مرور کلی بر کاربرد روش‌ های پیشرفته هوش محاسباتی در اکتشاف منابع معدنی

Abbaszadeh, M., Hezarkhani, A. and Soltani-Mohammadi, S., 2013. An SVM-based machine learning method for the separation of alteration zones in Sungun porphyry copper deposit. Chemie der Erde-Geochemistry, 73(4): 545-554.

Abedi, M. and Norouzi, G.H., 2012. Integration of various geophysical data with geological and geochemical data to determine additional drilling for copper exploration. Journal of Applied Geophysics, 83(1): 35-45.

Abedi, M., Norouzi, G.H. and Bahroudi, A., 2012. Support vector machine for multi-classification of mineral prospectivity areas. Computers and Geosciences, 46(1): 272-283.

Abedi, M., Norouzi, G.H. and Fathianpour, N., 2013a. Fuzzy outranking approach: a knowledge-driven method for mineral prospectivity mapping. International Journal of Applied Earth Observation and Geoinformation, 21(1): 556-567.

Abedi, M., Torabi, S. and Norouzi, G., 2013b. Application of fuzzy AHP method to integrate geophysical data in a prospect scale, a case study: Seridune copper deposit. Bollettino di Geofisica Teorica ed Applicata, 54(2): 145-164.

Abreu, G.L. and Ribeiro, J.F., 2003. On-line control of a flexible beam using adaptive fuzzy controller and piezoelectric actuators. Sba: Controle e Automação Sociedade Brasileira de Automatica, 14(4): 377-383.

Acharya, C., Mohanty, S., Sukla, L. and Misra, V., 2006. Prediction of sulphur removal with Acidithiobacillus sp. using artificial neural networks. Ecological Modelling, 190(1): 223-230.

Agterberg, F. and Bonham-Carter, G., 1999. Logistic regression and weights of evidence modeling in mineral exploration. Proceedings of the 28th International Symposium on Applications of Computer in the Mineral Industry (APCOM), Colorado School of Mines, Colorado, USA.

Ancona, N., Cicirelli, G., Stella, E. and Distante, A., 2003. Ball detection in static images with Support Vector Machines for classification. Image and Vision Computing, 21(8): 675-692.

Basheer, I. and Hajmeer, M., 2000. Artificial neural networks: fundamentals, computing, design, and application. Journal of Microbiological Methods, 43(1): 3-31.

Bazdar, H., Fattahi, H. and Ghadimi, F., 2015a. Hybrid ANN with Invasive Weed Optimization Algorithm, a New Technique for Prediction of Gold and Silver in Zarshuran Gold Deposit, Iran. M.Sc. Thesis, Arak University of Technology, Arak, Iran, 120 pp.

Bazdar, H., Fattahi, H. and Ghadimi, F., 2015b. Hybrid ANN with Invasive Weed Optimization Algorithm, a New Technique for Prediction of Gold and Silver in Zarshuran Gold Deposit, Iran. Journal of Tethys, 3(3): 273-286.

Behnia, P., 2007. Application of Radial Basis Functional Link Networks to exploration for Proterozoic mineral deposits in central Iran. Natural Resources Research, 16(2): 147-155.

Bougrain, L., Gonzalez, M., Bouchot, V., Cassard, D., Lips, A.L., Alexandre, F. and Stein, G., 2003. Knowledge recovery for continental-scale mineral exploration by neural networks. Natural Resources Research, 12(3): 173-181.

Brown, W.M., Gedeon, T., Groves, D. and Barnes, R., 2000. Artificial neural networks: a new method for mineral prospectivity mapping. Australian Journal of Earth Sciences, 47(4): 757-770.

Brown, W.M., Gedeon, T.D. and Groves, D.I., 2003. Use of noise to augment training data: a neural network method of mineral–potential mapping in regions of limited known deposit examples. Natural Resources Research, 12(2): 141-152.

Cao, L.J. and Tay, F.E., 2003. Support vector machine with adaptive parameters in financial time series forecasting. IEEE Transactions on Neural Networks, 14(6): 1506-1518.

Chatterjee, S. and Bandopadhyay, S., 2011. Goodnews Bay Platinum Resource Estimation Using Least Squares Support Vector Regression with Selection of Input Space Dimension and Hyperparameters. Natural Resources Research, 20(2): 117-129.

