2
◆, U0 =
✓10
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in a small urn R1
![Page 18: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/18.jpg)
Small urn: asymptotic distribution
R = R1 =
✓1 1211 2
◆, U0 =
✓10
◆
Distribution of the normalised number
of red balls in a small urn R1 after
n=600 drawings.
On the x-axis: 1pn
⇣U
(1)n
� EU
(1)n
⌘.
On the y-axis, probability.
Density of a centered normal
distribution with variance1
1�2�bcm
2
(b+c)2= 5200
529 .
![Page 19: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/19.jpg)
Large urn: trajectories (1)
Theorem 4 (Large urns)
Suppose that the urn is large, which means that 1/2 < � < 1. Then as
n tends to infinity,
(i)
U
n
n
converges to v1, almost surely and in any Lp
, p � 1;
(ii)
U
n
� nv1
n
�
converges almost surely and in any Lp
, p � 1 to Wv2 where
W is a real-valued random variable [+formula expectation].
Normalised number of red balls 1n
U
(1)n
in three sequences of 100 drawings
in an large urn R2 =
✓12 12 11
◆,
initial composition (1, 0).
![Page 20: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/20.jpg)
Large urn: trajectories (2)
On the x-axis, the number of drawings up to N ;
On the y-axis, the normalised number of red balls 1n
U
(1)n
.
R = R2 =
✓12 12 11
◆, U0 =
✓10
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in a small urn R1
![Page 21: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/21.jpg)
Large urn: trajectories (3)
Theorem 5 (Large urns)
Suppose that the urn is large, which means that 1/2 < � < 1. Then as
n tends to infinity,
(i)
U
n
n
converges to v1, almost surely and in any Lp
, p � 1;
(ii)
U
n
� nv1
n
�
converges almost surely and in any Lp
, p � 1 to Wv2 where
W is a real-valued random variable [+formula expectation].
Completely normalised number of red
balls1
n
�
⇣U
(1)n
� EU
(1)n
⌘in three
sequences of 100 drawings in an large urn
R2 =
✓12 12 11
◆, initial composition (1, 0).
![Page 22: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/22.jpg)
Large urn: trajectories (4)
On the x-axis, the number of drawings up to N ;
On the y-axis, the completely normalised number of red balls1
n
�
⇣U
(1)n
� EU
(1)n
⌘.
R = R2 =
✓12 12 11
◆, U0 =
✓10
◆
N = 100 N = 1000 N = 50000
Red balls in three sequences of N drawings in a small urn R1
![Page 23: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/23.jpg)
Large urn: asymptotic distribution (1)
R = R2 =
✓12 12 11
◆, U0 =
✓10
◆
Distribution of the normalised number
of red balls in a large urn R1 after
n=800 drawings.
On the x-axis:1
n
�
⇣U
(1)n
� EU
(1)n
⌘.
On the y-axis, probability.
?
B. Chauvin et N. Pouyanne, UVSQ 2014, LSMA523 1/3
What is this law ?
![Page 24: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/24.jpg)
Large urn: asymptotic distribution (2)
The distribution W of a large urn depends on the initial composition.
R = R2 =
✓12 12 11
◆
(↵, �) = (1, 0) (↵, �) = (1, 1) (↵, �) = (2, 1)
Normalised distribution of the number of red balls in a large urn R2
after 500 drawings, initial composition (↵, �)
![Page 25: CIMPA Summer School 2014 Random structures, analytic and probabilistic approaches University An Najah, Nablus …pouyanne.perso.math.cnrs.fr/slidesNaplouse2014.pdf · University An](https://reader033.vdocuments.net/reader033/viewer/2022060712/60789b241a2189155601cec3/html5/thumbnails/25.jpg)
Polya, small or large: a brief resume
U
(1)n
1n
U
(1)n
1
n
⇤
⇣U
(1)n
� nv
(1)1
⌘Asympt. distribution
Polya
- - -
B. Chauvin et N. Pouyanne, UVSQ 2014, LSMA523 1/3
Beta
Small Gauss
Large ???