Modélisation d'un phénomène pluvieux local et analyse de son transfert vers la nappe phréatique / Modeling a local phenomenon rainy and analysis of its transfer to groundwater

Golder, Jacques

24 July 2013

Dans le cadre des recherches de la qualité des ressources en eau, l’étude du processus de transfert de masse du sol vers la nappe phréatique constitue un élément primordial pour la compréhension de la pollution de cette dernière. En effet, les éléments polluants solubles à la surface (produits liés aux activités humaines tels engrais, pesticides...) peuvent transiter vers la nappe à travers le milieu poreux qu’est le sol. Ce scénario de transfert de pollution repose sur deux phénomènes : la pluie qui génère la masse d’eau à la surface et la dispersion de celle-ci à travers le milieu poreux. La dispersion de masse dans un milieu poreux naturel comme le sol forme un sujet de recherche vaste et difficile aussi bien au plan expérimental que théorique. Sa modélisation constitue une préoccupation du laboratoire EMMAH, en particulier dans le cadre du projet Sol Virtuel dans lequel un modèle de transfert (modèle PASTIS) a été développé. Le couplage de ce modèle de transfert avec en entrée un modèle décrivant la dynamique aléatoire de la pluie est un des objectifs de la présente thèse. Ce travail de thèse aborde cet objectif en s’appuyant d’une part sur des résultats d’observations expérimentaux et d’autre part sur de la modélisation inspirée par l’analyse des données d’observation. La première partie du travail est consacrée à l’élaboration d’un modèle stochastique de pluie. Le choix et la nature du modèle sont basés sur les caractéristiques obtenus à partir de l’analyse de données de hauteur de pluie recueillies sur 40 ans (1968-2008) sur le Centre de Recherche de l’INRA d’Avignon. Pour cela, la représentation cumulée des précipitations sera assimilée à une marche aléatoire dans laquelle les sauts et les temps d’attente entre les sauts sont respectivement les amplitudes et les durées aléatoires entre deux occurrences d’événements de pluie. Ainsi, la loi de probabilité des sauts (loi log-normale) et celle des temps d’attente entre les sauts (loi alpha-stable) sont obtenus en analysant les lois de probabilité des amplitudes et des occurrences des événements de pluie. Nous montrons alors que ce modèle de marche aléatoire tend vers un mouvement brownien géométrique subordonné en temps (quand les pas d’espace et de temps de la marche tendent simultanément vers zéro tout en gardant un rapport constant) dont la loi de densité de probabilité est régie par une équation de Fokker Planck fractionnaire (FFPE). Deux approches sont ensuite utilisées pour la mise en œuvre du modèle. La première approche est de type stochastique et repose sur le lien existant entre le processus stochastique issu de l’équation différentielle d’Itô et la FFPE. La deuxième approche utilise une résolution numérique directe par discrétisation de la FFPE. Conformément à l’objectif principal de la thèse, la seconde partie du travail est consacrée à l’analyse de la contribution de la pluie aux fluctuations de la nappe phréatique. Cette analyse est faite sur la base de deux relevés simultanées d’observations de hauteurs de pluie et de la nappe phréatique sur 14 mois (février 2005-mars 2006). Une étude statistique des liens entre les signaux de pluie et de fluctuations de la nappe est menée comme suit : Les données de variations de hauteur de nappe sont analysées et traitées pour isoler les fluctuations cohérentes avec les événements de pluie. Par ailleurs, afin de tenir compte de la dispersion de masse dans le sol, le transport de la masse d’eau pluviale dans le sol sera modélisé par un code de calcul de transfert (modèle PASTIS) auquel nous appliquons en entrée les données de hauteurs de pluie mesurées. Les résultats du modèle permettent entre autre d’estimer l’état hydrique du sol à une profondeur donnée (ici fixée à 1.6m). Une étude de la corrélation entre cet état hydrique et les fluctuations de la nappe sera ensuite effectuée en complément à celle décrite ci-dessus pour illustrer la possibilité de modéliser l’impact de la pluie sur les fluctuations de la nappe / Within the research quality of water resources, the study of the process of mass transfer from soil to groundwater is a key element for understanding the pollution of the latter. Indeed, soluble contaminants to the surface (related to human activities such fertilizers, pesticides products ...) can transit to the web through the porous medium that is the ground. This scenario transfer pollution based on two phenomena: the rain that generates the body of water to the dispersion and the surface thereof through the porous medium. The dispersion of mass in a natural porous medium such as soil forms a subject of extensive research and difficult both experimental and theoretical grounds. Its modeling is a concern EMMAH laboratory, particularly in the context of Virtual Sol project in which a transfer model (PASTIS model) was developed. The coupling of this transfer model with input a model describing the dynamics of random rain is one of the objectives of this thesis. This thesis addresses this goal by relying in part on the results of experimental observations and also on modeling inspired by the analysis of observational data. The first part of the work is devoted to the development of a stochastic model of rain. The choice and nature of the model are based on the features obtained from the analysis of data collected rainfall over 40 years (1968-2008) on the Research Centre INRA Avignon. For this, the cumulative rainfall representation will be treated as a random walk in which the jumps and waiting times between jumps are the amplitudes and durations between two random occurrences of rain events. Thus, the probability jumps (log-normal distribution) and that of waiting between jumps (Law alpha-stable) time is obtained by analyzing the laws of probability amplitudes and occurrences of rain events. We show that the random walk model tends towards a subordinate in time geometric Brownian motion (when space step and time step walking simultaneously tend to zero while maintaining a constant ratio), the law of probability density is governed by a Fokker Planck fractional (FFPE). Two approaches are then used to implement the model. The first approach is based on stochastic type and the relationship between the stochastic process derived from the differential equation of Itô and FFPE. The second approach uses a direct numerical solution by discretization of the FFPE. Accordance with the main objective of the thesis, the second part of the work is devoted to the analysis of the contribution of rain to fluctuations in groundwater. We approach this analysis on the basis of two simultaneous records of observations of rainfall amounts and groundwater over 14 months (February 2005-March 2006). A statistical study of the relationship between the signals of rain and fluctuating water will be conducted. Data sheet height variations are analyzed and processed to isolate coherent fluctuations with rain events. In addition, to take account of the mass dispersion in the soil, the mass transport of storm water in the soil layer is modeled by a calculation code transfer (PASTIS model) which we apply input data measured heights of rain. The model results allow between another estimate soil water status at a given depth (here set at 1.6m). A study of the correlation between the water status and fluctuating water will then be performed in addition to that described above to illustrate the ability to model the impact of rain on the water table fluctuations