Chatterjee, S., Bandopadhyay, S. and Rai, P., 2008. Genetic algorithm-based neural network learning parameter selection for ore grade evaluation of limestone deposit. Mining Technology, 117(4): 178-190.

Chatterjee, S., Bhattacherjee, A., Samanta, B. and Pal, S., 2006. Ore grade estimation of a limestone deposit in India using an artificial neural network. Applied Geographic Information System, 2(1): 201-220.

Chen, R.C. and Hsieh, C.H., 2006. Web page classification based on a support vector machine using a weighted vote schema. Expert Systems with Applications, 31(2): 427-435.

Demuth, H. and Beale, M., 2002. Neural network toolbox for use with MATLAB. The Math Works Incorporated, USA, 840 pp.

Doulati Ardejanii, F., Rooki, R., Jodieri Shokri, B., Eslam Kish, T., Aryafar, A. and Tourani, P., 2012. Prediction of rare earth elements in neutral alkaline mine drainage from Razi Coal Mine, Golestan Province, northeast Iran, using general regression neural network. Journal of Environmental Engineering, 139(6): 896-907.

Dutta, S., Bandopadhyay, S., Ganguli, R. and Misra, D., 2010. Machine learning algorithms and their application to Ore Reserve estimation of sparse and imprecise data. Journal of Intelligent Learning Systems and Applications, 2(02): 86-96.

Eskandari, H., Rezaee, M. and Mohammadnia, M., 2004. Application of multiple regression and artificial neural network techniques to predict shear wave velocity from wireline log data for a carbonate reservoir South-West Iran. Canadian Society of Exploration Geophysicists, 29(7): 41-47.

Fattahi, H., 2015a. Prediction of earthquake induced displacements of slopes using hybrid support vector regression with particle swarm optimization. International Journal of Optimization in Civil Engineering, 5(3): 267-282.

Fattahi, H., 2015b. Prediction of slope stability state for circular failure: A hybrid support vector machine with harmony search algorithm. International Journal of Optimization in Civil Engineering, 5(1): 103-115.

Fattahi, H., 2016a. Adaptive neuro fuzzy inference system based on fuzzy C–Means clustering algorithm, a technique for estimation of TBM penetration rate. International Journal of Optimization in Civil Engineering, 6(2): 159-171.

Fattahi, H., 2016b. A hybrid support vector regression with ant colony optimization algorithm in estimation of safety factor for circular failure slope. International Journal of Optimization in Civil Engineering, 6(1): 63-75.

Fattahi, H., Ebrahimi, F.M., Shojaee, S., Nekooei, K. and Mansouri, H., 2013a. Application of the hybrid harmony search with support vector machine for identification and classification of damaged zone around underground spaces. International Journal of Optimization in Civil Engineering, 3(2): 345-358.

Fattahi, H., Gholami, A., Amiribakhtiar, M.S. and Moradi, S., 2015. Estimation of asphaltene precipitation from titration data: a hybrid support vector regression with harmony search. Neural Computing and Applications, 26(4): 789-798.

Fattahi, H., Shojaee, S. and Ebrahimi, F.M., 2013b. Application of Adaptive Network-based Fuzzy Inference System for the Assessment of Damaged Zone Around Underground Spaces. International Journal of Optimization in Civil Engineering, 3(4): 673-693.

Fattahi, H., Shojaee, S., Ebrahimi, F.M. and Mansouri, H., 2013c. Hybrid Monte Carlo simulation and ANFIS-subtractive clustering method for reliability analysis of the excavation damaged zone in underground spaces. Computers and Geotechnics, 54: 210-221.

Fattahi, H., Shojaee, S., Ebrahimi, F.M. and Mansouri, H., 2013d. Using latin hypercube sampling based on the ANN-HPSOGA model for estimation of the creation probability of damaged zone around underground spaces. International Journal of Optimization in Civil Engineering, 3(3): 389-408.

Fung, C.C., Iyer, V., Brown, W. and Wong, K.W., 2005. Comparing the performance of different neural networks architectures for the prediction of mineral prospectivity. International Conference on Machine Learning and Cybernetics, South China University of Technology, Guangzhou, China.

