A boy named BOY A seeks forgiveness for past mistakes. The document suggests that while the past cannot be changed, it is important to forgive others and give people second chances. Everyone deserves an opportunity to make things right.
Fast modelling of Airborne EM data using "Smart Interpretation"Torben Bach
When using airborne geophysical measurements in e.g. groundwater mapping, an overwhelming amount of data is collected. Increasingly larger survey areas, denser data collection and limited resources, combines to an increasing problem of building geological models that use all the available data in a manner that is consistent with the geologists knowledge about the geology of the survey area.
In the ERGO project, funded by The Danish National Advanced Technology Foundation, we address this problem, by developing new, usable tools, enabling the geologist utilize her geological knowledge directly in the interpretation of the AEM data, and thereby handle the large amount of data,
In the project we have developed the mathematical basis for capturing geological expertise in a statistical model. Based on this, we have implemented new algorithms that have been operationalized and embedded in user friendly software. In this software, the machine learning algorithm, Smart Interpretation, enables the geologist to use the system as an assistant in the geological modelling process. As the software ‘learns’ the geology from the geologist, the system suggest from new features in the data.
In this presentation we demonstrate the application of the results from the ERGO project, including the proposed modelling workflow utilized on a data example from Gotland, Sweden.
Fast modelling of Airborne EM data using "Smart Interpretation"Torben Bach
When using airborne geophysical measurements in e.g. groundwater mapping, an overwhelming amount of data is collected. Increasingly larger survey areas, denser data collection and limited resources, combines to an increasing problem of building geological models that use all the available data in a manner that is consistent with the geologists knowledge about the geology of the survey area.
In the ERGO project, funded by The Danish National Advanced Technology Foundation, we address this problem, by developing new, usable tools, enabling the geologist utilize her geological knowledge directly in the interpretation of the AEM data, and thereby handle the large amount of data,
In the project we have developed the mathematical basis for capturing geological expertise in a statistical model. Based on this, we have implemented new algorithms that have been operationalized and embedded in user friendly software. In this software, the machine learning algorithm, Smart Interpretation, enables the geologist to use the system as an assistant in the geological modelling process. As the software ‘learns’ the geology from the geologist, the system suggest from new features in the data.
In this presentation we demonstrate the application of the results from the ERGO project, including the proposed modelling workflow utilized on a data example from Gotland, Sweden.