2020
DOI: 10.1016/j.cageo.2020.104480
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Application of classification trees for improving optical identification of common opaque minerals

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Cited by 8 publications
(10 citation statements)
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References 29 publications
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“…Reflected light optical microscopy (RLOM) images -CNN [80] μCT images -CNN [72] Multispectral images -LDA [70]; FF-ANN [70] Reflectance spectra -Bayes nets [100] X-ray spectrum data PCA [95] ANN [95] X-ray microtomography scans -Fuzzy inference system (FIS) [74] Images of microscopic rock thin section (RGB pixels) -k-NN [77]; DT [77] Optical identification of minerals Mineral properties such as color, hardness, pleochroism, anisotropism, and internal reflections Cramer's Vand Pearson correlation coefficient (PCC) [75] DT [75] Prediction of concentrate yield and modal mineralogy Bulk chemistry data from the mining company open pit database -ANN [79] Predicting rock type and mine face, detecting hydrothermal alteration Physical properties of rocks -SVM [59] Hyperspectral data -GP [53,86]; SVM [86]; SAM [86] Multi-element geochemistry K-means++ [93] R F [ 93] Images of the rocks -ANN [94] Reducing noise in hyperspectral data…”
Section: Application Dataset Feature Engineering Methods ML Techniquementioning
confidence: 99%
“…Reflected light optical microscopy (RLOM) images -CNN [80] μCT images -CNN [72] Multispectral images -LDA [70]; FF-ANN [70] Reflectance spectra -Bayes nets [100] X-ray spectrum data PCA [95] ANN [95] X-ray microtomography scans -Fuzzy inference system (FIS) [74] Images of microscopic rock thin section (RGB pixels) -k-NN [77]; DT [77] Optical identification of minerals Mineral properties such as color, hardness, pleochroism, anisotropism, and internal reflections Cramer's Vand Pearson correlation coefficient (PCC) [75] DT [75] Prediction of concentrate yield and modal mineralogy Bulk chemistry data from the mining company open pit database -ANN [79] Predicting rock type and mine face, detecting hydrothermal alteration Physical properties of rocks -SVM [59] Hyperspectral data -GP [53,86]; SVM [86]; SAM [86] Multi-element geochemistry K-means++ [93] R F [ 93] Images of the rocks -ANN [94] Reducing noise in hyperspectral data…”
Section: Application Dataset Feature Engineering Methods ML Techniquementioning
confidence: 99%
“…Reflected light optical microscopy (RLOM) images -CNN [80] µCT images -CNN [72] Multispectral images -LDA [70]; FF-ANN [70] Reflectance spectra -Bayes nets [100] X-ray spectrum data PCA [95] ANN [95] X-ray microtomography scans -Fuzzy inference system (FIS) [74] Images of microscopic rock thin section (RGB pixels) -k-NN [77]; DT [77] Optical identification of minerals Mineral properties such as color, hardness, pleochroism, anisotropism, and internal reflections Cramer's Vand Pearson correlation coefficient (PCC) [75] DT [75] For the sake of providing a general insight into the scope of the reviewed papers, Figure 6 illustrates the word frequency map of their titles, where the more popular words are represented with a bigger font size. As depicted, aside from the common keywords, namely using, machine, learning, and mineral, we can generally infer the main trends discussed in the previous sections considering the relatively high frequency of the words hyperspectral, mapping, and classification.…”
Section: Application Dataset Feature Engineering Methods ML Techniquementioning
confidence: 99%
“…The observation of optical properties of a mineral in a polarized microscope rotation stage is a commonly used method for mineral type classification. This task can be automated by the application of digital image processing techniques and AI technologies [75][76][77][78].…”
Section: Problems In the Selected Studies Addressed Using ML Techniquesmentioning
confidence: 99%
“…It can simplify and guide the evaluation of these properties to achieve appropriate mineral identification. [ 84 ]…”
Section: Single‐modal Recognition Of Mineral/rock Datamentioning
confidence: 99%