会议论文详细信息
9th IGRSM International Conference and Exhibition on Geospatial & Remote Sensing
Hyperspectral signature analysis using neural network for grade estimation of copper ore
地球科学;计算机科学
Manna, B.^1 ; Samanta, B.^1 ; Chakravarty, D.^1 ; Dutta, D.^2 ; Chowdhury, A.^3 ; Santra, A.^3 ; Banerjee, A.^3
Department of Mining Engineering, Indian Institute of Technology Kharagpur, India^1
Department of Space, NRSC, Hyderabad, India^2
B P Poddar Institute of Management and Technology, India^3
关键词: Degree of correlations;    Hyperspectral signatures;    Hyperspectral techniques;    K fold cross validations;    Mineral identification;    Multilayer feedforward neural networks;    Ore grades;    Spectral feature;   
Others  :  https://iopscience.iop.org/article/10.1088/1755-1315/169/1/012108/pdf
DOI  :  10.1088/1755-1315/169/1/012108
学科分类:计算机科学(综合)
来源: IOP
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【 摘 要 】

The ever-increasing demand for the different metal and mineral resources from the earth's subsurface has brought tremendous pressure on the geochemical laboratory for the growing countries. The success of any mining industry relies on the estimated values of ore grade in the mineral deposit. Hence, rapid assessment of ore grade is critical in daily schedule in mines operations. Commonly the assay value is determined by chemical analysis or X-Ray Fluorescence (XRF), which is one of the constrained by real-time grade estimation, duration of sample preparation and processing. Several researches carried out in exploration and revealed that hyperspectral technique is a promising tool for mineral identification and mapping. The goal of the present study is to determine the effectiveness of narrow band spectroscopy in Cu grade estimation. To achieve this, a multilayer feed-forward neural network model has been developed to establish a functional link between hyperspectral signature derived features with the copper grade. Altogether eight different types of features including absorption depth, band depth center, the area under the absorption curve, full width at half maxima were extracted from continuum removed spectra along with derivative reflectance features, e.g. band depth ratio, 1st and 2nd slopes from the hyperspectral profile. The dimensionality was reduced by applying Principal Component Analysis onto the extracted features. The first seven PCAs are then used as input vector of the ANN model. A five-fold cross-validation exercise is carried out for model performance. The high degree of correlation reveals that the PCA generated feature from hyperspectral data coupled with ANN model could be an alternative approach to predict the copper grade for the copper mine.

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