Gang, R. and Zhuping, Z., 2011. Traffic safety forecasting method by particle swarm optimization and support vector machine. Expert Systems with Applications, 38(8): 10420-10424.

Ghadimi, F., 2014a. Prediction of Degree of Soil Contamination Based on Support Vector Machine and K-Nearest Neighbor Methods: A Case Study in Arak, Iran. Iranica Journal of Energy & Environment, 5(4): 345-353.

Ghadimi, F., 2014b. A statistical and support vector machine approach for assessing heavy metal contamination in soil, dust and rainwater from the Arak city, Iran. International Research Journal of Applied and Basic Sciences, 8(10): 1539-1556.

Ghadimi, F., 2015. Prediction of heavy metals contamination in the groundwater of Arak region using artificial neural network and multiple linear regression. Journal of Tethys, 3(3): 203-215.

Guo, W.W., 2010. A novel application of neural networks for instant iron-ore grade estimation. Expert Systems with Applications, 37(12): 8729-8735.

Hagan, M.T., Demuth, H.B. and Beale, M.H., 2002. Neural network design. Campus Publishing Service, University of Colorado Bookstore, USA, 736 pp.

Hãjek, P., 1998. Metamathematics of fuzzy logic. Springer Science and Business Media, Berlin, Germany, 299 pp.

Harris, D. and Pan, G., 1999. Mineral favorability mapping: a comparison of artificial neural networks, logistic regression, and discriminant analysis. Natural Resources Research, 8(2): 93-109.

Harris, D., Zurcher, L., Stanley, M., Marlow, J. and Pan, G., 2003. A comparative analysis of favorability mappings by weights of evidence, probabilistic neural networks, discriminant analysis, and logistic regression. Natural Resources Research, 12(4): 241-255.

Hezarkhani, A. and Williams-Jones, A.E., 1998. Controls of alteration and mineralization in the Sungun porphyry copper deposit, Iran; evidence from fluid inclusions and stable isotopes. Economic Geology, 93(5): 651-670.

Hornik, K., Stinchcombe, M. and White, H., 1989. Multilayer feedforward networks are universal approximators. Neural Networks, 2(5): 359-366.

Huang, C.L., Chen, M.C. and Wang, C.J., 2007. Credit scoring with a data mining approach based on support vector machines. Expert Systems with Applications, 33(4): 847-856.

Jang, J.S.R., 1993. ANFIS: adaptive-network-based fuzzy inference system. Conference of Systems, Man and Cybernetics, Westminster Hotel, Paris, France.

Jorjani, E., Chelgani, S.C. and Mesroghli, S., 2008. Application of artificial neural networks to predict chemical desulfurization of Tabas coal. Fuel, 87(12): 2727-2734.

Journel, A.G. and Huijbregts, C.J., 1978. Mining geostatistics. Academic Press, Virginia, USA, 600 pp.

Karimpour, M.H., Farmer, G.L., Stern, C. and Salati, E., 2011. U-Pb zircon geochronology and Sr-Nd isotopic characteristic of Late Neoproterozoic Bornaward granitoids (Taknar zone exotic block), Iran. Iranian Journal of Crystallography and Mineralogy, 19(1): 1-18.

Karimpour, M.H., Stern, C. and Farmer, G., 2010. Zircon U–Pb geochronology, Sr–Nd isotope analyses, and petrogenetic study of the Dehnow diorite and Kuhsangi granodiorite (Paleo-Tethys), NE Iran. Journal of Asian Earth Sciences, 37(4): 384-393.

Klir, G. and Yuan, B., 1995. Fuzzy sets and fuzzy logic. Prentice Hall, Michigan, USA, 245 pp.

Knox‐Robinson, C., 2000. Vectorial fuzzy logic: a novel technique for enhanced mineral prospectivity mapping, with reference to the orogenic gold mineralisation potential of the Kalgoorlie Terrane, Western Australia. Australian Journal of Earth Sciences, 47(5): 929-941.

Koike, K., Matsuda, S., Suzuki, T. and Ohmi, M., 2002. Neural network-based estimation of principal metal contents in the Hokuroku district, Northern Japan, for exploring Kuroko-type deposits. Natural Resources Research, 11(2): 135-156.

Lee, S., Oh, H.J., Heo, C.H. and Park, I., 2014. A case study for the integration of predictive mineral potential maps. Central European Journal of Geosciences, 6(3): 373-392.

