Géographie physique ; Loi de Poisson ; Modèle ; Modèle stochastique ; Méthode Monte Carlo ; Statistique ; Sédimentation ; Sédimentologie ; Taux de sédimentation ; Turbidité
A simple stochastic sedimentation model of turbidity sequences that assumes a bed thickness corresponds to a waiting time between turbidity currents is proposed. Bed-thickness distributions are simulated by using a Monte-Carlo method with options
for erosion models and basin types, and patterns of their cumulative frequency curves on a lognormal-probability chart were used to test the models. In order to achieve a better agreement with the observed field data, more realistic and comprehensive
simulation models, incorporating additional geological parameters, are required.
analysis is of great value in the modeling of large systems with arbitrary boundaries and several wells. Thus it should be an integral part of all computer models.
, uniquely determined systems by a simultaneous equation solution procedure, and over determined systems by a least-squares model. The implementation of these programmed algorithms on a minicomputer in an interactive milieu provides the log analyst
A numerical model for the evaluation of deformation and stress associated with geological structures is presented. The method is based on a fundamental solution of stress and deformation around a single rectangular indentation at the boundary