Olivier Jaquet scite author profile

Integrating geological concepts, such as relative positions and proportions of the different lithofacies, is of highest importance in order to render realistic geological patterns. The truncated plurigaussian simulation method provides a way of using both local and conceptual geological information to infer the distributions of the facies and then those of hydraulic parameters. The method (Le Loc'h and Galli 1994) is based on the idea of truncating at least two underlying multi-Gaussian simulations in order to create maps of categorical variable. In this article, we show how this technique can be used to assess contaminant migration in highly heterogeneous media. We illustrate its application on the biggest contaminated site of Switzerland. It consists of a contaminant plume located in the lower fresh water Molasse on the western Swiss Plateau. The highly heterogeneous character of this formation calls for efficient stochastic methods in order to characterize transport processes.

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Two independent methods for mapping bulk deposition in France

Croisé

Ulrich

Duplat

et al. 2005

Atmospheric Environment

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Using hidden multi-state Markov models with multi-parameter volcanic data to provide empirical evidence for alert level decision-support

Aspinall

Carniel

Jaquet³

et al. 2006

Journal of Volcanology and Geothermal Research

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Probabilistic Methodology for Long-Term Assessment of Volcanic Hazards

Jaquet¹,

Connor

2008

Nuclear Technology

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Olivier Jaquet

Stochastic discrete model of karstic networks

Truncated Plurigaussian Simulations to Characterize Aquifer Heterogeneity

Two independent methods for mapping bulk deposition in France

Using hidden multi-state Markov models with multi-parameter volcanic data to provide empirical evidence for alert level decision-support

Probabilistic Methodology for Long-Term Assessment of Volcanic Hazards

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