Sensors are being used as laboratory and in-situ techniques for characterization and definition of raw material properties. However, application of sensor technologies for underground mining resource extraction is very limited and highly dependent on the geological and operational environment. In our study the potential of RGB imaging, Fourier-Transform Infrared Spectroscopy (FTIR) spectroscopy and Hyperspectral imaging for the characterization of polymetallic sulphide minerals in a test case of the Reiche Zeche underground mine was investigated. <br/
Drill core logging in the mining industry has traditionally been done by geologists and technicians ...
Our preliminary results of reflectance spectra recorded with the SC for mineral detection study (Fig...
Despite significant recent advancements in the sensor technologies, the use of sensors for raw mater...
Sensors are being used as laboratory and in-situ techniques for characterization and definition of r...
The application of sensor technologies for raw material characterization is rapidly growing, and inn...
The application of sensor technologies for raw material characterization is rapidly growing, and inn...
The increasing advances in sensor technology have resulted in greater availability of sensor data fo...
The use of sensor technologies for material characterization is rapidly growing and innovative advan...
Quantification of mineral concentrations is crucial for planning efficient and economical ore extrac...
The rising demands for mined products lead to the extraction of materials in geologically complex re...
Technological innovations and emerging analytical capabilities are transforming the mineralogical an...
The utilization of hyperspectral detection devices, for natural resources mapping/exploitation throu...
Near-infrared (NIR) and short-wavelength infrared (SWIR) hyperspectral imagery can be used to detect...
A benchmarking databank based on different spectral, multiscale, multisensor exploration technologie...
This research tested hyperspectral remote sensing for large-scale mineral mapping on benches, highwa...
Drill core logging in the mining industry has traditionally been done by geologists and technicians ...
Our preliminary results of reflectance spectra recorded with the SC for mineral detection study (Fig...
Despite significant recent advancements in the sensor technologies, the use of sensors for raw mater...
Sensors are being used as laboratory and in-situ techniques for characterization and definition of r...
The application of sensor technologies for raw material characterization is rapidly growing, and inn...
The application of sensor technologies for raw material characterization is rapidly growing, and inn...
The increasing advances in sensor technology have resulted in greater availability of sensor data fo...
The use of sensor technologies for material characterization is rapidly growing and innovative advan...
Quantification of mineral concentrations is crucial for planning efficient and economical ore extrac...
The rising demands for mined products lead to the extraction of materials in geologically complex re...
Technological innovations and emerging analytical capabilities are transforming the mineralogical an...
The utilization of hyperspectral detection devices, for natural resources mapping/exploitation throu...
Near-infrared (NIR) and short-wavelength infrared (SWIR) hyperspectral imagery can be used to detect...
A benchmarking databank based on different spectral, multiscale, multisensor exploration technologie...
This research tested hyperspectral remote sensing for large-scale mineral mapping on benches, highwa...
Drill core logging in the mining industry has traditionally been done by geologists and technicians ...
Our preliminary results of reflectance spectra recorded with the SC for mineral detection study (Fig...
Despite significant recent advancements in the sensor technologies, the use of sensors for raw mater...
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