Leite, E.P. and de Souza Filho, C.R., 2009a. Artificial neural networks applied to mineral potential mapping for copper‐gold mineralizations in the Carajلs Mineral Province, Brazil. Geophysical Prospecting, 57(6): 1049-1065.

Leite, E.P. and de Souza Filho, C.R., 2009b. Probabilistic neural networks applied to mineral potential mapping for platinum group elements in the Serra Leste region, Carajs Mineral Province, Brazil. Computers and Geosciences, 35(3): 675-687.

Li, C., Li, J., Li, Z. and Sun, E., 2010a. SVM based ore grade valuation model construction. Sixth International Conference on Natural Computation, Yantai University, Yantai, China.

Li, X., Xie, Y. and Guo, Q., 2010b. A new intelligent prediction method for grade estimation. 7th International Symposium on Neural Networks, Shanghai University, Shanghai, China.

Li, X.l., Li, L.h., Zhang, B.l. and Guo, Q.j., 2013. Hybrid self-adaptive learning based particle swarm optimization and support vector regression model for grade estimation. Neurocomputing, 118(1): 179-190.

Li, X.l., Xie, Y.l., Guo, Q.j. and Li, L.h., 2010c. Adaptive ore grade estimation method for the mineral deposit evaluation. Mathematical and Computer Modelling, 52(11): 1947-1956.

Magalhães, L.A. and Souza Filho, C.R., 2012. Targeting of gold deposits in Amazonian exploration frontiers using knowledge-and data-driven spatial modeling of geophysical, geochemical, and geological data. Surveys in Geophysics, 33(2): 211-241.

Mahmoudabadi, H., Izadi, M. and Menhaj, M.B., 2009. A hybrid method for grade estimation using genetic algorithm and neural networks. Computational Geosciences, 13(1): 91-101.

Malekzadeh Shafaroudi, A. and Karimpour, M.H., 2015. Mineralogic, fluid inclusion, and sulfur isotope evidence for the genesis of Sechangi lead–zinc (–copper) deposit, Eastern Iran. Journal of African Earth Sciences, 107(1): 1-14.

Malekzadeh Shafaroudi, A., Karimpour, M.H. and Stern, C., 2015. The Khopik porphyry copper prospect, Lut Block, Eastern Iran: Geology, alteration and mineralization, fluid inclusion, and oxygen isotope studies. Ore Geology Reviews, 65(2): 522-544.

Mamdani, E.H. and Assilian, S., 1975. An experiment in linguistic synthesis with a fuzzy logic controller. International Journal of Man-Machine Studies, 7(1): 1-13.

Mendel, J.M., 1995. Fuzzy logic systems for engineering: a tutorial. Proceedings of the IEEE, 83(3): 345-377.

Misra, D., Samanta, B., Dutta, S. and Bandopadhyay, S., 2007. Evaluation of artificial neural networks and kriging for the prediction of arsenic in Alaskan bedrock-derived stream sediments using gold concentration data. International Journal of Mining, Reclamation and Environment, 21(4): 282-294.

Monjezi, M. and Dehghani, H., 2008. Evaluation of effect of blasting pattern parameters on back break using neural networks. International Journal of Rock Mechanics and Mining Sciences, 45(8): 1446-1453.

Najafi, A., Karimpour, M.H. and Ghaderi, M., 2014. Application of fuzzy AHP method to IOCG prospectivity mapping: A case study in Taherabad prospecting area, eastern Iran. International Journal of Applied Earth Observation and Geoinformation, 33(1): 142-154.

Ng, J. and Gong, S., 2002. Composite support vector machines for detection of faces across views and pose estimation. Image and Vision Computing, 20(5): 359-368.

Oh, H.J. and Lee, S., 2010. Application of artificial neural network for gold–silver deposits potential mapping: a case study of Korea. Natural Resources Research, 19(2): 103-124.

Oommen, T., Misra, D., Prakash, A., Bandopadhyay, S., Naidu, S. and Kelley, J.J., 2011. Multiple Regressive Pattern Recognition Technique: An Adapted Approach for Improved Georesource Estimation. Natural Resources Research, 20(1): 11-24.