Processus pluvieux

Distribution à queue épaisse

Loi -stable tempérée

Loi log-normale

Exposant de Hurst

Marche aléatoire continue

Nappe phréatique

Rainfall process

Heavy-tailed probability distribution

Tempered -stable probability law

Log-normal law

Hurst exponent

Continuous time random walk model

Fractional Fokker-Planck equation

Groundwater level

532

漲跌停板限制下之股票報酬機率分配

葉宜欣, Yeh, Yi-Shian

Unknown Date

股票市場的報酬率相對於金融市埸是非常重要的，因為其背後的真實機率分配對各種資產定價及選擇權的評價模型都有決定性的影響。本文考慮台灣股票市埸具有漲跌停板的限制來驗證實證中股票報酬機率分配的「厚尾」的現象，希望透過我們的研究能對財務理論在國內金融市埸的應用有更進一步的了解。我們選定了常態分配、對數常態分配及一般化第二種貝它分配 (GB2)來當作是台灣股票報酬率的真實機率分配，以動差法比較再以概似比檢定法(LR test)選出一表現最好的機率分配。由選取的25支國內股票中發現一般化第二種貝它分配 (GB2)可以解釋偏態和峰態對報酬率的影響並且也是概似比檢定法所選出的最適報酬率分配，由此可知一般化第二種貝它分配 (GB2)較為適合作為台灣股票報酬的真實機率分配。

機率分配

股票報酬率

厚尾現象

一般化第二種貝它分配

最大概似法

常態分配及對數常態分配

概似比檢定法

偏態和峰態

probability distribution

stock return

thick tail

Generalized Beta of The Second Kind; GB2

maxmun likelihood estimation

likelihood ratio test (LR test)

skewness and kurtosis

Sur les familles des lois de fonction de hasard unimodale : applications en fiabilité et analyse de survie

