We conducted a designed experiment to quantify sources of uncertainty in geologists' interpretations of a geological cross section. A group of 28 geologists participated in the experiment. Each interpreted borehole record included up to three Palaeogene bedrock units, including the target unit for the experiment: the London Clay. The set of boreholes was divided into batches from which validation boreholes had been withheld; as a result, we obtained 129 point comparisons between the interpreted elevation of the base of the London Clay and its observed elevation in a borehole not used for that particular interpretation. Analysis of the results showed good general agreement between the observed and interpreted elevations, with no evidence of ...
In the borehole and cross-section method, stratigraphic surfaces are constructed between stratigraph...
Geological models are based on the interpretation of spatially sparse and limited resolution dataset...
International audienceThis paper aims at analyzing data and models acquired from different 3D cartog...
We conducted a designed experiment to quantify sources of uncertainty in geologists' interpretations...
This work was undertaken while C.H. Randle held a joint British Geological Survey University Funding...
Explicit interpretation of geological data by geologists forms the basis of many geological interpre...
We would like to thank all those who took part in our elicitations, as well as all those who helped ...
It is generally accepted that geological line work, such as mapped boundaries, are uncertain for var...
Uncertainty quantification of geological models that are constructed with additional geological expe...
Interpretation of geological data is based on both personal judgement and previous experience of rel...
The Lake District DGSM project (Clarke, 2004) represented a first attempt by the British Geological...
Interpretation of sparse or incomplete datasets is a fundamental part of geology, particularly when ...
The use of 3D models to view complex and diverse geoscience datasets is now common practice for conc...
3D modelling aims to solve geological problems, but these are always underdetermined and require pre...
In the borehole and cross-section method, stratigraphic surfaces are constructed between stratigraph...
Geological models are based on the interpretation of spatially sparse and limited resolution dataset...
International audienceThis paper aims at analyzing data and models acquired from different 3D cartog...
We conducted a designed experiment to quantify sources of uncertainty in geologists' interpretations...
This work was undertaken while C.H. Randle held a joint British Geological Survey University Funding...
Explicit interpretation of geological data by geologists forms the basis of many geological interpre...
We would like to thank all those who took part in our elicitations, as well as all those who helped ...
It is generally accepted that geological line work, such as mapped boundaries, are uncertain for var...
Uncertainty quantification of geological models that are constructed with additional geological expe...
Interpretation of geological data is based on both personal judgement and previous experience of rel...
The Lake District DGSM project (Clarke, 2004) represented a first attempt by the British Geological...
Interpretation of sparse or incomplete datasets is a fundamental part of geology, particularly when ...
The use of 3D models to view complex and diverse geoscience datasets is now common practice for conc...
3D modelling aims to solve geological problems, but these are always underdetermined and require pre...
In the borehole and cross-section method, stratigraphic surfaces are constructed between stratigraph...
Geological models are based on the interpretation of spatially sparse and limited resolution dataset...
International audienceThis paper aims at analyzing data and models acquired from different 3D cartog...