Porwal, A., Carranza, E. and Hale, M., 2003a. Artificial neural networks for mineral-potential mapping: a case study from Aravalli Province, Western India. Natural Resources Research, 12(3): 155-171.

Porwal, A., Carranza, E. and Hale, M., 2003b. Knowledge-driven and data-driven fuzzy models for predictive mineral potential mapping. Natural Resources Research, 12(1): 1-25.

Porwal, A., Carranza, E. and Hale, M., 2004. A hybrid neuro-fuzzy model for mineral potential mapping. Mathematical Geology, 36(7): 803-826.

Porwal, A., Carranza, E.J.M. and Hale, M., 2006a. Bayesian network classifiers for mineral potential mapping. Computers and Geosciences, 32(1): 1-16.

Porwal, A., Carranza, E.J.M. and Hale, M., 2006b. A hybrid fuzzy weights-of-evidence model for mineral potential mapping. Natural Resources Research, 15(1): 1-14.

Porwal, A., Gonzalez-Alvarez, I., Markwitz, V., McCuaig, T. and Mamuse, A., 2010a. Weights-of-evidence and logistic regression modeling of magmatic nickel sulfide prospectivity in the Yilgarn Craton, Western Australia. Ore Geology Reviews, 38(3): 184-196.

Porwal, A., Yu, L. and Gessner, K., 2010b. SVM-based base-metal prospectivity modeling of the Aravalli Orogen, northwestern India. European Geosciences Union General Assembly Conference, Austria Center, Vienna, Austria.

Rahman, A., Dutta, R. and Smith, D., 2013. Exploring mineral domains with genetic algorithm. International Joint Conference on Neural Networks, Fairmont Hotel, Dallas, TX, USA.

Rendu, J., 1979. Kriging, logarithmic Kriging, and conditional expectation: comparison of theory with actual results. 16th Application Of Computers And Operations Research in the Mineral Industry )APCOM( Symposium, University of Arizona,Tucson, Arizona.

Rigol-Sanchez, J., Chica-Olmo, M. and Abarca-Hernandez, F., 2003. Artificial neural networks as a tool for mineral potential mapping with GIS. International Journal of Remote Sensing, 24(5): 1151-1156.

Ross, T.J., 2009. Fuzzy logic with engineering applications. John Wiley and Sons, New York, USA, 606 pp.

Samanta, B., Bandopadhyay, S. and Ganguli, R., 2002. Data segmentation and genetic algorithms for sparse data division in Nome placer gold grade estimation using neural network and geostatistics. Exploration and Mining Geology, 11(1-4): 69-76.

Samanta, B., Bandopadhyay, S. and Ganguli, R., 2006. Comparative evaluation of neural network learning algorithms for ore grade estimation. Mathematical Geology, 38(2): 175-197.

Samanta, B., Bandopadhyay, S., Ganguli, R. and Dutta, S., 2004. Sparse data division using data segmentation and Kohonen network for neural network and geostatistical ore grade modeling in Nome offshore placer deposit. Natural Resources Research, 13(3): 189-200.

Savu-Krohn, C., Rantitsch, G., Auer, P., Melcher, F. and Graupner, T., 2011. Geochemical fingerprinting of coltan ores by machine learning on uneven datasets. Natural Resources Research, 20(3): 177-191.

Shin, K.S., Lee, T.S. and Kim, H.j., 2005. An application of support vector machines in bankruptcy prediction model. Expert Systems with Applications, 28(1): 127-135.

Singer, D.A. and Kouda, R., 1996. Application of a feedforward neural network in the search for Kuroko deposits in the Hokuroku district, Japan. Mathematical Geology, 28(8): 1017-1023.

Singer, D.A. and Kouda, R., 1999. A comparison of the weights-of-evidence method and probabilistic neural networks. Natural Resources Research, 8(4): 287-298.

Skabar, A., 2003. Mineral potential mapping using feed-forward neural networks. International Joint Conference on Neural Networks, Portland State University, Portland, USA.

Skabar, A., 2007. Mineral potential mapping using Bayesian learning for multilayer perceptrons. Mathematical Geology, 39(5): 439-451.

Skabar, A.A., 2005. Mapping mineralization probabilities using multilayer perceptrons. Natural Resources Research, 14(2): 109-123.

Smirnoff, A., Boisvert, E. and Paradis, S.J., 2008. Support vector machine for 3D modelling from sparse geological information of various origins. Computers & Geosciences, 34(2): 127-143.