Saaidia, Noureddine

24 June 2013

En fiabilité et en analyse de survie, les distributions qui ont une fonction de hasard unimodale ne sont pas nombreuses, qu'on peut citer: Gaussienne inverse ,log-normale, log-logistique, de Birnbaum-Saunders, de Weibull exponentielle et de Weibullgénéralisée. Dans cette thèse, nous développons les tests modifiés du Chi-deux pour ces distributions tout en comparant la distribution Gaussienne inverse avec les autres. Ensuite nousconstruisons le modèle AFT basé sur la distribution Gaussienne inverse et les systèmes redondants basés sur les distributions de fonction de hasard unimodale. / In reliability and survival analysis, distributions that have a unimodalor $\cap-$shape hazard rate function are not too many, they include: the inverse Gaussian,log-normal, log-logistic, Birnbaum-Saunders, exponential Weibull and power generalized Weibulldistributions. In this thesis, we develop the modified Chi-squared tests for these distributions,and we give a comparative study between the inverse Gaussian distribution and the otherdistributions, then we realize simulations. We also construct the AFT model based on the inverseGaussian distribution and redundant systems based on distributions having a unimodal hazard ratefunction.

Distribution Gaussienne inverse,

Distribution log-normale,

Distribution log-logistique,

Distribution de Birnbaum-Saunders,

Distribution de Weibull exponentielle,

Distribution de Weibull généralisée,

Test du Chi-deux,

Test modifié du Chi-deux,

Fiabilité,

Analyse de survie,

Modèle de Sedyakin,

Modèle AFT,

Systèmes redondants,

Intervalle de confiance,

Temps de panne,

Maximum de vraisemblance,

Estimation,

Classes de Neyman-Pearson.

Inverse Gaussian distribution,

Log-normal distribution,

Log-logistic distribution,

Birnbaum-Saunders Distribution ,

Exponential Weibull distribution,

Power generalized Weibull distribution,

Chi-square test,

Modified Chi-squared,

Reliability,

Survival analysis,

Sedyakin's model,

AFT model,

Redundant system,

Confidence interval,

Failure time,

Maximum likelihood ,

Estimation,

Neyman-Pearson classes

Maximum de vraisemblance,

Highway Development Decision-Making Under Uncertainty: Analysis, Critique and Advancement

El-Khatib, Mayar

January 2010

While decision-making under uncertainty is a major universal problem, its implications in the field of transportation systems are especially enormous; where the benefits of right decisions are tremendous, the consequences of wrong ones are potentially disastrous. In the realm of highway systems, decisions related to the highway configuration (number of lanes, right of way, etc.) need to incorporate both the traffic demand and land price uncertainties. In the literature, these uncertainties have generally been modeled using the Geometric Brownian Motion (GBM) process, which has been used extensively in modeling many other real life phenomena. But few scholars, including those who used the GBM in highway configuration decisions, have offered any rigorous justification for the use of this model. This thesis attempts to offer a detailed analysis of various aspects of transportation systems in relation to decision-making. It reveals some general insights as well as a new concept that extends the notion of opportunity cost to situations where wrong decisions could be made. Claiming deficiency of the GBM model, it also introduces a new formulation that utilizes a large and flexible parametric family of jump models (i.e., Lévy processes). To validate this claim, data related to traffic demand and land prices were collected and analyzed to reveal that their distributions, heavy-tailed and asymmetric, do not match well with the GBM model. As a remedy, this research used the Merton, Kou, and negative inverse Gaussian Lévy processes as possible alternatives. Though the results show indifference in relation to final decisions among the models, mathematically, they improve the precision of uncertainty models and the decision-making process. This furthers the quest for optimality in highway projects and beyond.