Specht, D.F., 1991. A general regression neural network. IEEE Transactions on Neural Networks, 2(6): 568-576.

Sugeno, M., 1985. Industrial applications of fuzzy control. North-Holland, Michigan, USA, 269 pp.

Tahmasebi, P. and Hezarkhani, A., 2010. Comparison of optimized neural network with fuzzy logic for ore grade estimation. Australian Journal of Basic and Applied Sciences, 4(5): 764-772.

Tahmasebi, P. and Hezarkhani, A., 2011. Application of a modular feedforward neural network for grade estimation. Natural Resources Research, 20(1): 25-32.

Tahmasebi, P. and Hezarkhani, A., 2012. A hybrid neural networks-fuzzy logic-genetic algorithm for grade estimation. Computers and Geosciences, 42(1): 18-27.

Tangestani, M. and Moore, F., 2003. Mapping porphyry copper potential with a fuzzy model, northern Shahr‐e‐Babak, Iran. Australian Journal of Earth Sciences, 50(3): 311-317.

Topçu, İ.B. and Sarıdemir, M., 2008. Prediction of rubberized concrete properties using artificial neural network and fuzzy logic. Construction and Building Materials, 22(4): 532-540.

Tutmez, B., 2009. Use of hybrid intelligent computing in mineral resources evaluation. Applied Soft Computing, 9(3): 1023-1028.

Twarakavi, N.K., Misra, D. and Bandopadhyay, S., 2006. Prediction of arsenic in bedrock derived stream sediments at a gold mine site under conditions of sparse data. Natural Resources Research, 15(1): 15-26.

Wang, G., Zhang, S., Yan, C., Song, Y., Sun, Y., Li, D. and Xu, F., 2011. Mineral potential targeting and resource assessment based on 3D geological modeling in Luanchuan region, China. Computers and Geosciences, 37(12): 1976-1988.

Wang, Z. and ChangYu, Z., 2010. Rocks/Minerals Information Extraction from EO-1 Hyperion Data Base on SVM. International Conference on Intelligent Computation Technology and Automation (ICICTA), Changsha University of Science and Technology, Changsha, China.

Yager, R.R. and Zadeh, L.A., 2012. An introduction to fuzzy logic applications in intelligent systems. Springer, Michigan, USA, 356 pp.

Yama, B. and Lineberry, G., 1999. Artificial neural network application for a predictive task in mining. Mining Engineering, 51(2): 59-64.

Yu, L., Porwal, A., Holden, E.J. and Dentith, M.C., 2012. Towards automatic lithological classification from remote sensing data using support vector machines. Computers and Geosciences, 45(1): 229-239.

Zadeh, L.A., 1965. Fuzzy sets. Information and Control, 8(3): 338-353.

Zhang, X., Song, S., Li, J. and Wu, C., 2013. Robust LS-SVM regression for ore grade estimation in a seafloor hydrothermal sulphide deposit. Acta Oceanologica Sinica, 32(8): 16-25.

Ziaii, M., Abedi, A. and Ziaei, M., 2009. Geochemical and mineralogical pattern recognition and modeling with a Bayesian approach to hydrothermal gold deposits. Applied Geochemistry, 24(6): 1142-1146.

Ziaii, M., Abedi, A. and Ziaii, M., 2007. Prediction of hidden ore bodies by new integrated computational model in marginal Lut region in east of Iran. Fifth Decennial International Conference on Mineral Exploration, Metro Toronto Convention Centre, Toronto, Canada.

Ziaii, M., Ardejani, F.D., Ziaei, M. and Soleymani, A.A., 2012. Neuro-fuzzy modeling based genetic algorithms for identification of geochemical anomalies in mining geochemistry. Applied Geochemistry, 27(3): 663-676.

Zuo, R. and Carranza, E.J.M., 2011. Support vector machine: A tool for mapping mineral prospectivity. Computers & Geosciences, 37(12): 1967-1975.

Zuo, R., Cheng, Q. and Agterberg, F.P., 2009. Application of a hybrid method combining multilevel fuzzy comprehensive evaluation with asymmetric fuzzy relation analysis to mapping prospectivity. Ore Geology Reviews, 35(1): 101-108.