highway development

decision making under uncertainty

real options

jump processes

infinitely divisible distributions

Lévy processes

measure theory

characteristic function

characteristic exponent

Lévy jump measure

probability measure

cádlág stochastic process

Wiener process

Poisson process

compound Poisson process

finite activity models

jump diffusion models

Merton model

Gaussian jump process

Kou model

double exponential jump process

leptokurtic

volatility smile

infinite activity models

pure jumps process

generalized hyperbolic model

modified Bessel function

negative inverse Gaussian model

geometric Brownian motion model

log-normal distribution model

normality assumption

heavy-tailed distribution

asymmetric distribution

quantile-quantile plot

Rydberg algorithm

parameter calibration

moments

cummulants

sum of squares

Monte Carlo simulation

least-squares regression

backward dynamic programming

discrete-time Markov chain

land price

traffic demand

highway service quality index

data collection

traffic volume

Annual Average Daily Traffic

Ontario Ministry of Transportation

Land Registry Office

Freedom of Information Act

seasonality

value of transportation

types of transportation systems

importance of highway systems

cost of wrong decisions

monetary cost

private sector cost

human cost

land expropriation

environmental cost

irreversibility cost factor

time cost factor

political cost factor

opportunity cost

opportunity cost of wrong decisions

economic cost of wrong decisions

economic cost of mis-estimation

economic profit of wrong decisions

cost of inaction

price of making right decisions

scope of decisions

rehabilitation decision

land acquisition decision

expansion decision

uncertainty modeling

land acquisition cost

expropriation cost

construction cost

material cost

Montréal-Mirabel International Airport

Pickering Airport

407 Express Toll Route

Highway 407

Statistics

Highway Development Decision-Making Under Uncertainty: Analysis, Critique and Advancement

El-Khatib, Mayar

January 2010

While decision-making under uncertainty is a major universal problem, its implications in the field of transportation systems are especially enormous; where the benefits of right decisions are tremendous, the consequences of wrong ones are potentially disastrous. In the realm of highway systems, decisions related to the highway configuration (number of lanes, right of way, etc.) need to incorporate both the traffic demand and land price uncertainties. In the literature, these uncertainties have generally been modeled using the Geometric Brownian Motion (GBM) process, which has been used extensively in modeling many other real life phenomena. But few scholars, including those who used the GBM in highway configuration decisions, have offered any rigorous justification for the use of this model. This thesis attempts to offer a detailed analysis of various aspects of transportation systems in relation to decision-making. It reveals some general insights as well as a new concept that extends the notion of opportunity cost to situations where wrong decisions could be made. Claiming deficiency of the GBM model, it also introduces a new formulation that utilizes a large and flexible parametric family of jump models (i.e., Lévy processes). To validate this claim, data related to traffic demand and land prices were collected and analyzed to reveal that their distributions, heavy-tailed and asymmetric, do not match well with the GBM model. As a remedy, this research used the Merton, Kou, and negative inverse Gaussian Lévy processes as possible alternatives. Though the results show indifference in relation to final decisions among the models, mathematically, they improve the precision of uncertainty models and the decision-making process. This furthers the quest for optimality in highway projects and beyond.

highway development

decision making under uncertainty

real options

jump processes

infinitely divisible distributions

Lévy processes

measure theory

characteristic function

characteristic exponent

Lévy jump measure

probability measure

cádlág stochastic process

Wiener process

Poisson process

compound Poisson process

finite activity models

jump diffusion models

Merton model

Gaussian jump process

Kou model

double exponential jump process

leptokurtic

volatility smile

infinite activity models

pure jumps process

generalized hyperbolic model

modified Bessel function

negative inverse Gaussian model

geometric Brownian motion model

log-normal distribution model

normality assumption

heavy-tailed distribution

asymmetric distribution

quantile-quantile plot

Rydberg algorithm

parameter calibration

moments

cummulants

sum of squares

Monte Carlo simulation

least-squares regression

backward dynamic programming

discrete-time Markov chain

land price

traffic demand

highway service quality index

data collection

traffic volume

Annual Average Daily Traffic

Ontario Ministry of Transportation

Land Registry Office

Freedom of Information Act

seasonality

value of transportation

types of transportation systems

importance of highway systems

cost of wrong decisions

monetary cost

private sector cost

human cost

land expropriation

environmental cost

irreversibility cost factor

time cost factor

political cost factor

opportunity cost

opportunity cost of wrong decisions

economic cost of wrong decisions

economic cost of mis-estimation

economic profit of wrong decisions

cost of inaction

price of making right decisions

scope of decisions

rehabilitation decision

land acquisition decision

expansion decision

uncertainty modeling

land acquisition cost

expropriation cost

construction cost

material cost

Montréal-Mirabel International Airport

Pickering Airport

407 Express Toll Route

Highway 407

Statistics